RECLINING CHAIR WITH COUNTERBALANCE ADJUSTMENT SYSTEM
20260047686 ยท 2026-02-19
Inventors
- Willis Jay Mullet (Gulf Breeze, FL, US)
- Richard Scott Hand (Pensacola, FL, US)
- Jacob Kubik (Pensacola, FL, US)
Cpc classification
International classification
Abstract
In one or more arrangements, as examples, a reclining chair is presented having a frame, a seat operably connected to the frame, a backrest operably connected to the frame and moveable between an upright position and a reclined position. In one or more arrangements, the chair includes a counterbalance assembly positioned within a hollow interior of the backrest and configured to provide a counterbalance force to move backrest to the upright position in absence of an opposing force. In one or more arrangements, the chair includes an externally accessible adjustment system to facilitate adjustment of the counterbalance force provided by the counterbalance assembly.
Claims
1. A seating system, comprising: a frame; a seat; the seat operably connected to the frame; a backrest; the backrest operably connected to the frame; the backrest having a hollow interior; a counterbalance assembly; the counterbalance assembly positioned within the hollow interior of the backrest; wherein the backrest is configured to move between an upright position and a reclined position relative to the frame; wherein the counterbalance assembly is configured to provide a counterbalance force to the backrest to move the backrest to the upright position in absence of an opposing force; an adjustment system; the adjustment system having an actuator accessible from an exterior of the backrest; the adjustment system configured to adjust the amount of the counterbalance force provided by the counterbalance assembly by movement of the actuator.
2. The system of claim 1, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest.
3. The system of claim 1, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in a bottom edge of the backrest.
4. The system of claim 1, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest; wherein the wheel has finger indentations extending around an outer circumference of the wheel.
5. The system of claim 1, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest; wherein the wheel has teeth extending around an outer circumference of the wheel.
6. The system of claim 1, wherein the actuator is a lever.
7. The system of claim 1, wherein the actuator is a slider.
8. The system of claim 1, wherein the actuator is a knob.
9. The system of claim 1, wherein the counterbalance assembly includes at least one spring; wherein the adjustment system is configured to adjust the amount of force provided by the counterbalance assembly by adjusting tension of the at least one spring.
10. The system of claim 1, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a belt positioned on and extending between a first pully mechanically connected to the actuator and a second pully mechanically connected to the at least one spring.
11. The system of claim 1, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a cogged belt positioned on and extending between a first pully mechanically connected to the actuator and a second pully mechanically connected to the at least one spring.
12. The system of claim 1, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a chain positioned on and extending between a first sprocket mechanically connected to the actuator and a second sprocket mechanically connected to the at least one spring.
13. The system of claim 1, wherein the counterbalance assembly includes at least one torsion spring; wherein the adjustment system is configured to adjust the amount of force provided by the counterbalance assembly by adjusting tension of the at least one torsion spring.
14. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes an upper axle that extends through the backrest from side to side.
15. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the counterbalance assembly includes at least one torsion spring and is positioned around the upper axle of the reclining mechanism.
16. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the reclining mechanism includes a pair of links connected to opposite sides of the upper axle; wherein the pair of links are operably connected to the frame.
17. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the reclining mechanism includes a pair of links connected to opposite sides of the upper axle; wherein the pair of links are operably connected to the frame; wherein the counterbalance assembly is configured to rotate the pair of links.
18. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side.
19. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side; wherein the reclining mechanism includes a pair of rollers connected to opposite ends of the lower axle; wherein the pair of rollers are configured to roll within the frame.
20. The system of claim 1, wherein the backrest is operably connected to the frame by a reclining mechanism; wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side; wherein the reclining mechanism includes a pair of sliders connected to opposite ends of the lower axle; wherein the pair of sliders are configured to move along a slotted track within the frame.
21. A seating system, comprising: a frame; a seat; the seat operably connected to the frame; a backrest; the backrest operably connected to the frame; the backrest having a hollow interior; a reclining mechanism; wherein the reclining mechanism operably connects the backrest to the frame; wherein the reclining mechanism is configured to move the backrest between an upright position and a reclined position relative to the frame; a counterbalance assembly; the counterbalance assembly positioned within the hollow interior of the backrest; wherein the counterbalance assembly is configured to provide a counterbalance force to the backrest to move the backrest to the upright position in absence of an opposing force; an adjustment system; the adjustment system having an actuator accessible from an exterior of the backrest; the adjustment system configured to adjust the amount of the counterbalance force provided by the counterbalance assembly by movement of the actuator.
22. The system of claim 21, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest.
23. The system of claim 21, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in a bottom edge of the backrest.
24. The system of claim 21, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest; wherein the wheel has finger indentations extending around an outer circumference of the wheel.
25. The system of claim 21, wherein the actuator is a wheel positioned within the hollow interior and extending outward through an opening in the backrest; wherein the wheel has teeth extending around an outer circumference of the wheel.
26. The system of claim 21, wherein the actuator is a lever.
27. The system of claim 21, wherein the actuator is a slider.
28. The system of claim 21, wherein the actuator is a knob.
29. The system of claim 21, wherein the counterbalance assembly includes at least one spring; wherein the adjustment system is configured to adjust the amount of force provided by the counterbalance assembly by adjusting tension of the at least one spring.
30. The system of claim 21, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a belt positioned on and extending between a first pully mechanically connected to the actuator and a second pully mechanically connected to the at least one spring.
31. The system of claim 21, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a cogged belt positioned on and extending between a first pully mechanically connected to the actuator and a second pully mechanically connected to the at least one spring.
32. The system of claim 21, wherein the counterbalance assembly includes at least one spring; wherein the actuator is mechanically connected to the at least one spring by a mechanical assembly including a chain positioned on and extending between a first sprocket mechanically connected to the actuator and a second sprocket mechanically connected to the at least one spring.
33. The system of claim 21, wherein the counterbalance assembly includes at least one torsion spring; wherein the adjustment system is configured to adjust the amount of force provided by the counterbalance assembly by adjusting tension of the at least one torsion spring.
34. The system of claim 21, wherein the reclining mechanism includes an upper axle that extends through the backrest from side to side.
35. The system of claim 21, wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the counterbalance assembly includes at least one torsion spring and is positioned around the upper axle of the reclining mechanism.
36. The system of claim 21, wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the reclining mechanism includes a pair of links connected to opposite sides of the upper axle; wherein the pair of links are operably connected to the frame.
37. The system of claim 21, wherein the reclining mechanism includes an upper axle that extends across the backrest from side to side; wherein the reclining mechanism includes a pair of links connected to opposite sides of the upper axle; wherein the pair of links are operably connected to the frame; wherein the counterbalance assembly is configured to rotate the pair of links.
38. The system of claim 21, wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side.
39. The system of claim 21, wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side; wherein the reclining mechanism includes a pair of rollers connected to opposite ends of the lower axle; wherein the pair of rollers are configured to roll within the frame.
40. The system of claim 21, wherein the reclining mechanism includes a lower axle that extends through the backrest from side to side; wherein the reclining mechanism includes a pair of sliders connected to opposite ends of the lower axle; wherein the pair of sliders are configured to move along a slotted track within the frame.
41. A seating system, comprising: a frame; a seat; the seat operably connected to the frame; a backrest; the backrest having a rear support member and a front support member; wherein the rear support member and the front support member operably connect to form a hollow interior; a counterbalance assembly; the counterbalance assembly positioned within the hollow interior of the backrest; wherein the backrest is configured to move between an upright position and a reclined position relative to the frame; an adjustment system; the adjustment system having an actuator; wherein the counterbalance assembly and the adjustment system are not visible from a front of the backrest, a back of the backrest, a top of the backrest, or sides of the backrest; wherein the actuator of the adjustment system is accessible from the bottom of the backrest; and wherein the actuator of the adjustment system is positioned above the bottom of the backrest.
42. The system of claim 41, wherein the rear support member and the front support member are removably connected.
43. The system of claim 41, wherein the rear support member and the front support member are operably connected via a bracket.
44. The system of claim 41, wherein the rear support member and the front support member are operably connected via connectors.
45. A seating system, comprising: a frame; a seat; the seat operably connected to the frame; a backrest; the backrest having a rear support member and a front support member; wherein the rear support member and the front support member operably connect to form a hollow interior; a counterbalance assembly; the counterbalance assembly positioned within the hollow interior of the backrest; wherein the backrest is configured to move between an upright position and a reclined position relative to the frame; an adjustment system; the adjustment system having an actuator; wherein the counterbalance assembly and the adjustment system are not visible from a front of the backrest, a back of the backrest, a top of the backrest, or sides of the backrest; wherein the actuator of the adjustment system is positioned in the recess between the rear support member and the front support member; and wherein the actuator is accessible from a bottom of the backrest through a recess between the rear support member and the front support member.
46. The system of claim 45, wherein the rear support member and the front support member are removably connected.
47. The system of claim 45, wherein the rear support member and the front support member are operably connected via a bracket.
48. The system of claim 45, wherein the rear support member and the front support member are operably connected via connectors.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
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SUMMARY OF THE DISCLOSURE
[0154] In one or more arrangements, a reclining chair is presented having a frame, a seat operably connected to the frame, a backrest operably connected to the frame, and a counterbalance assembly, and an adjustment system. The backrest is operably connected to the frame and moveable between an upright position and a reclined position. The counterbalance assembly positioned within a hollow interior of the backrest and is configured to provide a counterbalance force to the backrest to the upright position in absence of an opposing force. In one or more arrangements, the counterbalance assembly includes the upper axle, and the upper axle operably connects the counterbalance assembly with the frame. In one or more arrangements, the chair includes an externally accessible adjustment system to facilitate adjustment of the counterbalance force provided by the counterbalance assembly.
DETAILED DESCRIPTION OF THE DISCLOSURE
[0155] In the following detailed description of the embodiments, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in which the disclosure may be practiced. The embodiments of the present disclosure described below are not intended to be exhaustive or to limit the disclosure to the precise forms in the following detailed description. Rather, the embodiments are chosen and described so that others skilled in the art may appreciate and understand the principles and practices of the present disclosure. It will be understood by those skilled in the art that various changes in form and details may be made without departing from the principles and scope of the invention. It is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures. For instance, although aspects and features may be illustrated in or described with reference to certain figures or embodiments, it will be appreciated that features from one figure or embodiment may be combined with features of another figure or embodiment even through the combination is not explicitly shown or explicitly described as a combination. In the depicted embodiments, like reference numbers refer to like elements throughout the various drawings.
[0156] It should be understood that any advantages and/or improvements discussed herein may not be provided by various disclosed embodiments, or implementations thereof. The contemplated embodiments are not so limited and should not be interpreted as being restricted to embodiments which provide such advantages or improvements. Similarly, it should be understood that various embodiments may not address all or any objects of the disclosure or objects of the invention that may be described herein. The contemplated embodiments are not so limited and should not be interpreted as being restricted to embodiments which address such objects of the disclosure or invention. Furthermore, although some disclosed embodiments may be described relative to specific materials, embodiments are not limited to the specific materials or apparatuses but only to their specific characteristics and capabilities and other materials and apparatuses can be substituted as is well understood by those skilled in the art in view of the present disclosure.
[0157] It is to be understood that the terms such as left, right, top, bottom, front, backrest, side, height, length, width, upper, lower, interior, exterior, inner, outer, and the like as may be used herein, merely describe points of reference and do not limit the present invention to any particular orientation or configuration.
[0158] As used herein, and/or includes all combinations of one or more of the associated listed items, such that A and/or B includes A but not B, B but not A, and A as well as B, unless it is clearly indicated that only a single item, subgroup of items, or all items are present. The use of etc. is defined as et cetera and indicates the inclusion of all other elements belonging to the same group of the preceding items, in any and/or combination(s).
[0159] As used herein, the singular forms a, an, and the are intended to include both the singular and plural forms, unless the language explicitly indicates otherwise. Indefinite articles like a and an introduce or refer to any modified term, both previously-introduced and not, while definite articles like the refer to a same previously-introduced term; as such, it is understood that a or an modify items that are permitted to be previously-introduced or new, while definite articles modify an item that is the same as immediately previously presented. It will be further understood that the terms comprises, comprising, includes, and/or including, when used herein, specify the presence of stated features, characteristics, steps, operations, elements, and/or components, but do not themselves preclude the presence or addition of one or more other features, characteristics, steps, operations, elements, components, and/or groups thereof, unless expressly indicated otherwise. For example, if an embodiment of a system is described as comprising an article, it is understood the system is not limited to a single instance of the article unless expressly indicated otherwise, even if elsewhere another embodiment of the system is described as comprising a plurality of articles.
[0160] It will be understood that when an element is referred to as being connected, coupled, mated, attached, fixed, etc. to another element, it can be directly connected to the other element, and/or intervening elements may be present. In contrast, when an element is referred to as being directly connected, directly coupled, directly engaged etc. to another element, there are no intervening elements present. Other words used to describe the relationship between elements should be interpreted in a like fashion (e.g., between versus directly between, adjacent versus directly adjacent, engaged versus directly engaged, etc.). Similarly, a term such as operatively, such as when used as operatively connected or operatively engaged is to be interpreted as connected or engaged, respectively, in any manner that facilitates operation, which may include being directly connected, indirectly connected, electronically connected, wirelessly connected, or connected by any other manner, method or means that facilitates desired operation. Similarly, a term such as communicatively connected includes all variations of information exchange and routing between two electronic devices, including intermediary devices, networks, etc., connected wirelessly or not. Similarly, connected or other similar language particularly for electronic components is intended to mean connected by any means, either directly or indirectly, wired and/or wirelessly, such that electricity and/or information may be transmitted between the components.
[0161] It will be understood that, although the ordinal terms first, second, etc. may be used herein to describe various elements, these elements should not be limited to any order by these terms unless specifically stated as such. These terms are used only to distinguish one element from another; where there are second or higher ordinals, there merely must be a number of elements, without necessarily any difference or other relationship. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of example embodiments or methods.
[0162] Similarly, the structures and operations discussed herein may occur out of the order described and/or noted in the figures. For example, two operations and/or figures shown in succession may in fact be executed concurrently or may sometimes be executed in the reverse order, depending upon the functionality/acts involved. Similarly, individual operations within example methods described below may be executed repetitively, individually, or sequentially, to provide looping or other series of operations aside from single operations described below. It should be presumed that any embodiment or method having features and functionality described below, in any workable combination, falls within the scope of example embodiments.
[0163] As used herein, various disclosed embodiments may be primarily described in the context of chairs. However, the embodiments are not so limited. It is appreciated that the embodiments may be adapted for use in other applications which may be improved by the disclosed structures, arrangements and/or methods. The system is merely shown and described as being used in the context of chairs for ease of description and as one of countless examples.
System 10:
[0164] With reference to the figures, a seating system 10 (or simply system 10) is presented. The system 10 is formed of any suitable size, shape, and design and is configured to hold and support an occupant in a seated position as well as facilitate movement between an upright position and a reclined position. In the arrangement shown, as one example, system 10 includes the following component pieces: a seat 12, a backrest 14, a frame 16, arm covers 18, and a reclining mechanism 20, among other components.
Seat 12:
[0165] Seat 12 is formed of any suitable size, shape, and design and is configured to provide a surface for seating of an occupant thereupon. In the arrangement shown, as one example, seat 12 includes a seat assembly 26 and a cushion 28 among other components. In this example arrangement, seat assembly 26 is configured to operably connect with frame 16 and support cushion 28 on a top surface of seat assembly 26.
Seat Assembly 26:
[0166] Seat assembly 26 is formed of any suitable size, shape, and design and is configured to provide a surface for seating of an occupant thereupon. In the arrangement shown, as one example, seat assembly 26 includes a lower support member 30 and an upper seat member 32.
[0167] Lower support member 30 is formed of any suitable size, shape, and design and is configured to operably connect with frame 16 and support upper seat member 32. In the arrangement shown, as one example, lower support member 30 has a generally rectangular planar shaped top 56 and bottom 58 extending between a front edge 40, a back edge 42, and opposing side edges 44. In this example arrangement, lower support member 30 has an outer perimeter positioned in an upper plane and a center indent 48, in which lower support member 30 extends downward to a lower plane. Center indent 48 forms a recess in an upper surface of lower support member 30 to accommodate flexing of webbing 70 (not shown) of upper seat member 32. Center indent 48 also provides structural rigidity to seat assembly 26.
[0168] In this example arrangement, lower support member 30 includes flanges extending outward from opposing side edges 44 to form connection members 54. In one or more arrangements, connection members 54 are configured to engage frame 16 in a manner to hold seat 12 in place on the frame 16. Additionally or alternatively, in one or more arrangements, connection members 54 and frame 16 may include holes (not shown) to facilitate connection of connection members 54 of seat 12 to frame 16, for example using bolts. However, embodiments are not so limited. Rather, it is contemplated that in various arrangements, connection members 54 may be attached to frame 16 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
[0169] Upper seat member 32 is formed of any suitable size, shape, and design and is configured to operably connect with lower support member 30 and cushion 28 and provide a surface to support cushion 28. In the arrangement shown, as one example, upper seat member 32 has a generally rectangular planar shape extending between a front edge 60, a back edge 62, and opposing side edges 64. In this example arrangement, upper seat member 32 has contoured side portions 66 that curve upward proximate to opposing side edges 64. However, the embodiments are not so limited. Rather, it is contemplated that in various arrangements, various portions of upper seat member 32 may be contoured for comfort and/or aesthetic appearance.
[0170] In one or more arrangements, upper seat member 32 is connected to lower support member 30 by fasteners (not shown) through holes (not shown) in lower support member 30. However, the embodiments are not so limited. Rather, it is contemplated that in various arrangements, upper seat member 32 may be attached to lower support member 30 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
[0171] In one or more arrangements, upper seat member 32 has a rectangular opening 68 (not shown) in a center portion of upper seat member 32 and webbing 70 (not shown) extending across opening 68. Webbing 70 provides a strong seating base while offering some give to provide a more comfortable seating surface.
Cushion 28:
[0172] Cushion 28 is formed of any suitable size, shape, and design and is configured to comfortably support a person sitting thereon. In the arrangement shown, as one example, cushion 28 has a generally cuboid shape having a top 74, a bottom 76, and sides 78. In this example arrangement, cushion 28 includes a foam core 82 covered by upholstery material 84 on at least one side.
Foam Core 82:
[0173] Foam core 82 is formed of any suitable size, shape, and design and is configured to provide comforting support when seated upon. In one or more arrangements, foam core 82 is also configured to prevent water from becoming trapped within the foam core 82. For instance, in some various arrangements, foam core 82 may be comprised of one or more foams (e.g., reticulated foam, polyurethane foam, open cell rubber and/or any other foam material), feathers, fibers, polyester, batting and/or any other fill material for cushions.
Upholstery Material 84:
[0174] Upholstery material 84 is formed of any suitable size, shape, and design and is configured to provide a comfortable seating surface and aesthetically pleasing appearance. In some various arrangements, upholstery material 84 may include but is not limited to, for example, natural materials such as cotton, silk, wool, linen, and/or leather, or synthetic material such as polyester, polypropylene, nylon, acrylic, rayon, vinyl, and/or synthetic leathers, and/or any other upholstery material.
[0175] In one or more arrangements, bottom 76 of cushion 28 is attached to a top 56 of upper seat member 32 of seat assembly 26. It is contemplated that in various arrangements, cushion 28 may be attached to upper seat member 32 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, stitching, hook and loop connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
Backrest 14:
[0176] The backrest 14 is formed of any suitable size, shape, and design and is configured to provide a surface to provide backrest support for an occupant seated on seat 12. In the arrangement shown, as one example, backrest 14 includes a backrest support assembly 100 and a cushion 106 among other components.
Backrest Support Assembly 100:
[0177] Backrest support assembly 100 is formed of any suitable size, shape, and design and is configured to provide a backrest rest surface for an occupant seated on seat 12. In the arrangement shown, as one example, backrest support assembly 100 includes a rear support member 102 and a front support member 104 that form a hollow interior 108 (not shown) when joined together. However, the arrangements are not so limited. Rather, it is contemplated that in one or more arrangements, backrest support assembly 100 may be of solid construction without hollow interior (e.g., in arrangements omitting reclining mechanism 20 or components thereof in hollow interior 108).
Rear Support Member 102 and Front Support Member 104:
[0178] Rear support member 102 and front support member 104 are formed of any suitable size, shape, and design and are configured to form a hollow interior 108 and provide a forward surface suitable for operation as a backrest rest. In the arrangement shown, as one example, rear support member 102 has a generally rectangular planar shape having a front surface 120 and a rear surface 122 extending between an upper edge 112, a lower edge 114, and opposing side edges 116. In this example arrangement, rear support member 102 has contoured side portions 118 that curve forward proximate to side edges 116. In the arrangement shown, rear support member 102 includes an upper set of holes 136 and a lower set of holes 138 positioned in side portions 118 to facilitate connection with reclining mechanism 20.
[0179] In one or more arrangements, front support member 104 has a front surface 130 and rear surface 132 extending between an upper edge 124, lower edge 126, and opposing side edges 128. In this example arrangement, front support member 104 has a complementary shape to rear support member 102 so that upper edge 124, lower edge 126, and side edges 128 align with upper edge 112, a lower edge 114, and opposing side edges 116 of rear support member 102 when front support member 104 and rear support member 102 are connected together. In this example arrangement, rear surface 132 of front support member 104 includes a recess (not shown) to form hollow interior 108 when front support member 104 and rear support member 102 are connected together.
Cushion 106:
[0180] In the arrangement shown, backrest 14 includes a cushion 106 connected to front surface 130 of front support member 104. Cushion 106 is formed of any suitable size, shape, and design and is configured to provide a comfortable backrest support surface for an occupant of system 10. In the arrangement shown, as one example, cushion 106 has a generally rectangular shape, when viewed from the front, having a top 144, a bottom 146, opposing sides 148, a front surface 150, and a backrest surface 152 (not shown). In this example arrangement, front surface 150 of cushion 106 has an outward curved shape when viewed from the side. In this example arrangement, cushion 106 includes a foam core 82 covered by upholstery material 84 on at least one side as discussed with reference to cushion 28. As described with reference to cushion 28, cushion 106 may be attached to front support member 104 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, stitching, hook and loop connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
[0181] In one or more arrangements, front support member 104 is connected to rear support member 102 by fasteners (not shown) through holes (not shown) in front support member 104 and/or rear support member 102. However, the embodiments are not so limited. Rather, it is contemplated that in various arrangements, front support member 104 may be attached to rear support member 102 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
[0182] Additionally or alternatively, in one or more arrangements front support member 104 and cushion 106 of backrest 14 may be connected to rear support member 102 of backrest by one or more magnetic components 158 (e.g., magnetic and/or ferric materials). Use of magnetic components 158 to facilitate connection between front support member 104 and rear support member 102 may be useful, for example, to facilitate easy removal of front support member 104 and cushion 106 for adjustment or maintenance of system 10. For example, in the arrangement shown, one or more components of reclining mechanism 20 (e.g., a counterbalance assembly 304) are positioned within hollow interior 108. For instance, in one or more arrangements, it may be desirable to facilitate easy removal of front support member 104 and cushion 106 for adjustment of the counterbalance assembly 304 to provide a desired amount of resistance force to backrest 14 when a user reclines. In one or more arrangements, front support member 104 and/or rear support member 102 have features 160 (e.g., recesses and/or protrusions) configured to hold the magnetic components 158 connected to front support member 104 in close proximity to the magnetic components 158 connected to rear support member 102 when front support member 104 and rear support member 102 are connected together, thereby ensuring a strong magnetic bond.
Frame 16:
[0183] Frame 16 is formed of any suitable size, shape, and design and is configured to operably connect with and support seat 12, backrest 14, and reclining mechanism 20 of system 10 to provide seating for an occupant of system 10. In the arrangement shown, as one example, frame 16 is a tubular chair frame having a base section 170, a seat support section 172, and an arm support section 174, among other components. In the example arrangement shown, frame 16 is formed of cylindrical shaped tube(s). However, the arrangements are not so limited. Rather, it is contemplated that frame 16 may be formed of materials of any type including but not limited to, for example, tubing, pipes, rods, wires, bars, structural stock, and/or any other type of material and may have various shapes including but not limited to, for example, round, triangular, square, pentagonal, hexagonal, heptagonal, octagonal, flat or rectangular, rebar, angled, tee, channel, I-beam, H-beam, wide flange, or any other shape.
Base Section 170:
[0184] Base Section 170 of frame 16 is formed of any suitable size, shape, and design and is configured to provide stable support of system 10 on a floor. In the arrangement shown, as one example, base section 170 includes front legs 180, lower front corners 182, side bars 184, lower rear corners 186, and rear legs 188, among other components.
[0185] In this example arrangement, front legs 180 have a generally elongated tube shape extending from upper ends 190, connected to seat support section 172, to lower ends 192 connected to lower front corners 182. In this example arrangement, lower front corners 182 have a generally elongated tube shape extending from lower ends 192 and curving rearward before connecting to front ends 198 of side bars 184. In this example arrangement, side bars 184 each have an elongated tube shape extending from front end 198, where side bars 184 are connected to lower front corner 182, to a rear end 200, where side bars 184 are connected to lower rear corner 186. In one or more arrangements, side bars 184 may include one or more drain holes 212 positioned in a lower side of side bars 184 to facilitate draining of fluid that enters or condenses inside of frame 16. In this example arrangement, lower rear corners 186 have a generally elongated tube shape extending from rear ends 200 of side bars 184 and curving upward before connecting to lower ends 206 of rear legs 188. In this example arrangement, rear legs 188 have an elongated tube shape extending from lower ends 206, where rear legs 188 are connected to lower rear corners 186, to upper ends 208, where rear legs 188 connect with seat support section 172.
Seat Support Section 172:
[0186] Seat support section 172 of frame 16 is formed of any suitable size, shape, and design and is configured to support and facilitate connection of frame 16 with seat 12, while operably connecting arm support section 174 to base section 170. In the arrangement shown, as one example, seat support section 172 includes upper rear corners 214, rear sloped sections 216, center corners 218, side bars 220, and upper front corners 222, among other components.
[0187] In this example arrangement, upper rear corners 214 have a generally elongated tube shape extending from upper ends 208 of rear legs 188 and curving upward and forward and then downward and forward before connecting to upper ends 226 of rear sloped sections 216. In this example arrangement, upper rear corners 214 include a slotted track 224 positioned on an inner side of upper rear corners 214. As discussed in more detail with reference to reclining mechanism 20, slotted track 224 is configured to facilitate guiding a lower end of backrest 14 along a designated path when being moved from an upright position to a reclined position.
[0188] In this example arrangement, rear sloped sections 216 have a generally elongated tube shape extending downward at an angle from upper ends 226, where rear sloped sections 216 connect to upper rear corners 214 to lower ends 228, where rear sloped sections 216 connect to center corners 218. In this example arrangement, center corners 218 have a generally elongated tube shape extending from lower ends 228 of rear sloped sections 216 and curving forward to rear ends 234 of side bars 220. In this example arrangement, side bars 220 each have an elongated tube shape extending from rear ends 234, where side bars 220 are connected to center corners 218, to a front end 236 of side bars 220, where side bars 220 are connected to upper front corners 222. In this example arrangement, upper front corners 222 have a generally elongated tube shape extending from front ends 236 of side bars 220 and curving upward and forward and then slightly rearward before connecting to lower ends 256 of front sloped section 242 of arm support section 174.
Arm Support Section 174:
[0189] Arm support section 174 of frame 16 is formed of any suitable size, shape, and design and is configured to provide an arm rest for an occupant seated in seat 12 while operably connecting backrest 14 with frame 16. In the arrangement shown, arm support section 174 includes front sloped sections 242, front bends 244, a pair of arms 246, rear bends 248, and a rear crossbar 250 connected between rear bends 248.
[0190] In this example arrangement, front sloped sections 242 each have a contoured elongated shape extending rearward at an angle from a lower end 256, where front sloped sections 242 connect to upper front corners 222 of seat support section 172, to an upper end 258, where front sloped sections 242 connect to front bend 244. In this example arrangement, front bends 244 have a generally elongated tube shape extending from upper end 258 of front sloped sections and curving rearward before connecting to front end 264 of arms 246. In this example arrangement, arms 246 each have an elongated tube shape extending from front end 264 to rear ends 266, where arms 246 are connected to rear bends 248. In this example arrangement, arms 246 include holes 270 (not shown) located proximate to rear ends 266 and extending sideways through arms 246 to facilitate connection with reclining mechanism 20. In this example arrangement, rear bends 248 connect arms 246 to rear crossbar 250. In this example arrangement, rear bends 248 have a generally elongated tube shape extending from rear end 266 of arms 246 and curving inward before connecting to opposing ends 274 of rear crossbar 250. In this example arrangement, rear crossbar 250 has an elongated tube shape extending between the opposing ends 274 to operably connect right and left sides of the frame 16 together.
[0191] In one or more arrangements shown, components of frame 16 are illustrated as separate components and/or sections that are connected together. However, the embodiments are not so limited. Rather, it is contemplated that, in one or more arrangements, frame 16 may be formed as a unitary frame, for example, formed by bending a single tube.
Arm Covers 18:
[0192] In the arrangement shown, system 10 includes arm covers 18 positioned on top of arms 246. Arm covers 18 are formed of any suitable size, shape, and design and are configured to connect with arms 246 and provide comfortable arm rests for an occupant seated in seat 12 while providing an aesthetically pleasing appearance. In the arrangement shown, as one example, arm covers 18 each have a generally elongated rectangular shape having a top, a bottom, and opposing sides extending between a front end and a back end. In this example arrangement, arm covers 18 each have a recessed cylindrical channel 290 (not shown) formed in bottom and extending from front end to back end. In this example arrangement, recessed cylindrical channels 290 (not shown) are configured to fit over arms 246.
[0193] In one or more arrangements, arm covers 18 are connected to arms 246 by a set of fasteners 292 (not shown) such as bolts which extend through holes (not shown) in arms 246 and connect with arm covers 18. As another example, in one or more arrangements, fasteners 292 (not shown) may include connectors extending upward from arms 246 and are configured to be received and connect with receivers formed in bottom of arm covers 18. For instance, bottom may include keyhole shaped openings having wide portion and a narrow portion. Such openings may be configured to receive a head of connectors of arms 246 and lock with the connectors by sliding arm covers 18 so the head is positioned in the narrow portion, thereby connecting arm covers 18 to arms 246. In one or more arrangements, the keyhole shaped opening may have a J-shape or L-shape, for example, to prevent arm covers 18 from being disconnected from arms 246 via movement or arm covers 18 in a single direction.
[0194] However, embodiments are so limited. Rather, it is contemplated that in various arrangements, arm covers 18 may be connected to arms 246 of frame 16 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, interconnects (e.g., slide connectors, rotational connectors, or any other type of interconnect), friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
Materials:
[0195] In the arrangement shown, upper seat member 32 of seat assembly 26 of seat 12 and rear support member 102 of backrest support assembly 100 of backrest 14 and arm covers 18 are formed of a wooden material, which provides an aesthetically pleasing appearance. However, the embodiments are not so limited. Rather, it is contemplated that in various arrangements, upper seat member 32, rear support member 102, arm covers 18 and/or various other components of system 10 may be formed of various natural or synthetic materials including but not limited to metals, woods, plastics, composites, laminins, of any other material.
Reclining Mechanism 20:
[0196] In one or more arrangements, system 10 includes a reclining mechanism 20. Reclining mechanism 20 is formed of any suitable size, shape, and design and is configured to facilitate connection of backrest 14 with frame 16 and facilitate movement of backrest 14 between an upright position and a reclined position. Some example reclining mechanisms 20 are shown and discussed in more detail in related U.S. patent application Ser. No. 17/955,866 filed on Sep. 29, 2022 and titled SEATING SYSTEM, the entirety of which is incorporated by reference herein. However, the arrangements are not so limited. Rather, it is contemplated that in one or more arrangements, system 10 may include various other reclining mechanism 20 implementations or may have reclining mechanism 20 omitted. In one or more arrangements shown, as one example, reclining mechanism 20 is configured to recline backrest 14 by moving an upper edge 112/124 of backrest 14 downward and rearward while also moving lower edge 114/126 of backrest 14 downward and forward. In the arrangement shown, as one example, reclining mechanism 20 includes a lower guide assembly 300, an upper guide assembly 302, and a counterbalance assembly 304.
[0197] In one or more arrangements, as examples, reclining mechanism 20 is configured to be hidden from sight when a user of system 10 is in a seated position, or when a user of system 10 is standing and viewing system 10. In one or more arrangements, as examples, reclining mechanism 20 is hidden from normal view by being positioned within the hollow interior 108 formed between rear support member 102 and front support member 104. In one or more arrangements, as examples, when rear support member 102 and front support member 104 are brought together and hollow interior 108 is formed, the majority of reclining mechanism 20 is positioned within the hollow interior 108 and only a portion of reclining mechanism 20 is accessible without disconnecting rear support member 102 and front support member 104.
[0198] In one or more arrangements, as examples, the portion of reclining mechanism 20 that is accessible without disconnecting rear support member 102 is only visible if a user of system 10 gets on the ground where system 10 is located and looks up into the hollow interior 108 of backrest support assembly 100. In one or more arrangements, as example, the portion of reclining mechanism 20 that is accessible without disconnecting rear support member 102 and front support member 104 is the portion which allows for the adjustment of the bias force applied by counterbalance assembly 304 and/or tensioner assembly 348. In one or more arrangements, as examples, the only portion of reclining mechanism 20 that is accessible without disconnecting rear support member 102 and front support member 104 is the externally accessible adjustment system 700.
Lower Guide Assembly 300:
[0199] Lower guide assembly 300 is formed of any suitable size, shape, and design and is configured to connect with and guide a lower portion of backrest 14 along slotted track 224 in frame 16 when backrest 14 is moved from an upright position to a reclined position.
[0200] In one or more arrangements shown, as one example, lower guide assembly 300 includes a lower axle 310 and a pair of rollers 312 among other components. In this example arrangement, lower axle 310 has an elongated cylindrical shape extending between opposing ends 316. In this example arrangement, lower axle 310 extends through lower set of holes 138 in side portions 118 of rear support member 102 of backrest 14. In this example arrangement, lower axle 310 extends outward from the sides of backrest 14 through slotted track 224 in frame 16 to connect with rollers 312 positioned within frame 16 at opposing ends 316 of lower axle 310.
[0201] While some arrangements may be primarily shown or described as having a continuous axle 310 extending across backrest 14 and outward from the sides of backrest 14, the embodiments are not so limited. Rather, it is contemplated that in one or more arrangements, lower guide assembly 300 may include two separate lower axles 310 connected to each side of backrest 14 to facilitate connection with rollers 312 and slotted track 224, for example as shown in
[0202] Rollers 312 are formed of any suitable size, shape, and design and are configured to connect with opposing ends 316 of lower axle 310 and move smoothly within frame 16 along the path of slotted track 224. In one or more various arrangements, rollers 312 may be implemented using various means or methods for rolling known in the art including but not limited to, for example, wheels, balls, bearings, or a combination thereof. In one or more various arrangements, rollers 312 may be attached to opposing ends 316 of lower axle 310 using various methods or means for connecting including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
Upper Guide Assembly 302:
[0203] Upper guide assembly 302 is formed of any suitable size, shape, and design and is configured to connect with and guide an upper portion of backrest 14 along a designated path when backrest 14 is moved from an upright position to a reclined position. In the arrangement shown, as one example, upper guide assembly 302 includes an upper axle 330, links 332, and hinged connections 336, among other components.
[0204] In this example arrangement, upper axle 330 has an elongated cylindrical shape extending between opposing ends 338. In this example arrangement, upper axle 330 extends through upper set of holes 136 in side portions 118 of rear support member 102 of backrest 14. In this example arrangement, upper axle 330 extends outward from the sides of backrest 14.
[0205] In this example arrangement, links 332 have an elongated generally rectangular planar shape extending between upper ends 342 and lower ends 344. In this example arrangement, lower ends 344 of links 332 are connected to the opposing ends 338 of upper axle 330. In this example arrangement, hinged connections 336 connect upper ends 342 of links 332 to arms 246 at holes 270. In one or more arrangements, edges and/or corners of link 332 are rounded to eliminate sharp edges or corners that may be contacted by an occupant of system 10.
[0206] Hinged connections 336 are formed of any suitable size, shape, or design, and are configured to facilitate connection of upper ends 342 of links 332 with arms 246, while permitting links 332 to pivot relative to arms 246. In the arrangement shown, as one example, hinged connections 336 are formed by holes in link 332 which are positioned around opposing ends 338 of upper axle 330 and fasteners (e.g., bolts, screws, or any other fasteners) that are connected to holes of arms 246. However, the embodiments are not so limited. Rather, it is contemplated that hinged connections 336 may be implemented using various methods or means for providing a hinged connection known in the art.
Counterbalance Assembly 304:
[0207] Counterbalance assembly 304 is formed of any suitable size, shape, and design and is configured to apply a bias force sufficient to move backrest 14 to an upright position in the absence of a sufficient opposing force placed on backrest (e.g., by an occupant leaning backward).
[0208] In one arrangement shown, as one example, counterbalance assembly 304 includes a pair of arms 350 connected to first ends of torsion springs 352 positioned on upper axle 330 of upper guide assembly 302. In this example arrangement, arms 350 brace against lower axle 310 to prevent rotation of the first ends of torsion springs 352 when tensioned. In this example arrangement, the other ends of torsion springs 352 are connected to upper axle 330, which is connected to lower ends 344 of links 332 of upper guide assembly 302. When viewed from the left side torsion springs 352 are tensioned to rotate upper axle 330 and links 332 clockwise in absence of a sufficient opposing force, thereby moving backrest 14 to the upright position.
[0209] However, embodiments are not so limited. Rather, it is contemplated that in various different arrangements counterbalance assembly 304 may utilize various mechanisms to move backrest 14 to the upright position including but not limited to, for example, one or more springs, one or more gas pistons, one or more gas springs, one or more hydraulic pistons, one or more actuators, one or more solenoids, one or more pneumatic members, and/or any other force generating means or combination thereof.
[0210] As an alternative example, in one or more arrangements, counterbalance assembly 304 includes torsion springs 352 and a tensioner assembly 348 operably connected to upper axle 330. In this example arrangement, torsion springs 352 each have a first end connected to upper axle 330 and a second end connected to a tensioner assembly 348. When viewed from the left side, torsion springs 352 are tensioned to rotate upper axle 330 and links 332 clockwise in absence of a sufficient opposing force, thereby moving backrest 14 to the upright position.
[0211] Tensioner assembly 348 is formed of any suitable size, shape, and design and is configured to apply tension to torsion springs 352 so as to cause torsion springs 352 to apply the bias force, by rotating upper axle 330, to move backrest 14 to an upright position in the absence of a sufficient opposing force placed on backrest 14. In the arrangement shown, as one example, tensioner assembly 348 includes a generally cylindrical tube 368 shape extending between opposing ends, where tube 368 is operably connected to second ends of torsion springs 352, a tensioner gear mechanism 374 (not shown), and a housing 366 among other components.
[0212] In this example arrangement, upper axle 330 extends through tube 368 and is configured to freely rotate relative to tube 368. In this example arrangement, tube 368 has a set of teeth 372 formed on an exterior surface of the tube 368.
[0213] In this example arrangement, tensioner assembly 348 includes a tensioner gear mechanism 374 (not shown). Tensioner gear mechanism 374 (not shown) is formed of any suitable size, shape, and design and is configured to engage teeth 372 of tube 368 and facilitate rotation of tube 368 to tension torsion springs 352. In the arrangement shown, as one example, tensioner gear mechanism 374 (not shown) includes a worm gear 376 positioned to engage teeth 372 and cause tube 368 to rotate when the worm gear 376 is rotated by a user. In this example arrangement, worm gear 376 has a generally cylindrical shape extending from a forward end 378 to a rearward end 380 and has helical features 382 extending along an exterior surface of worm gear 376.
[0214] In this example arrangement, helical features 382 engage teeth 372 so as to cause tube 368 to rotate when worm gear 376 is rotated. In this example arrangement, worm gear 376 has a set of contact features 384 at forward end 378 to facilitate operable connection with a tool (e.g., a socket, wrench, screwdriver, or any other tool) for rotation of worm gear 376 by a user. In this example arrangement, features 384 at forward end 378 are accessible by a user via a hole 434 in backrest 14. For example, in one or more arrangements, features 384 at forward end 378 of worm gear 376 may be accessible from a hole 434 positioned in rear support member 102 of backrest support assembly 100. Additionally or alternatively, in one or more arrangements, features 384 at forward end 378 of worm gear 376 may be accessible from a hole 434 positioned in front support member 104 of backrest support assembly 100, which is accessible by removing cushion 106 from front support member 104. Additionally or alternatively, in one or more arrangements, features 384 at forward end 378 of worm gear 376 may be accessed by removing front support member 104 from rear support member 102 to expose tensioner assembly 348. However, the embodiments are not limited to these example arrangements. Rather it is contemplated that in various different arrangements may provide access for adjustment of tensioner assembly 348 using various other methods of means known in the art.
[0215] However, the arrangements are not so limited. Rather, it is contemplated that tensioner assembly 348 may be implemented using various different arrangements of components and/or may be positioned at various locations within system 10 to facilitate tensioning of torsion springs 352 of counterbalance assembly 304.
[0216] However, embodiments are not so limited. Rather, it is contemplated that in various different arrangements counterbalance assembly 304 may utilize various mechanisms to move backrest 14 to the upright position including but not limited to, for example, one or more springs, one or more gas pistons, one or more gas springs, one or more hydraulic pistons, one or more actuators, one or more solenoids, one or more pneumatic members, and/or any other force generating means or combination thereof.
[0217] Housing 366: Housing 366 is formed of any suitable size, shape, and design and is configured to house cylindrical tube 368 and tensioner gear mechanism 374 (not shown) and connect counterbalance assembly 304 with backrest 14. In the arrangement shown, as one example, housing 366 includes a front plate 400 and a back plate 402 forming a hollow interior 404 for housing cylindrical tube 368 and tensioner gear mechanism 374 (not shown).
[0218] In this example arrangement, front plate 400 has a generally rectangular shape having a front surface 406 and a back surface 408, extending between a top 410, a bottom 412, and opposing sides 414. In this example arrangement, back plate 402 also has a generally rectangular shape having a front surface 418 and a back surface 420, extending between a top 422, a bottom 424, and opposing sides 426.
[0219] In this example arrangement, front surface 418 of back plate 402 and back surface 408 of front plate 400 each have a set of semi-cylindrical recesses 430 configured to receive and hold tube 368 of tensioner assembly 348. In this example arrangement, tube 368 is positioned in an opening defined by recesses 450, which extends between opposing sides 414/426 of front plate 400 and back plate 402. In this example arrangement, front surface 418 of back plate 402 and back surface 408 of front plate 400 also have circular recesses 432 configured to receive and hold worm gear 376. In this example arrangement, circular recesses 432 are positioned proximate to semi-cylindrical recesses 430 so helical features 382 of worm gear 376 engage teeth 372 of tube 368. More specifically, rearward end 380 of worm gear 376 is positioned within circular recess 432 of back plate 402 and forward end 378 of worm gear 376 is positioned in circular recess 432 of front plate 400. In this example arrangement, front plate 400 has an access hole 434 extending from front surface 406 into circular recess 432 of front plate 400 to provide access to contact features 384 of worm gear 376 to facilitate tensioning of torsion springs 352.
[0220] In one or more arrangements, front plate 400 and back plate 402 of tensioner assembly 348 are connected together by a set of fasteners 438 (e.g., bolts) that extend through holes 440 in front plate 400 and into back plate 402. However, the embodiments are not so limited. Rather, it is contemplated that in one or more arrangements front plate 400 and back plate 402 of tensioner assembly 348 may be connected using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
Stop Features 358:
[0221] In one or more arrangements, reclining mechanism 20 includes one or more stop features 358 (not shown) configured to facilitate positioning of seat 12 at one or more intermediate positions between the upright position and the reclined position. In one or more arrangements, as one example, stop feature(s) 358 may be recesses inside frame 16 that rollers 312 roll over when backrest 14 is moved between the upright and reclined positions. Due to a slightly larger amount of force required to move rollers 312 out of such recess, reclining mechanism 20 helps hold backrest 14 at one or more defined intermediate positions, thereby increasing reclining options for the occupant. However, the embodiments are not so limited. Rather, it is contemplated that reclining mechanism 20 may utilize various methods and means for holding backrest 14 at one or more intermediate positions including but not limited to, for example, recesses, protrusions, indents, detents, holes, compressive fittings, frictional stops, magnetic components, gears, latches, non-linear springs, non-linear cams, and pulleys and/or any other suitable means or methods known in the art.
[0222] In one arrangement shown, as one example, stop feature 358 may be locking assembly 360. Locking assembly 360 is formed of any suitable size, shape, and design and is configured to hold backrest 14 in various intermediate positions between the fully reclined position and the fully upright position. This essentially converts system 10 from a reclining chair to a non-reclining chair when desired by the occupant of system 10. In the arrangement shown, as one example, locking assembly 360 includes a movable body 361 with teeth 362, and a stationary member 363 with indents 364. In the arrangement shown, as one example, locking assembly 360 is configured to connect to reclining mechanism 20 through upper axle 330. More specifically, in the arrangement shown as one example, upper axle 330 extends through apertures in both movable body 361 and stationary member 363, thereby connecting locking assembly 360 to reclining mechanism 20.
[0223] Movable body 361 is formed of any suitable size, shape, and design and is configured to move along at least a portion of upper axle 330 and between a locked position and an unlocked position. In the arrangement shown, as one example, movable body 361 includes teeth 362. Teeth 362 are formed of any suitable size, shape, and design and are configured to be inserted into indents 364 of stationary member 363 in order to lock backrest 14 in an intermediate position. In the arrangement shown, as one example, movable body 361 includes six teeth 362, configured to lock backrest 14 at six different intermediate positions, however any other number of teeth 362 may be present to lock backrest 14 at any number of intermediate positions. In the arrangement shown, as one example, teeth 362 extend outward from movable body 361 in a direction toward stationary member 363. In the arrangement shown, as one example, teeth 362 are chamfered, such that teeth 362 form a pointed end. The purpose of teeth 362 being chamfered is so teeth 362 can more easily be inserted into indents 364 (i.e., perfect alignment is not needed). The chamfered shaped of teeth 362 help to guide teeth 362 into indents 364 properly.
[0224] Stationary member 363 is formed of any suitable size, shape, and design and is configured to help facilitate the locking of backrest 14 at intermediate positions. In the arrangement shown, as one example, stationary member 363 includes indents 364. Indents 364 are formed of any suitable size, shape, and design and are configured to receive and hold teeth 362 therein when movable body 361 is in a locked position. Similar to teeth 362, in the arrangement shown as one example there are six indents 364 which help define six intermediate positions, however any other number of indents 364 may be present in order to lock backrest 14 at any number of intermediate positions. Additionally, similar to teeth 362, indents 364 are chamfered in the arrangement shown as one example. The chamfered shape of indents 364 and teeth 362 helps facilitate proper alignment of, insertion into, and engagement of teeth 362 with indents 364. The chamfered indents 364 help guide teeth 362 as they are being inserted into indents 364.
[0225] In the arrangement shown, when movable body 361 is in the unlocked position, teeth 362 are disengaged from indents 364 of stationary member 363 and backrest 14 is freely movable between the upright position and the reclined position. When a user wants to lock backrest 14 at an intermediate position, the user can move backrest 14 to the desired position and then move movable body 361 of locking assembly 360 inward along upper axle 330. When movable body 361 is moved inward along upper axle 330, teeth 362 are inserted into, and held in locked engagement with, indents 364 of stationary member 363 and backrest 14 is locked in place at the desired position, which can be any position between fully upright, fully reclined, or anywhere in between fully upright and fully reclined. When the user desires to reposition backrest 14 again, the user can move movable body 361 outward along upper axle 330 to the unlocked position, thereby disengaging teeth 362 from indents 364 and allowing backrest 14 to freely move again.
[0226] In the arrangement shown, as one example, movable body 361 extends a length from an inward end (which is the end having teeth 362) and an outward end. The length of movable body 361 is as such to give a user a fair amount of surface area to properly engage and operate movable body 361 between an unlocked position and a locked position.
[0227] In an unlocked position, movable body 361 rotates with upper axle 330 of reclining mechanism 20. This is accomplished by movable body 361 having a non-round opening through its approximate middle that fits over the non-round exterior surface of upper axle 330 within close and tight tolerances that allow movable body 361 to slide a length along upper axle 330 but prevent relative rotation between upper axle 330 and movable body 361. In the unlocked position movable body 361 is disengaged from stationary member 363 and backrest 14 is in an unlocked position (i.e., backrest 14 is free to move between a fully upright position and a fully reclined position).
[0228] In a locked position, movable body 361 is engaged with stationary member 363 of locking assembly 360, thereby inhibiting the rotation of movable body 361. As noted above, movable body fits over upper axle 330 with close and tight tolerances that allow movable body 361 to slide a length along upper axle 330 but prevent relative rotation between upper axle 330 and movable body 361. When movable body 361 is engaged with stationary member 363, movable body 361 is inhibited from rotating which inhibits rotation of upper axle 330 of reclining mechanism 20. In this configuration, backrest 14 is in a locked position at the set position which can be the fully upright position, the fully reclined position, or any other position in between the fully upright position and the fully reclined position.
[0229] While locking assembly 360 and its various components have been described according to the arrangement shown, as one example, locking assembly 360 and its various components may be formed of any other size, shape, or design in order to facilitate the locking of backrest 14 at intermediate positions between the fully upright position and the fully reclined position.
In Operation:
[0230] In operation, when backrest 14 is moved to an upright position, rollers 312 are moved within frame 16 upward and rearward along slotted track 224 to an upper end of slotted track 224, thereby moving a lower end of backrest 14 upward and rearward. At the same time, link 332 of upper guide assembly 302 moves an upper end of backrest 14 upward and forward. Conversely, when backrest 14 is moved to a reclined upright position, rollers 312 are moved downward and forward along slotted track 224 to a lower end of slotted track 224, thereby moving lower end of backrest 14 downward and forward. At the same time, link 332 of upper guide assembly 302 moves the upper end of backrest 14 downward and rearward. This guided movement of backrest 14 between upright and reclined positions facilitates a more natural movement of an occupant between upright and reclined positions.
Alternative Arrangement:
[0231] One or more alternative arrangements of system 10 are presented in various figures shown as additional examples. The alternative arrangements presented are similar to the system 10 described above and shown in various other figures, and therefore unless specifically stated otherwise herein, the prior teaching and disclosure apply equally to these alternative arrangements. That is, the alternative arrangements described below are configured to be used with the same or similar seat 12, backrest 14, arm covers 18, and reclining mechanism 20 and the like, with the primary difference relating to frame 16 as is described herein.
Frame 16:
[0232] In one or more alternative arrangements shown in one or more figures, as examples, frame 16 is formed of any suitable size, shape, and design and is configured to operably connect with and support seat 12, backrest 14, and reclining mechanism 20 of system 10 to provide seating for an occupant of system 10. In the arrangement shown, as one example, frame 16 is a chair frame formed of elongated bar stock and having a base section 170, a seat support section 172, and an arm support section 174, among other components.
Base Section 170:
[0233] Base Section 170 of frame 16 is formed of any suitable size, shape, and design and is configured to provide stable support of system 10 on a floor. In the arrangement shown, as one example, base section 170 includes front legs 180, lower front corners 182, side bars 184, lower rear corners 186, and rear legs 188, among other components.
[0234] In this example arrangement, front legs 180 have a generally elongated rectangular shape extending from upper ends 190, connected to seat support section 172, to lower ends 192 connected to lower front corners 182. In this example arrangement, lower front corners 182 have a generally elongated rectangular shape extending from lower ends 192 and curving rearward before connecting to front ends 198 of side bars 184. In this example arrangement, side bars 184 each have an elongated rectangular shape extending from front end 198, where side bars 184 are connected to lower front corner 182, to a rear end 200, where side bars 184 are connected to lower rear corner 186. In this example arrangement, lower rear corners 186 have a generally elongated rectangular shape extending from rear ends 200 of side bars 184 and curving upward before connecting to lower ends 206 of rear legs 188. In this example arrangement, rear legs 188 have an elongated rectangular shape extending from lower ends 206, where rear legs 188 are connected to lower rear corners 186, to upper ends 208, where rear legs 188 connect with seat support section 172. In this example arrangement, rear legs 188 extend forward at an angle as rear legs 188 extend from lower ends 206 to upper ends 208.
Seat Support Section 172:
[0235] Seat support section 172 of frame 16 is formed of any suitable size, shape, and design and is configured to support and facilitate connection of frame 16 with seat 12, while operably connecting arm support section 174 to base section 170. In the arrangement shown, as one example, seat support section 172 includes upper rear corners 214 and side bars 220, among other components.
[0236] In this example arrangement, upper rear corners 214 have a generally elongated rectangular shape extending from upper ends 208 of rear legs 188 and curving forward before connecting to rear ends 234 of side bars 220. In this example arrangement, side bars 220 each have an elongated rectangular shape extending from rear ends 234, where side bars 220 are connected to center corners 218, to a front end 236, where side bars 220 are connected to upper ends 190 of front legs 180.
Arm Support Section 174:
[0237] Arm support section 174 of frame 16 is formed of any suitable size, shape, and design and is configured to provide an arm rest for an occupant seated in seat 12 while operably connecting backrest 14 with frame 16. In the arrangement shown, arm support section 174 includes front vertical sections 238, lower front bends 240, front sloped sections 242, upper front bends 244, a pair of arms 246, rear bends 248, and rear sloped sections 252.
[0238] In this example arrangement, front vertical sections 238 have a generally elongated rectangular shape extending from a lower end 260 connected to upper ends 190 of front legs 180 to an upper end 262.
[0239] In this example arrangement, front sloped sections 242 each have a contoured elongated shape extending rearward at an angle from a lower end 256, where front sloped sections 242 connect to upper end 262 of front vertical section 238, to an upper end 258, where front sloped sections 242 connect to upper front bend 244.
[0240] In this example arrangement, front bends 244 have a generally elongated rectangular shape extending from upper end 258 of front sloped sections 242 and curving rearward before connecting to front end 264 of arms 246.
[0241] In this example arrangement, arms 246 each have an elongated rectangular shape extending from front end 264 to rear ends 266, where arms 246 are connected to rear bends 248. In this example arrangement, arms 246 include holes 270 located proximate to rear ends 266 and extending sideways through arms 246 to facilitate connection with link 332 of upper guide assembly 302 of reclining mechanism 20.
[0242] In this example arrangement, arms 246 have recesses 450 in a bottom surface proximate to rear ends 266. Recesses 450 are formed of any suitable size, shape, and design and are configured to receive and conceal link 332 of upper guide assembly 302 when backrest 14 is moved to the upright position. In the arrangement shown, as one example implementation, recesses 450 in each arm 246 includes a first channel 452 extending upward from a bottom surface of arms 246 from a rearward end 454 to a forward end 456. In this example arrangement, recesses 450 in each arm 246 also include a second channel 458 extending from first channel 452 proximate to forward end 456 to an inner side edge of arm 246. The second channel 458 is configured to receive an end 338 of upper axle 330, where upper axle 330 connects with link 332, when backrest 14 is moved to the upright position. In this manner, upper guide assembly 302 is concealed from view when backrest 14 is not reclined, thereby giving system a more aesthetically pleasing appearance.
[0243] In this example arrangement, rear bends 248 connect arms 246 to rear sloped sections 252. In this example arrangement, rear bends 248 have a generally elongated rectangular shape extending from rear end 266 of arms 246 and curving downward and then forward before connecting to an upper end 276 of rear sloped section 252.
[0244] In this example arrangement, rear sloped sections 252 have an elongated rectangular shape extending from upper end 276 to a lower end 278, where rear sloped sections 252 connect with upper rear corners 214 of seat support section 172.
[0245] In this example arrangement, rear sloped sections 252 include a slotted track 224 positioned on an inner side of upper rear corners 214. As discussed in more detail with reference to reclining mechanism 20, slotted track 224 is configured to facilitate guiding a lower end of backrest 14 along a designated path when being moved from an upright position to a reclined position. In the example arrangement shown, slotted track 224 is configured to receive a guide member 314 operably connected to an end 316 of lower axle 310 within slotted track 224. Guide member 314 is formed of any suitable size, shape, and design, and is configured to operably hold and guide end 316 of lower axle 310 along slotted track 224 as backrest 14 is moved between reclined and upright positions. In the arrangement shown, guide member 314 is an elongated generally rectangular shaped member configured to be received and move smoothly within slotted track 224 with minimal binding. In the arrangement shown, guide member 314 is connected to end 316 of lower axle 310 by a fastener extending through a hole 318 and into end 316 of lower axle 310. However, the embodiments are not so limited. Rather, it is contemplated that in one or more arrangements guide member 314 may be connected to end 316 of lower axle 310 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
Adjustable Restriction of Movement by Inserts 460:
[0246] In one or more arrangements, the range of movement of backrest may be restricted using inserts 460 (not shown). Inserts 460 are formed of any suitable size, shape, and design, and are configured to be inserted into and held within slotted track 224 to restrict the range of motion of guide member 314 within slotted track 224. As an illustrative example, in one or more arrangements, a user may insert an insert 460 into a lower end of slotted track 224 to restrict the distance that guide member 314 can travel downward, and thereby restrict the amount that backrest can be reclined. Conversely, as another example, in one or more arrangements, the user may insert an insert 460 into an upper end of slotted track 224 to restrict the distance that guide member 314 can travel upward, and thereby restrict the amount that backrest can be moved toward the fully upright position. In this manner, positioning and range of motion of backrest 14 may be customized to suit the preferences of a user.
Locking Upper Guide Assembly 302:
[0247] In one or more arrangements, upper guide assembly 302 of reclining mechanism 20 has link 332 positioned to move backrest 14 into a locked upright position when force is applied to a rear portion of backrest 14, where force is typically applied to backrest when a user is seated upright. In this example arrangement, link 332 of upper guide assembly 302 is configured to permit reclining mechanism 20 to be moved to the reclined position when force is applied to an upper portion of backrest 14, where force is typically applied to backrest when a user leans backward while seated.
[0248] In one or more arrangements, upper guide assembly 302 of reclining mechanism 20 has link 332 configured to form an over-center latch that holds backrest 14 in the upward position when an occupant leans backward into backrest 14. In one arrangement shown, upper axle 330, where forward end of link 332 is pivotally connected to backrest 14, is positioned higher than holes 270, where rearward end of link 332 is pivotally connected to arms 246 when backrest 14 is in the upright position. In this position, when an occupant leans backward into backrest 14, force is placed on link 332 to push the forward end of link 332 and upper axle 330 upward into recess 450 in arms 350. In this position, link 332 of upper guide assembly 302 forms an over-center latch that prevents backrest 14 from reclining.
[0249] To recline backrest 14, a user may shift backrest 14 somewhat downward to a position where upper axle 330 is positioned lower than holes 270, where the rearward end of link 332 is pivotally connected to arms 246. When an occupant leans backward with backrest 14 in this position, upper guide assembly 302 of reclining mechanism 20 guides an upper edge 112/124 of backrest 14 downward and rearward while lower guide assembly 300 guides lower edge 114/126 of backrest 14 downward and forward, as previously described.
[0250] In one or more arrangements shown, components of frame 16 are described as separate components and/or sections that are connected together. However, the embodiments are not so limited. Rather, it is contemplated that, in one or more arrangements, multiple portions of frame 16 may be formed as a unitary piece, for example, formed by bending a single piece of stock.
Alternative Arrangement:
[0251] With reference to
Frame 16:
[0252] In the arrangement shown in
[0253] First Legs 480: In the arrangement shown in
[0254] In the arrangement shown as one example, first legs 480 include arms 498. Arms 498 are formed of any suitable size, shape, and design and are configured to provide a surface for a user to rest their arms on. In the arrangement shown, as one example, arms 498 is a generally square member which extends a distance between a first end 500 and a second end 502. In the arrangement shown, as one example, arms 498 include an outer surface 504 and an inner surface 506 which are co-planar with outer surface 494 and inner surface 496 of first legs 480, respectively.
[0255] In the arrangement shown, as one example, arms 498 include an arm cover 508. Arm cover 508 is formed of any suitable size, shape, and design and is configured to connect with arms 498 and provide comfortable arm rests for an occupant seated in seat 12 while providing an aesthetically pleasing appearance. In the arrangement shown, as one example, arm covers 508 each have a top 510, a bottom 512, and opposing sides 514 extending between a front end 516 and a back end 518. In the arrangement shown, as one example arm covers 508 are generally elongated and ovular in shape, with a width at the back end 518 that is larger than the width at front end 516. In this example arrangement, arm covers 508 are configured to fit over arms 498.
[0256] In one or more arrangements, arm covers 508 are connected to arms 498 by a set of fasteners (not shown) such as bolts which extend through holes (not shown) in arms 498 and connect with arm covers 508. As another example, in one or more arrangements, fasteners may include connectors extending upward from arms 498 and are configured to be received and connect with receivers formed in bottom 512 of arm covers 508. For instance, bottom 512 may include keyhole shaped openings having a wide portion and a narrow portion. Such openings may be configured to receive a head of connectors of arms 498 and lock with the connectors by sliding arm covers 508 so the head is positioned in the narrow portion, thereby connecting arm covers 508 to arms 498. In one or more arrangements, the keyhole shaped opening may have a J-shape or L-shape, for example, to prevent arm covers 508 from being disconnected from arms 498 via movement of arm covers 508 in a single direction.
[0257] However, embodiments are not so limited. Rather, it is contemplated that in various arrangements, arm covers 508 may be connected to arms 498 of first legs 480 using various methods or means including but not limited to, for example, screws, bolts, clamps, pins, rivets, welding, snap connectors, interconnects (e.g., slide connectors, rotational connectors, or any other type of interconnect), friction fit connectors, adhesives, chemical bonding, and/or any other process or means that results in a permanent of semi-permanent connection.
[0258] In the arrangement shown, as one example, as first legs 480 curve such that they move from the top end 488 near the front of system 10 to the bottom end 490 near the back of system 10, first legs 480 cross second legs 482 as second legs 482 extend from their top end 520 near the back of system 10 to their bottom end 522 near the front of system 10. In the arrangement shown, as one example, where first legs 480 and second legs 482 cross, the outer surface 494 of first legs 480 and the outer surface 526 of second legs 482 are co-planar and form a singular plane. Similarly, where first legs 480 and second legs 482 cross, the inner surface 496 of first legs 480 and the inner surface 528 of second legs 482 are co-planar and form a singular plane.
[0259] Second Legs 482: In the arrangement shown in
[0260] In the arrangement shown, as one example, second legs 482 have an outer surface 526 and an inner surface 528. In the arrangement shown, as one example, the outer surface 526 of second legs 482 is a generally flat and planar surface. In the arrangement shown, as one example, the inner surface 528 is a generally flat and planar surface with the exception of pocket 530 and slot 532 (not shown). Pocket 530 is formed of any suitable size, shape, and design and is configured to receive and hold cartridge 540 therein. In the arrangement shown, as one example, pocket 530 is a recess within second legs 482 and is located near top end 520 of second legs 482. That is, in the arrangement shown, as one example, pocket 530 is a generally recessed area which is formed in, and extends inward from, the inner surface 528 of second legs 482. In the arrangement shown, as one example, pocket 530 has a flat bottom edge 534 which extends from near one side 524 to near the other side 524. In the arrangement shown, as one example, bottom edge 534 extends between opposing side edges 536 of pocket 530. In the arrangement shown, as one example, opposing side edges 536 extend in approximate parallel spaced relation to opposing sides 524 of second legs 482, and opposing side edges 536 extend from bottom edge 534 to top edge 538. In the arrangement shown, as one example, top edge 538 extends from one opposing side edge 536 to the other opposing side edge 536 with a convex curvature. While pocket 530 has been described according to the arrangement shown as one example, pocket 530 may be formed of any other shape or design so long as it is able to receive and hold cartridge 540 therein.
[0261] In the arrangement shown, as one example, the inner surface 528 of second legs 482 also includes slot 532 (not shown). Slot 532 is formed of any suitable size, shape, and design and is configured to receive lower axle 310 therein and guide lower axle 310 as backrest 14 is moved between a reclined position and an upright position.
[0262] Support Members 484: In the arrangement shown, as one example, frame 16 includes two sets of first legs 480 and second legs 482. In the arrangement shown, as one example, the two sets are connected by support members 484. Support members 484 are formed of any suitable size, shape, and design and are configured to connect the two sets of first legs 480 and second legs 482 and support seat 12. In the arrangement shown, as one example, support members are generally elongated rectangular members which extend laterally between the first set of first leg 480 and second leg 482 and the second set of first leg 480 and second leg 482. In the arrangement shown, as one example, support members connect to the two sets of first legs 480 and second legs 482 using fasteners which may be screws, bolts, pins, nails, or any other types of fastener which facilitates connection between the sets of first leg 480 and second leg 482 and support members 484.
Cartridge 540:
[0263] In the arrangement shown, as one example, frame 16 includes pocket 530, which is configured to receive and hold cartridge 540. Cartridge 540 is formed of any suitable size, shape, and design and is configured to help facilitate movement of backrest 14 between an upright position and a reclined position. In the arrangement shown, as one example, cartridge 540 includes a front plate 542, an articulating link 544, a bumper 546, and a back plate 548.
[0264] Front Plate 542: In the arrangement shown, as one example, cartridge 540 includes front plate 542. Front plate 542 is formed of any suitable size, shape, and design and is configured to help facilitate movement of backrest 14 between an upright position and a reclined position while helping contain additional components of cartridge 540. In the arrangement shown, as one example, front plate 542 has a bottom edge 550, opposing sides 552, and a top edge 554. In the arrangement shown, as one example, bottom edge 550 is a generally flat and planar edge which extends between opposing sides 552. Opposing sides 552 are generally flat and planar edges which extend at an angle upward from bottom edge 550 until they reach top edge 554, and opposing sides 552 extend in approximate parallel planar spaced relation to one another. In the arrangement shown, as one example, top edge 554 extends between opposing sides 552 and has a generally convex curvature as it extends across. In the arrangement shown, as one example, front plate 542 includes a generally flat and planar front surface 553 and a generally flat and planar back surface 555.
[0265] Front plate 542 may be formed of any material suitable for use as a plate, including various metallic materials such as stainless steel, aluminum, chromium, or any other metallic material, or various non-metallic materials such as a plastic material, a fiberglass material, or any other non-metallic material.
[0266] In the arrangement shown, as one example, front plate 542 includes reception members 556. Reception members 556 are formed of any suitable size, shape, and design and are configured to receive fasteners therein in order to connect with various components of cartridge 540. In the arrangement shown, as one example, reception members 556 extend outward from back surface 555 of front plate 542 and include an opening which is configured to receive fasteners therein.
[0267] In the arrangement shown, as one example, front plate 542 includes bossed holes 560. Bossed holes 560 are formed of any suitable size, shape, and design and are configured to receive a fastener therethrough to facilitate connection of cartridge 540 to second legs 482. In the arrangement shown, as one example, bossed holes 560 extend through front plate 542 from the front surface 553 to the back surface 555.
[0268] In the arrangement shown, as one example, front plate 542 includes a slot 564. Slot 564 is formed of any suitable size, shape, and design and is configured to receive a portion of articulating link 544 therein and allow for the movement of articulating link 544 along slot 564 as it moves between an upright position and a reclined position. In the arrangement shown, as one example, slot 564 extends through front plate 542 from the front surface 553 to the back surface 555. In the arrangement shown, as one example, slot 564 extends a length from a first edge 566 to a second edge 568. In the arrangement shown, as one example, first edge 566 is located at the top right portion of slot 564 and second edge 568 is located at the bottom left portion of slot 564. In the arrangement shown, as one example, a portion of articulating link 544 is placed through slot 564 and can travel along slot 564 as the backrest 14 is moved from an upright position to a reclined position.
[0269] In the arrangement shown, as one example, front plate 542 also includes an opening 558. Opening 558 is formed of any suitable size, shape, and design and is configured to connect receive node 574 of articulating link 544 therein in order to facilitate secured and pivotal connection of articulating link 544 to front plate 542. In the arrangement shown, as one example, opening 558 extends through front plate 542 from the front surface 553 to the back surface 555. In the arrangement shown, as one example, opening 558 is a generally round opening, which allows node 574 of articulating link 544 to rotate or pivot within opening 558 as needed.
[0270] Articulating link 544: In the arrangement shown, as one example, cartridge 540 included articulating link 544. Articulating link 544 is formed of any suitable size, shape, and design and is configured to connect to upper axle 330 and help facilitate movement of backrest 14 between an upright position and a reclined position. In the arrangement shown, as one example, articulating link 544 is a generally elongated member extending between a first edge 570 and a second edge 572.
[0271] In the arrangement shown, as one example, first edge 570 and second edge 572 are each generally rounded edges. In the arrangement shown, as one example, first edge 570 includes node 574. Node 574 is a generally cylindrical protrusion which extends a distance outward from both the front surface 576 of articulating link 544 and the back surface 578 of articulating link 544. In the arrangement shown, as one example, the portion of node 574 extending outward from the front surface 576 is configured to be received within opening 558 of front plate 542 and the portion of node 574 extending through the back surface 578 is configured to be received within hole 593 of back plate 548, thereby facilitating secured and pivotal connection of articulating link 544 with both front plate 542 and back plate 548.
[0272] In the arrangement shown, as one example, articulating link 544 includes a reception member 580 near second edge 572 which extends outward from the front surface 576 of articulating link 544. In the arrangement shown, as one example, reception member 580 is a generally cylindrical protrusion with a generally rectangular recess 582 therein. Reception member 580 is generally configured to extend through slot 564 of front plate 542 and receive upper axle 330 within recess 582. In the arrangement shown, as one example, when upper axle 330 is placed into recess 582, a pin 583 is placed through a small opening in the second edge 568 of articulating link 544 which helps securely hold upper axle 330 within recess 582. In this way, articulating link 544 is securely connected to upper axle 330 and configured to move along slot 564 of front plate 542 when backrest 14 is moving between an upright position and a reclined position.
[0273] In the arrangement shown, as one example, articulating link 544 also includes a slot 584. Slot 584 is a generally rectangular slot which extends through articulating link 544 and is configured to receive guide wheel 586 of articulating link 544 therein. In the arrangement shown, as one example, guide wheel 586 is configured to provide a buffer between articulating link 544 and front plate 542 and back plate 548 so that articulating link 544, front plate 542, and back plate 548 are not damaged as backrest 14 is moved between an upright position and a reclined position.
[0274] Bumper 546: In the arrangement shown, as one example, cartridge 540 includes bumper 546. Bumper 546 is formed of any suitable size, shape, and design and is configured to reduce the noise of the hard stop which occurs when backrest 14 is moving from the reclined position to the upright position. Generally, movement of backrest 14 from the upright position to the reclined position is a slow process with controlled speed, however when occupant moves backrest 14 from a reclined position to an upright position, it is much harder to control speed, resulting in a hard stop and a loud noise when backrest 14 reaches the upright position. In order to prevent this, cartridge 540 includes bumper 546, which is a formed of soft rubber and acts as a cushion to reduce the noise when the backrest 14 reaches the upright position.
[0275] Back Plate 548: In the arrangement shown, as one example, cartridge 540 includes back plate 548. Back plate 548 is formed of any suitable size, shape, and design and is configured to facilitate connection of the various components of cartridge 540. In the arrangement shown, as one example, back plate 548 is a generally planar member which has a generally flat and planar bottom edge 588, opposing sides 590, and a top edge 592. In the arrangement shown, as one example, bottom edge 588 extends between opposing sides 590. In the arrangement shown, as one example, opposing sides 590 extend upward and at an angle from bottom edge 588 and opposing sides 590 extend in approximate parallel spaced relation to one another. In the arrangement shown, as one example, top edge 592 extends between opposing sides 590 in a generally convex curved manner, however top edge 592 has a recess 595 therein.
[0276] In the arrangement shown, as one example, back plate 548 is generally smaller than front plate 542. In the arrangement shown, as one example, back plate 548 is positioned such that top edge 592 of back plate 548 is generally aligned with top edge 554 of front plate 542. However, opposing sides 590 of back plate 548 are shorter than opposing sides 552 of front plate 542. Back plate 548 is configured to be smaller than front plate 542 in order for fasteners, which can be screws, bolts, nails, or any other type of fastener, to extend through front plate 542 near the bottom portion of cartridge 540 and past back plate 548 in order to connect to pocket 530 within inner surface 528 of second legs 482. Additionally, recess 595 is present within the top edge 592 of back plate 548 in order to allow an additional fastener to be passed through front plate 542 at the top portion of cartridge 540 and past back plate 548 in order to connect to pocket 530 within inner surface 528 of second legs 482.
[0277] In the arrangement shown, as one example, back plate 548 includes hole 593 configured to receive the portion of node 574 extending outward from the back surface 578 of articulating link 544. In this way, articulating link 544 may be securely and pivotally attached to back plate 548.
[0278] In the arrangement shown, as one example, back plate 548 also includes openings 594. Openings 594 are formed of any suitable size, shape, and design and are configured to allow fasteners 596 to pass therethrough. Fasteners 596 are formed of any suitable size, shape, and design and are configured to connect back plate 548 to front plate 542. More specifically, fasteners 596 extend through openings 594 of back plate 548 and are received within reception member 556 of front plate 542.
[0279] While cartridge 540 has been described according to the arrangement shown, as one example, it will be understood by those skilled in the art that modifications may be made to cartridge 540 which do not depart from the scope of this invention.
Assembly of Cartridge 540 and Connection to Pocket 530:
[0280] In the arrangement shown, as one example, cartridge 540 must be assembled and then inserted onto frame 16. In the arrangement shown, as one example, the portion of node 574 extending outward from the back surface 578 of articulating link 544 is positioned and inserted into hole 593 of back plate 548. After this, bumper 546 is operably connected to back plate 548 through any means or method of attachment, such as adhesion, screwing, nailing, or any other method. Once bumper 546 is attached to back plate 548, guide wheel 586 is then positioned within slot 584 of articulating link 544. Once this is done, front plate 542 should be positioned such that the opening 558 of front plate 542 is aligned with the portion of node 574 extending outward from the front surface 576 of articulating link 544 and this portion of node 574 may then be inserted into opening 558. Next, reception members 556 of front plate 542 should be aligned with openings 594 of back plate 548 and fasteners 596 may then be inserted through openings 594 and into reception members 556. Once fasteners 596 are inserted through back plate 548 and into reception members 556 of front plate 542, cartridge 540 is assembled.
[0281] Once cartridge 540 has been assembled, cartridge 540 is then attached to upper axle 330 extending out of backrest 14. In the arrangement shown, as one example, upper axle 330 is aligned with recess 582 of reception member 580 of articulating link 544 and upper axle 330 is then inserted into recess 582. Once upper axle 330 is in recess 582, pin 583 is inserted through second edge 572 of articulating link 544, and pin 583 engages upper axle 330 within recess 582, thereby securing upper axle 330 in recess 582.
[0282] Next, cartridge 540 is to be aligned with pocket 530 within inner surface 528 of second legs 482. Cartridge 540 is then placed into pocket 530. In this angle, front plate 542 of cartridge 540 is wholly or partially covered by backrest 14. A user can rotate backrest 14 in order to view front plate 542, and more specifically bossed holes 560 of front plate 542. When the user can view and access bossed holes 560, the user can secure cartridge 540 to pocket 530 using fasteners such as screws, bolts, nails, or any other type of fastener, which are placed through bossed holes 560 of front plate 542 and driven into second legs 482. The user will need to move backrest 14 between multiple positions in order to insert fasteners into all of the bossed holes 560. Once fasteners have been placed into all bossed holes 560, cartridge 540 is connected to pocket 530 and is ready for use.
In Operation:
[0283] The operation of system 10 in the alternative arrangement presented in
Alternative Arrangement of Cartridge 540:
[0284] In the arrangement shown in
[0285] Front Plate 600: In the arrangement shown, as one example, cartridge 540 includes front plate 600. Front plate 600 is formed of any suitable size, shape, and design and is configured to allow for the movement of backrest 14 between an upright position and a reclined position while helping contain additional components of cartridge 540. In the arrangement shown, as one example, front plate 600 has a bottom edge 608, opposing sides 610, and a top edge 612. In the arrangement shown, as one example, bottom edge 608 is a generally flat and planar edge which extends between opposing sides 610. Opposing sides 610 are generally flat and planar edges which extend at an angle upward from bottom edge 608 until they reach top edge 612 and opposing sides 610 extend in approximate parallel planar spaced relation to one another. In the arrangement shown, as one example, top edge 612 extends between opposing sides 610 and has a generally convex curvature as it extends across. In the arrangement shown, as one example, front plate 600 includes a generally flat and planar front surface 614 and a back surface 616.
[0286] Front plate 600 may be formed of any material suitable for use as a plate, including various metallic materials such as stainless steel, aluminum, chromium, or any other metallic material, or various non-metallic materials such as a plastic material, a fiberglass material, or any other non-metallic material.
[0287] In the arrangement shown, as one example, front plate 600 includes bossed holes 620, a slot 622 having a first edge 624 and a second edge 626, a first protruded surface 628, a second protruded surface 630, and holes 632.
[0288] In the arrangement shown, as one example, front plate 600 includes bossed holes 620. Bossed holes 620 are formed of any suitable size, shape, and design and are configured to receive a fastener therethrough to facilitate connection of cartridge 540 to second legs 482. In the arrangement shown, as one example, bossed holes 620 extend through front plate 600 from the front surface 614 to the back surface 616.
[0289] In the arrangement shown, as one example, front plate 600 includes a slot 622. Slot 622 is formed of any suitable size, shape, and design and is configured to receive a portion of gear 602 therein and allow for the movement of gear 602 along slot 622 as the backrest 14 moves between an upright position and a reclined position. In the arrangement shown, as one example, slot 622 extends through front plate 600 from the front surface 614 to the back surface 616. In the arrangement shown, as one example, slot 622 extends a length from a first edge 624 to a second edge 626. In the arrangement shown, as one example, first edge 624 is located at the top right portion of slot 622 and second edge 626 is located at the bottom left portion of slot 622. In the arrangement shown, as one example, a portion of gear 602 is placed through slot 622 and can travel along slot 622 as the backrest 14 is moved from an upright position to a reclined position. In the arrangement shown, as one example, slot 622 has a width slightly larger than the circumference of the portion of gear 602 extended through slot 622, which allows gear 602 to move along slot 622 with relatively little friction.
[0290] In the arrangement shown, as one example, front plate 600 includes a first protruded surface 628 and a second protruded surface 630. First protruded surface 628 and second protruded surface 630 are formed of any suitable size, shape, and design and are configured to help facilitate engagement between front plate 600 and back plate 604 while allowing gear 602 to be properly engaged and operable when positioned between front plate 600 and back plate 604. In the arrangement shown, as one example, first protruded surface 628 extends a first distance outward from the back surface 616 of front plate 600 and the second protruded surface 630 extends a second distance outward from the back surface 616 of front plate 600. In the arrangement shown, as one example, the first distance is greater than the second distance, meaning the first protruded surface 628 extends outward from back surface 616 a greater distance than the second protruded surface 630. However, in various other arrangements, as examples, the first protruded surface 628 and the second protruded surface 630 may extend outward from back surface 616 the same distance, or the second protruded surface 630 may extend outward from back surface 616 a greater distance than the first protruded surface 628.
[0291] In the arrangement shown, as one example, when the front plate 600 and back plate 604 are brought together, the first protruded surface 628 of the front plate 600 is positioned adjacent the back surface 640 of back plate 604. Likewise, when front plate 600 and back plate 604 are brought together, the second protruded surface 630 of front plate 600 is positioned adjacent the protruded surface 656 of back plate 604. In this arrangement, as one example, gear 602 is able to be positioned in between front plate 600 and back plate 604 such that the teeth 636 of gear 602 engage with the teeth 658 of the protruded surface 656 of back plate 604. That is, the first protruded surface 628 and second protruded surface 630 of front plate 600, and the protruded surface 656 of back plate 604 create a space that allows the teeth 636 of gear 602 to engage with the teeth 658 of the protruded surface 656 of back plate 604 while still allowing gear 602 to rotate and move along slot 622, rather than be held in place due to friction between gear 602 and front plate 600 and/or back plate 604.
[0292] In the arrangement shown, as one example, front plate 600 also includes holes 632. Holes 632 are formed of any suitable size, shape, and design and are configured to help facilitate connection of front plate 600 to back plate 604. In the arrangement shown, as one example, holes 632 are generally circular holes configured to receive bolts, screws, or various other fasteners configured to hold front plate 600 and back plate 604 in secured engagement. However, holes 632 may be formed of any other shape or size in order to accommodate various fasteners to hold front plate 600 and back plate 604 together.
[0293] Gear 602: In the arrangement shown in
[0294] In the arrangement shown, as one example, gear 602 is generally cylindrical in shape and has teeth 636 extending outward from gear 602. Teeth 636 are formed of any suitable size, shape, and design and are configured to help facilitate movement of gear 602 when backrest 14 is moving between a reclined position and an upright position. In the arrangement shown, as one example, teeth 636 extend outward from gear 602 in a generally helical manner, however in other arrangements teeth 636 may extend outward from gear 602 in a straight manner or in any other manner. In the arrangement shown, as one example, teeth 636 are configured to engage with teeth 658 of the protruded surface 656 of back plate 604. When the backrest 14 of system 10 is being reclined or moved to an upright position, gear 602 will move in a path along slot 622 and the teeth 636 of gear 602 rotate, in the process engaging with teeth 658 of the protruded surface 656 of back plate 604, in order to facilitate smooth and quiet reclining of backrest 14.
[0295] In the arrangement shown, as one example, gear 602 includes engagement feature 638. Engagement feature 638 is formed of any suitable size, shape, and design and is configured to facilitate connection between gear 602 and reclining mechanism 20. In the arrangement shown, as one example, engagement feature 638 is a hole generally in the shape of a hexagon which is configured to receive upper axle 330 of upper guide assembly 302 of reclining mechanism 20, thereby facilitating engagement between gear 602 and reclining mechanism 20. While engagement feature 638 is shown as being a hole generally in the shape of a hexagon, it will be understood by those of skill in the art that engagement feature 638 may be a hole in any other shape, and engagement feature 638 may be formed of any other shape or design configured to engage upper axle 330. In this way, gear 602 of cartridge 540 is connected to reclining mechanism 20 and reclining mechanism 20 and cartridge 540 work together to smoothly facilitate the movement of backrest 14 between a reclined and upright position.
[0296] Back Plate 604: In the arrangement shown, as one example, cartridge 540 includes back plate 604. Back plate 604 is formed of any suitable size, shape, and design and is configured to help facilitate connection of the various components of cartridge 540. In the arrangement shown, as one example, back plate 604 is a generally planar member which has a bottom edge 642, opposing sides 644, and a top edge 646. In the arrangement shown, as one example, bottom edge 642 extends between opposing sides 644 and opposing sides 644 are generally flat and planar edges which extend at an angle upward from bottom edge 642 until they reach top edge 646, and opposing sides 644 extend at an approximate parallel planar spaced relation to one another. In the arrangement shown, as one example, top edge 646 extends between opposing sides 644 in a generally convex curved manner, however top edge 646 has a recess 648 therein. In the arrangement shown, as one example, back plate 604 also includes a generally flat and planar front surface 641 and a back surface 640.
[0297] In the arrangement shown, as one example, back plate 604 is generally smaller than front plate 600. In the arrangement shown, as one example, back plate 604 is positioned such that top edge 646 of back plate 604 is generally aligned with top edge 612 of front plate 600. However, opposing sides 644 of back plate 604 are shorter than opposing sides 610 of front plate 600. Back plate 604 is configured to be smaller than front plate 600 in order for fasteners, which can be screws, bolts, nails, or any other type of fastener, to extend through front plate 600 near the bottom portion of cartridge 540 and past back plate 604 in order to connect to pocket 530 within inner surface 528 of second legs 482. Additionally, recess 648 is present within the top edge 646 of back plate 604 in order to allow an additional fastener to be passed through front plate 600 at the top portion of cartridge 540 and past back plate 604 in order to connect to pocket 530 within inner surface 528 of second legs 482.
[0298] In the arrangement shown, as one example, back plate 604 also includes openings 650. Openings 650 are formed of any suitable size, shape, and design and are configured to allow fasteners 652 to pass therethrough. Fasteners 652 are formed of any suitable size, shape, and design and are configured to connect back plate 604 to front plate 600. More specifically, fasteners 652 extend through openings 650 of back plate 604 and are received within holes 632 of front plate 600.
[0299] In the arrangement shown, as one example, the back surface 640 of back plate 604 includes a recessed surface 654 and a protruded surface 656 having teeth 658. In the arrangement shown, as one example, recessed surface 654 is formed into back surface 640 and extends in a path generally similar to the path of slot 622. In the arrangement shown, as one example, recessed surface 654 is provided to allow gear 602 to slide smoothly along back surface 640 of back plate 604 as it also moves along slot 622. That is, recessed surface 654 is provided such that when gear 602 moves along slot 622, gear 602 experiences reduced friction and resistance from back surface 640 due to recessed surface 654.
[0300] In the arrangement shown as one example, back surface 640 also included a protruded surface 656. Protruded surface 656 is formed of any suitable size, shape, and design and is configured to help facilitate engagement between front plate 600 and back plate 604 while allowing gear 602 to be properly engaged and operable when positioned between front plate 600 and back plate 604. In the arrangement shown, as one example, protruded surface 656 extends a distance outward from the back surface 640 of back plate 604. As described herein, when front plate 600 and back plate 604 are brought together, protruded surface 656 of back plate 604 is positioned adjacent second protruded surface 630 of front plate 600.
[0301] In the arrangement shown, as one example, protruded surface 656 also includes teeth 658. Teeth 658 are formed of any suitable size, shape, and design and are configured to engage with teeth 636 of gear 602. In the arrangement shown, as one example, teeth 658 extend across an edge of protruded surface 656 along a path generally parallel to the path of slot 622 in order for teeth 658 to engage teeth 636 of gear 602 while gear 602 is positioned within and moving along slot 622. In the arrangement shown, as one example, teeth 658 of protruded surface 656 also help facilitate the smooth movement of backrest 14 between the upright and reclined positions.
[0302] While cartridge 540 has been described according to the alternative arrangement shown, as one example, it will be understood by those skilled in the art that modifications may be made to cartridge 540 which do not depart from the scope of this invention.
Assembly of Alternative Cartridge 540 and Connection to Pocket 530:
[0303] In the arrangement shown in
[0304] Back plate 604 may then be aligned such that teeth 636 of gear 602 and teeth 658 of protruded surface 656 of back plate 604 are in alignment. In this position, the openings 650 of back plate 604 and the holes 632 of front plate 600 should also be in alignment, thereby allowing fasteners 652 to be inserted through openings 650 and holes 632, in order to secure front plate 600 and back plate 604 together. Once fasteners 652 are placed through openings 650 of back plate 604 and holes 632 of front plate 600, the first protruded surface 628 of front plate 600 will rest adjacent the back surface 640 of back plate 604 and the second protruded surface 630 of front plate 600 will rest adjacent the protruded surface 656 of back plate 604.
[0305] Once cartridge 540 has been assembled, cartridge 540 is then attached to upper axle 330 extending out of backrest 14. In the arrangement shown, as one example, upper axle 330 is aligned with engagement feature 638 of gear 602 and upper axle 330 is then inserted into engagement feature 638.
[0306] Next, cartridge 540 is to be aligned with pocket 530 within inner surface 528 of second legs 482. Cartridge 540 is then placed into pocket 530. In this angle, front plate 600 of cartridge 540 is wholly or partially covered by backrest 14. A user can rotate backrest 14 in order to view front plate 600, and more specifically bossed holes 620 of front plate 600. When the user can view and access bossed holes 620, the user can secure cartridge 540 to pocket 530 using fasteners such as screws, bolts, nails, or any other type of fastener, which are placed through bossed holes 620 of front plate 600 and driven into second legs 482. The user will need to move backrest 14 between multiple positions in order to insert fasteners into all of the bossed holes 620. Once fasteners have been placed into all bossed holes 620, cartridge 540 is connected to pocket 530 and is ready for use.
Operation of Alternative Cartridge 540:
[0307] The operation of system 10 with alternative cartridge 540 presented in
Alternative Arrangement:
[0308] With reference to
Externally Accessible Adjustment System 700:
[0309] As another example, in one or more arrangements, system 10 includes a counterbalance assembly 304 having an externally accessible adjustment system 700 (or simply system 700). In one or more arrangements, as one example, system 700 has tensioner assembly 348 and an actuator 702 operably connected to tensioner assembly 348 by a mechanical assembly 704, among other components.
Actuator 702:
[0310] Actuator 702 is formed of any suitable size, shape, and design, and is configured to provide a control structure to facilitate adjustment of tensioner assembly 348 by a user. In the arrangement shown as one example, actuator 702 is a wheel type actuator positioned to extend a distance outward from backrest support assembly 100 to facilitate actuation by a user. More specifically, in this example arrangement, actuator 702 has teeth 712 or finger indentations extending around an exterior edge of the wheel to facilitate easier hand rotation of actuator 702. However, the arrangements are not so limited. Rather, it is contemplated that in some various arrangements, actuator 702 may be implemented using various means and/or methods for actuation by a user including but not limited to, for example, a wheel, lever, slider, knob, or any other method of means for actuation by a user.
[0311] In this example arrangement, actuator 702 is positioned to extend out from an opening 708 (not shown) in a bottom of backrest support assembly 100. However, the arrangements are not so limited. Rather, it is contemplated that in some various arrangements, actuator 702 may be positioned at any location of backrest support assembly 100 to facilitate adjustment of tensioner assembly 348 by a user.
[0312] In the arrangement shown, as one example, actuator 702 has a central hub 716 is configured to rotate on an axle 714 connected to backrest support assembly 100 within hollow interior 108. In this example arrangement, axle 714 is implemented by a fastener extending through hub 716 and into a bracket 720 that is connected to rear support member 102 of backrest support assembly 100 of backrest 14.
Mechanical Assembly 704:
[0313] Mechanical assembly 704 is formed of any suitable size, shape, and design, and is configured to mechanically connect actuator 702 with tensioner assembly 348. In the arrangement shown, as one example, mechanical assembly 704 includes a first gear 728 operably connected with hub 716 of actuator 702, a second gear 730 operably connected with worm gear 376 of tensioner assembly 348, and a cogged belt or chain 732 positioned on and extending between first gear 728 and second gear 730. However, the arrangements are not so limited. Rather, it is contemplated that in some various different arrangements, mechanical assembly 704 may utilize various means and/or methods to mechanically connect actuator 702 with tensioner assembly 348 which may include but are not limited to, for example, one or more gears, belts, bands, links, chains, cords, cables, ropes, sprockets, pulleys, axles, pneumatics, hydraulics, or any other method and/or means for mechanical connection.
[0314] From the above discussion it will be appreciated that the described system improves upon the state of the art. Specifically, one or more embodiments provide an improved seating system: that has a compact reclining mechanism concealed within the chair that is configured to support an occupant in upright and reclined positions; that is strong, robust, and durable; that is comfortable; that is easy and intuitive to use; that is easy to manufacture; that is cost effective; that is high quality; that has a long useful life; and/or that is aesthetically pleasing among various other features and/or advantages.
[0315] It will be appreciated by those skilled in the art that other various modifications could be made to the device without parting from the spirit and scope of this disclosure. All such modifications and changes fall within the scope of the claims and are intended to be covered thereby.
Damper Assembly 770:
[0316] In various further arrangements, as examples, reclining mechanism 20 may include damper assembly 770 shown in
[0317] In the arrangement shown, as one example, damper assembly 770 includes housing 772. Housing 772 is formed of any suitable size, shape, and design and is configured to operably connect the various components of damper assembly 770 and operably connect damper assembly 770 to the rear support member 102 of backrest support assembly 100. In the arrangement shown, as one example, housing 772 includes an opening which is configured to house bearing 776.
[0318] In one or more arrangements, as examples, damper assembly 770 includes first gear 774. First gear 774 is formed of any suitable size, shape, and design and is configured to operably connect with upper axle 330 of upper guide assembly 302 of reclining assembly 20 and operably engage second gear 778. In one or more arrangements, as examples, first gear 774 may be any type of gear commonly used. In one or more arrangements, as examples, the teeth of first gear 774 are configured to engage with the teeth of second gear 778.
[0319] In one or more arrangements, as examples, first gear 774 includes an opening 775 extending through first gear 774. In or more arrangements, as examples, opening 775 is sized and shaped such that upper axle 330 of upper guide assembly 302 of reclining assembly 20 may extend through opening 775, thereby operably connecting one or more alternative arrangements of damper assembly 770 to counterbalance assembly 304.
[0320] In the arrangement shown, as one example, damper assembly 770 includes bearing 776. Bearing 776 is formed of any suitable size, shape, and design and is configured to operably connect to second gear 778 and housing 772 and allow second gear 778 to rotate while connected to the stationary housing 772. In one or more arrangements, as examples, bearing 776 may be a ball bearing, or any other type of bearing including roller bearings, magnetic bearings, linear bearings, fluid bearings, or any other type of bearing.
[0321] In one or more arrangements, as examples, damper assembly 770 includes a second gear 778. Second gear 778 is formed of any suitable size, shape, and design and is configured to operably engage with first gear 774 and with damper 780. In one or more arrangements, as examples, second gear 778 may be any type of gear commonly used. In one or more arrangements, as examples, second gear 778 includes an opening which is configured to receive and engage with the shaft 784 of damper 780.
[0322] In one or more arrangements, as examples, second gear 778 includes a damper 780. Damper 780 is formed of any suitable size, shape, and design and is configured to slow rotational motion of second gear 778, which in turn slows the rotational motion of first gear 774 and slows the rotational motion of upper axle 330 and counterbalance assembly 304.
[0323] In one or more arrangements, as examples, damper 780 includes flanges 782, a shaft 784, and a chamber 786. In one or more arrangements, as examples, flanges 782 are configured to facilitate connection of damper 780 to housing 772 of damper assembly 770. In one or more arrangements, as examples, the shaft 784 of damper 780 extends outward from the chamber 786 of damper 780 and may be inserted into, and engage with, second gear 778.
[0324] In one or more arrangements, as examples, shaft 784 extends inward into the center of chamber 786. In one or more arrangements, as examples, material is contained within chamber 786 and such material may be, by way of example and not limitation, water, grease, oil, ball bearings, or any other type of fluid material, particulate material, solid material, or any other type of material which is able to slow down the rotational movement of shaft 784.
[0325] In one or more arrangements, as examples, when a user stands up or leans forward, thereby releasing the counterforce which pushed backrest 14 to a reclined position, counterbalance assembly 304 operates to pull backrest 14 back to the upright position. In various arrangements, counterbalance assembly 304 may pull backrest 14 too aggressively forward, which causes the backrest 14 to quickly move to the upright position and create a loud thud and a heavy impact when it reaches the upright position. In order to prevent this, the alternative arrangement shown, as one example, includes damper assembly 770.
[0326] In one or more arrangements, as examples, as the counterbalance assembly 304 pulls backrest 14 upward, damper assembly 770 slows and controls the upward movement of backrest 14. In one or more arrangements, as examples, the slow and controlled upward movement of backrest 14 is due primarily to the oil, fluid, liquid, or other material within the chamber 786 of damper 780. In other words, second gear 778 is prevented from rotating quickly due to the interaction between the shaft 784 of damper 780 and the oil, fluid, liquid, or other material within the chamber 786 of damper 780 and because damper assembly 770 is operably connected to reclining assembly 20 and backrest 14, damper assembly 770 prevents the relative movement of backrest 14 from being too quick. Therefore, in the alternative arrangement shown, as one example, damper assembly 770 controls the movement of backrest 14 to the upright position in order to prevent loud thuds and heavy impacts when backrest 14 reaches the upright position.
[0327] More specifically, in one or more arrangements, as examples, when first gear 774 is rotated, the teeth of first gear 774 engage with the teeth of second gear 778, which causes second gear 778 to rotate. As second gear 778 rotates, second gear 778 engages with shaft 784 of damper 780, thereby causing shaft 784 to rotate. As shaft 784 rotates, it engages with the material held within chamber 786 and the material within chamber 786 causes the rotation of shaft 784 to slow down, which in turn causes the rotation of second gear 778 and first gear 774 to slow down. As first gear 774 slows down, so does the rotational movement of upper axle 330 and counterbalance assembly 304. When the rotational movement of upper axle 330 of counterbalance assembly 304 is slowed down, the movement of backrest 14 between the upright position and the reclined position is likewise slowed down. This slow movement of backrest 14 prevents loud and heavy impacts when the backrest 14 reaches the reclined position.
[0328] In one or more arrangements, as examples, when a user leans back in order to recline backrest 14, the force of the user leaning back overcomes the force of the counterbalance assembly 304, thereby allowing the chair to be reclined. However, this recline is still slowed and controlled by the damper assembly 770. That is, as the backrest 14 reclines, first gear 775, second gear 778, and shaft 784 of damper 780 rotate, however shaft 784 of damper 780 is prevented from moving too quickly because of the oil, fluid, liquid, or other material within the chamber 786 of damper 780. Therefore, in the alternative arrangement shown, as one example, damper assembly 770 may also control the movement of backrest 14 to a reclined position in order to prevent sudden, jerky, fast movement backwards which also may result in a loud and heavy impact when backrest 14 reaches the fully reclined position.
Alternative Arrangement of Damper Assembly 770:
[0329] In an alternative arrangement of damper assembly 770 shown in
[0330] In one or more alternative arrangements of damper assembly 770, as one example, damper assembly 770 includes arm member 790. Arm member 790 is formed of any suitable size, shape, and design and is configured to operably connect damper assembly 770 to upper axle 330 of reclining assembly 20. In one or more alternative arrangements, as examples, arm member 790 includes a cylindrical portion 800 and a protrusion 802.
[0331] In one or more arrangements, as examples, cylindrical portion 800 is elongated and has an opening 804 extending through cylindrical portion 800 from one end to the other end of cylindrical portion 800. In one or more arrangements, as examples, opening 804 is sized and shaped such that upper axle 330 of upper guide assembly 302 of reclining assembly 20 may extend through opening 804, thereby operably connecting one or more alternative arrangements of damper assembly 770 to counterbalance assembly 304.
[0332] In one or more arrangements, as examples, the protrusion 802 of arm member 790 extends outward from the cylindrical portion 800. In one or more arrangements, as examples, protrusion 802 is configured to engage hood member 792 of damper assembly 770. In one or more arrangements, as examples, protrusion 802 extends outward and forms a generally elongated triangular member which, when cylindrical portion 800 is rotated, engages hood member 792.
[0333] In one or more alternative arrangements, as examples, damper assembly 770 includes hood member 792. Hood member 792 is formed of any suitable size, shape, and design and is configured to operably connect rod 794 and arm member 790. In one or more arrangements, as examples, hood member 792 includes an upper portion 806 and a lower portion 808.
[0334] In one or more arrangements, as examples, upper portion 806 of hood member 792 is configured to engage with arm member 790. In one or more arrangements, as examples, upper portion 806 is generally sloped such that the back end of upper portion 806 is higher than the front end of upper portion 806. In this arrangement, as one example, the slope of upper portion 806 allows protrusion 802 of arm member 790 to contact and move along the sloped surface of upper portion 806 and, in doing so, push upper portion 806 down, and allow upper portion 806 to move upward, in a consistent and smooth manner.
[0335] In one or more arrangements, as examples, hood member 792 includes lower portion 808. Lower portion 808 is formed of any suitable size, shape, and design and is configured to operably connect hood member 792 to rod 794. In one or more arrangements, as examples, lower portion 808 of hood member 792 is generally circular in shape and extends downward from upper portion 806. In one or more arrangements, as examples, lower portion 808 is generally shaped and sized such that lower portion 808 can operably engage with and connect to the upper end 810 of rod 794.
[0336] In one or more alternative arrangements, as examples, damper assembly 770 includes rod 794. Rod 794 is formed of any suitable size, shape, and design and is configured to operably connect to hood member 792 and cylinder 796. In one or more arrangements, as examples, rod 794 is a generally cylindrical, elongated member which has an upper end 810 and a lower end (not shown). In one or more arrangements, as example, the upper end 810 of rod 794 is generally cylindrical and has a radius which is greater than the radius of the remainder of rod 794 in order to ensure secured engagement with lower portion 808 of hood member 792. In one or more arrangements, as examples, the lower end (not shown) of rod 794 is configured to be positioned within cylinder 796 of damper assembly 770. In one or more arrangements, as examples, the lower end of rod 794 may include a flange configured to contact (or nearly contact) the interior surface of the hollow interior of cylinder 796.
[0337] In one or more alternative arrangements, as examples, damper assembly 770 includes cylinder 796. Cylinder 796 is formed of any suitable size, shape, and design and is configured to operably connect to and engage with rod 794 and connect to connection member 798. In the alternative arrangement shown, as one example, cylinder 796 extends between a top side 812 and a bottom side 814 and has an opening at the top side 812 which allows rod 794 to extend into the hollow interior of cylinder 796.
[0338] In an alternative arrangement, as one example, the hollow interior of cylinder 796 is shaped and sized to fit a flange of rod 794 such that the flange of rod 794 contacts (or nearly contacts) and loosely engages the interior wall of cylinder 796 such that the flange may move up and down within the hollow interior of cylinder 796 but the movement is slowed by the friction between the flange of rod 794 and the interior wall of cylinder 796. Additionally or alternatively to relying on friction between the flange of rod 794 and the interior wall of cylinder 796, in one or more arrangements, as examples, cylinder 796 may also be filled with any type of oil, fluid, liquid, or other material which is configured to slow the movement of the flange of rod 794 within cylinder 796. More specifically, in one or more arrangements, as examples, in order for the flange of rod 794 to move within the hollow interior of cylinder 796, the oil, fluid, liquid, or other material that is within cylinder 796 must be displaced by the flange pushing or moving the oil, fluid, liquid, or other material out of the way, which results in a more slow and controlled movement of rod 794.
[0339] In one or more alternative arrangements, as examples, damper assembly 770 includes connection member 798. Connection member 798 is formed of any suitable size, shape, and design and is configured to hold cylinder 796 within close and tight tolerances therein and operably connect to rear support member 102 of backrest support assembly 100. In the arrangement shown, as one example, connection member 798 is a generally cylindrical member with a hollow interior and flanges extending outward from the cylindrical portion of connection member 798. In the arrangement shown, as one example, the hollow interior of connection member 798 is configured to receive and hold cylinder 796 within close and tight tolerances therein. In the arrangement shown, as one example, connection member 798 is also configured to connect to rear support member 102 of backrest support assembly 100 by any means of connection including adhesion, forming, friction fitting, screwing, bolting, or any other means of connection. In the arrangement shown, as one example, connection member 798 connects to rear support member 102 by screws which extend through openings in the flange of connection member 798 and into rear support member 102.
[0340] In the alternative arrangement shown, as one example, when damper assembly 770 is operably connected to upper axle 330 of upper guide assembly 302 of reclining assembly 20 and to rear support member 102 of backrest support assembly 100, damper assembly 770 is operably connected to both reclining mechanism 20 and backrest 14.
[0341] In the alternative arrangement shown, as one example, when a user stands up or leans forward, thereby releasing the counterforce which pushed backrest 14 to a reclined position, counterbalance assembly 304 operates to pull backrest 14 back to the upright position. In various arrangements, counterbalance assembly 304 may pull backrest 14 too aggressively forward, which causes the backrest 14 to quickly move to the upright position and create a loud thud and a heavy impact when it reaches the upright position. In order to prevent this, the alternative arrangement shown, as one example, includes damper assembly 770.
[0342] In the alternative arrangement shown, as one example, as the counterbalance assembly 304 pulls backrest 14 upward, damper assembly 770 slows and controls the upward movement of backrest 14. In the alternative arrangement shown, as one example, the slow and controlled upward movement of backrest 14 is due to the operable, frictional engagement between rod 794 and cylinder 796 (and/or the interaction between rod 794 and the oil, fluid, liquid, or other material within cylinder 796). In other words, rod 794 is prevented from moving too quickly because of the frictional engagement with the interior walls of cylinder 796 (and/or the interaction between rod 794 and the oil, fluid, liquid, or other material within cylinder 796) and because damper assembly 770 is operably connected to reclining assembly 20 and backrest 14, damper assembly 770 prevents the relative movement of backrest 14 from being too quick. Therefore, in the alternative arrangement shown, as one example, damper assembly 770 controls the movement of backrest 14 to the upright position in order to prevent loud thuds and heavy impacts when backrest 14 reaches the upright position.
[0343] In the alternative arrangement shown, as one example, when a user leans back in order to recline backrest 14, the force of the user leaning back overcomes the force of the counterbalance assembly 304, thereby allowing the chair to recline. However, this recline is still slowed and controlled by the damper assembly 770. That is, as the backrest 14 reclines, rod 794 moves within cylinder 796, however rod 794 is prevented from moving too quickly because of the frictional engagement with the interior walls of cylinder 796 and/or the interaction between rod 794 and the oil, fluid, liquid, or other material within cylinder 796. Therefore, in the alternative arrangement shown, as one example, damper assembly 770 may also control the movement of backrest 14 to a reclined position in order to prevent sudden, jerky, fast movement backwards which also may result in a loud and heavy impact when backrest 14 reaches the fully reclined position.