Hair Trimming Device

Abstract

A device for trimming the distal ends of hair drawn therethrough is provided which has a head portion having a handle portion extending therefrom. Drawing hair strands along a serpentine pathway formed between a positioning member and a recess in the head, causes distal ends thereof to momentarily project through an opening and into a cutting cavity where they are cut only when a flexible paddle urges the projecting distal ends into a cutting component. The length of the distal ends cut may be adjusted by engagement of variable sized interchangeable cutting components.

Claims

1. A hair trimming apparatus for trimming the distal ends of hair drawn therethrough, comprising: a body having a head portion and a handle portion extending from said head; a recess positioned into a face surface of said head portion, said recess defined by opposing sidewalls intersecting at central area of said recess; an opening communicating through said central area of said recess with a cutting cavity within said head portion; a positioning member having an open position with a gap between said face surface and said positioning member whereby hair strands are positionable between said positioning member and said face surface; said positioning member having an as-used position with a member surface thereof depending within said recess; said positioning member in said as-used position, defining a serpentine pathway for said hair strands placed in a sandwiched positioning between said member surface and said opposing sidewalls of said recess; a rotatable paddle positioned in said cutting cavity in-between two opposing edges of said opening, said paddle having at least one non-cutting distal edge; a hair cutting component located adjacent at least one of said two opposing edges of said opening; said non cutting distal edge of said paddle positioned for a contact with distal ends of said hair strands being drawn through said serpentine pathway during a momentarily projection of said distal ends through said opening and into said cutting cavity; and said contact of said distal edge of said paddle with said distal ends of said hair strands during a rotation in a direction toward said cutting component, imparting an urging to said distal ends into said cutting component for a severing of a portion of said distal ends by said cutting component.

2. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1, additionally comprising: said positioning member in said as-used position having a space between said member surface and surfaces of said sidewalls; and a distance of said space determining a length of said portion of said distal ends severed by said cutting component.

3. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 2, additionally comprising: one each of a pair of cutting length components positionable to an engagement within said recess adjacent a respective one of said opposing sidewalls; and said engagement of said pair of cutting components within said recess changing said distance of said space determining said length of said portion of said distal ends severed by said cutting component.

4. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1, additionally comprising: said at least one non cutting distal edge of said paddle being pliable; and said contact of said distal edge of said paddle with said distal ends of said hair strands imparting said urging to said distal ends into said cutting during a secondary contact of said pliable distal with said cutting component.

5. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 2, additionally comprising: said at least one non cutting distal edge of said paddle being pliable; and said contact of said distal edge of said paddle with said distal ends of said hair strands imparting said urging to said distal ends into said cutting during a secondary contact of said pliable distal with said cutting component.

6. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 3, additionally comprising: said at least one non cutting distal edge of said paddle being pliable; and said contact of said distal edge of said paddle with said distal ends of said hair strands imparting said urging to said distal ends into said cutting during a secondary contact of said pliable distal with said cutting component.

7. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

8. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 2, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

9. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 3, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

10. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 4, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

11. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 5, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

12. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 6, additionally comprising: a said hair cutting component located adjacent both of said two opposing edges of said opening; a selector, said selector positionable to choose a rotation direction of said paddle between a first direction and a opposite second direction; rotation of said paddle in said first direction imparting said urging to said distal ends into a first of said hair cutting components at a first one of said two opposing edges; and rotation of said paddle in said second direction imparting said urging to said distal ends into a second of said hair cutting components at a second one of said two opposing edges.

13. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

14. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 2 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

15. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 3 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

16. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 10 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

17. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 11 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

18. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 8 additionally comprising: said paddle having two non-cutting distal edges with one each of said two positioned on a respective opposing side of said paddle.

19. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1 additionally comprising: protrusions extending away from one or both of said face of said head portion and said positioning member; and said protrusions dividing said serpentine pathway for said hair strands into multiple individual said serpentine pathways.

20. The hair trimming apparatus for trimming the distal ends of hair drawn therethrough of claim 1 additionally comprising: a reservoir for liquid located within a cavity in said positioning member; and apertures communicating between said reservoir and an exterior surface of said positioning member, whereby liquid in said reservoir is communicated to said hair strands as they are drawn through said serpentine pathway.

Description

BRIEF DESCRIPTION OF DRAWING FIGURES

[0043] FIG. 1 depicts a perspective view of the device with a positioning mechanism positioned within a recess in the face of the head of the device, in an as-used position.

[0044] FIG. 2 depicts a perspective view of the device with the positioning mechanism in an open position forming a gap between the recess and the facing surface of the positioning mechanism to allow insertion of hair strands therebetween.

[0045] FIG. 3 depicts an end cross-sectional view of the cutting area of the device, with the positioning mechanism in the as-used position of FIG. 1, prior to the distal end of a hair shaft end entering a cutting cavity through an opening.

[0046] FIG. 4 depicts an end cross-sectional view of the cutting area of the device after the hair shaft has entered the cutting cavity and has been urged into a cutting component by a pliable paddle edge, and severed by the cutting component and also shows an optional hair conditioner reservoir.

[0047] FIG. 5 depicts a perspective view from above the device's cutting area with the external housing removed showing the opening into the cutting area in between opposing blades and the pliable paddle having a diameter wider than the opening

[0048] FIG. 6 depicts a perspective view from below the cutting area with the external housing, positioning mechanism and baseplate removed to provide a better view and showing the paddle in position to urge hair strand distal ends into the cutting component.

[0049] FIG. 7 depicts a perspective, exploded view of the cutting mechanism or cutting component of the device.

[0050] FIG. 8 depicts a perspective view of the device with a closed or as-used state of the positioning member descending into the formed recess in the face, and with the hair length adjusting elements which define sidewalls of the cavity removed.

[0051] FIG. 9 depicts an end view of the device's hair length adjusting elements illustrating hair severance lengths based on wall thickness determining when a distal end will release contact with a sidewall and flip into the cutting chamber.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION

[0052] Referring now to the drawings of FIGS. 1-9 are the modes of the device 10 employed for the trimming and styling of hair shafts 12. In FIG. 1, a perspective view of the hair trimmer device 10 is shown with an elongated member forming a hair positioning member 14 operatively positioned to an as-used position within a recess 15 (FIG. 3) formed into the face 17 of the cutting head 24 having a handle 16. In this figure the handle 16 for single-handed operation, a directional on-off switch 18 which causes the paddle 30 of the device to rotate in either direction, an elongated hair positioning member 14, a lever 20 which pivots to operate the positioning member 14, into and out of the recess 15, as well as an interchangeable cutting length component 22 are depicted.

[0053] The elongated handle 16 extends from the cutting head 24. This handle 16 may include a gripping surface 28 formed of rubber, polymeric, or similar material that provides a easy to grip surface and prevents the handle 16 of the device 10 from slipping from a users grip while hair shafts pass through the serpentine path 26 formed between the positioning member and the wall surface of the recess 15 in the cutting head 24.

[0054] Located on one of the handle 16 or the cutting head 24 is a power switch which is preferably a directional on-off switch 18 that determines the direction of operation of the internal cutting components or assemblies, including the rotating hair paddle 30 depending on the direction of use by the user which is determined by in which hand the device 10 is held. When using the device 10 on one side of the head 24 or the other, the direction may be reversed by changing the switch between a single off position, and two on positions which the user may choose.

[0055] The hair paddle 30 depicted, works in combination with the cutting component positioned on opposing sides of the cutting cavity 13 which cut only the distal ends 34 of hair shafts 12 from the hair strand 12 or shaft. The paddle 30 contacts hair distal ends 34 communicating into the cavity, and urges them with a frictional engagement by pushing them toward and through one of the opposing cutting components on opposing sides of the cutting cavity 13 of the device 10. The direction of paddle 30 rotation will change depending upon which of the two on-positions to which the switch 18 is actuated and the hair distal ends are pushed toward the respective one of the two cutting components which is located in the direction of the rotation of the paddle 30.

[0056] All, or a leaded edge portion 32 of the paddle 30 is preferably formed with pliable material which is flexible such as rubber, polymeric materials, or other soft flexible material adapted to the task. In this fashion, when the flexible leading edge portions 32 forming the distal edges of both sides of the paddle 30, push the distal ends of the hair strands to a cutting contact with one of the cutting components, only the distal ends 34 of hair shafts 12 entering the cutting cavity 13 through the opening 21, and pushed toward and into contact with the oscillating blades of the cutting component are cut. Thus, the entire remaining portions of hair shafts sliding along the serpentine pathway, are not contacted by the paddle 30 nor cut by the device 10. Because the paddle 30 is either formed of soft material such as rubber or plastic, or other polymeric material, or has leading edge portions 32 formed thereof, the paddle 30 will not cut the hair strands during contact with them.

[0057] The length of the severed distal end 34 of the hair shaft 12 may be determined by the wall thickness 36 of the interchangeable cutting length component 22. This interchangeable cutting length component 22 changes the distance of the wall surfaces of the recess 15 or internal cavity of the serpentine path 26, from the surface of the elongated positioning member 14 which is positioned therein when the device 10 being employed. Changing this distance proportionally affects the amount of the distal end of the hair shaft permitted to enter the cutting cavity 13.

[0058] FIG. 2 illustrates the same view as FIG. 1, with the elongated member forming the hair positioning member 14 which is depicted spaced from the recess 15 and ready for the insertion of hair shafts to be sandwiched between the surface of the elongated member forming the positioning member 14 and the walls of the recess 15 depending into the face 17 of the head 24. This positioning member 14 is moved to an open position, spaced from the recess 15 by release of a lever 20 during use whereupon a biasing component such as a spring, acts upon one or both of the operationally attached lever 20 and the positioning member 14 which may be in a pivoting engagement with each other and, and thereby urges both in a direction away from the body of the device 10. Of course this system could be reversed.

[0059] As this lever 20 is grasped by a user and forced closer to the handle 16 of the body of the device 10, the gripping force overcomes the force of a biasing component, and urges the elongated member forming the positioning member 14 into an engaged position axially positioned within the elongated recess 15.

[0060] Also shown in FIGS. 1 and 2 are hair opposing protrusions 38, formed on the surface of the positioning member 14, that may be employed to constrain the hair shafts into the serpentine path 26 in a plurality of individual separate serpentine pathways, divided by the opposing protrusions 38 extending from the positioning member 14 and/or the face 17. By positioning the hair shafts 12 into individual separated serpentine pathways along the serpentine path 26, the device may prevent tangling of hair shafts 12. Integrated with these protrusions 38, or axially along the positioning member 14, may be heating or drying elements (not shown but well known), to allow the device 10 to accomplish other tasks relating to hair shaft 12 maintenance and styling such as heating hair between two mating surfaces to straighten it.

[0061] Also optional but employed in one preferred mode of the device 10 herein as shown in FIG. 4 for example, a reservoir 23 may be formed into a channel or cavity of the elongated member forming the positioning member 14. The reservoir 23 may have an impregnated pad, or other fluid-holding component for a supply of hair conditioner or other products which may be communicated to the hair strands while they traverse through the serpentine path shown. Apertures 25 shown in dotted line, communicate between the reservoir 23 and the surface of the positioning member 14 which faces and depends into the recess 15 formed in the face 17 of the head of the device 10 in an as-used positioning with the elongated member forming the positioning member 14 positioned within the recess 15 with a facing surface of the positioning member 14 proximate to the face 17 surface of the recess 15.

[0062] In FIGS. 3 and 4 the device is shown in a cross-sectional view illustrating the interior components of the cutting head 24. Here a hair shaft 12 communicates along the serpentine path 26 of the device 10 which is formed when the positioning member 14 is operatively positioned to the as-used position within the recess 15 formed in the face 17. In FIG. 3, the hair shaft distal end 34 has not yet reached the internal serpentine pathway apex 40 located on the positioning member 14 across from the opening 21 communicating to the cutting cavity 13.

[0063] In sliding along the serpentine path 26 formed between the face 17 and the recess and the positioning member 14, the hair shaft 12 remains sandwiched between the surface of the positioning member 14 and the face 17 surface of the recess 15 which may be formed and adjusted using the interchangeable cutting length component 22. This sandwiched engagement of the hair shaft 12 thereby prevents any portion of the hair shaft 12, from entering the cutting cavity 13 through the opening 21, until a distal end 34 reaches the apex 40 and a portion thereof extends through the opening 21 and into the cutting cavity 13.

[0064] The device 10, using the pliable leading edge 32 of the paddle 30 to urge the hair shaft 12 distal ends will function with any oscillating or other cutting component on one, but preferably on both opposing sides of the cutting cavity 13, where the paddle 30 will be able to push the distal ends 34 and into the cutting component and cause a cutting only of the distal end 34 from the hair shaft 12. Thus, those skilled in the art will realize the disclosed cutting component shown as oscillating assemblies, may be substituted for another.

[0065] Within the cutting cavity 13 as shown, in a preferred mode there are opposing cutting components 43 on both sides of the cutting cavity. The cutting components 43 as depicted, have an upper, linearly translating bladed element 42, a lower fixed bladed element 44, a plurality of torsion springs 46, and shearing blades 48. These cutting components 43 are assembled in such a fashion that the translating bladed element 42 remains in contact with a its complimentary fixed bladed elements 44. Of course other cutting components may be employed if positioned on opposing sides of the cutting cavity, where such a cutting component will only cut distal ends 34 which the paddle may urge therein.

[0066] In operation, the translating bladed element 42 oscillates while linearly constrained with the fixed bladed elements 44 and thereby forces the shearing blades 48 to oscillate relative to each other. This oscillating action of the shearing blades 48 provides one preferred cutting component 43 to sever only a distal end 34 of any hair shaft 12, that is urged into contact with the cutting component 43 located on opposing sides of the cutting cavity 13 which must be urged by the pliable leading edge 32 of the rotating hair-paddle 30. The translating bladed element 42 remains in contact with the fixed bladed element 44 due to the compressive biasing of the torsion springs 46. These springs 46 slide or distort along a shaft 50 in unison with the translating bladed element 42. The flexible paddle 30 or paddle 30 with at least a flexible distal edge, may contact and bend and slide upon the surface of the cutting component 43 during rotation.

[0067] Also, shown in FIGS. 3 and 4 is the method of attachment of an interchangeable cutting length component 22 which may be employed to vary the length of a distal end cut from a hair shaft 12. The interchangeable cutting length component 22 is inserted into the device 10 and mates using an attachment component such as depicted complimentary channels 52. These complimentary configured channels 52 mate within a mating portion of the recess 15 forming a cavity surrounding an opposing surface of the elongated positioning member 14 having the apex 40 opposite the opening 21 when operatively positioned. The wall thickness 36 of the interchangeable cutting length component 22, varies the distance of the surface of the recess 15 from the surface of the positioning member 14 when therein, and determines the amount of the distal end of the hair shaft 12 removed during cutting and is further illustrated in FIG. 9.

[0068] In FIG. 5 a perspective view of the cutting cavity 13 is shown with the transparent window 54 and external housing of the cutting head 24 removed for ease of viewing. This perspective more clearly shows the components described previously while referring to FIGS. 3 and 4. In addition to the aforementioned components that serve the same previously stated purposes, a torsion spring containment feature 56 is shown formed into the translating bladed element 42. This feature 56 constrains the torsion spring distal end to the translating bladed element surface, solidifying the springs' compressive biasing that keeps the translating bladed element 42 in contact with, and linearly constrained to the fixed bladed elements 44 opposite the surface shown is the other distal end of the torsion springs 46. This end is in contact with the opposite surface of the baseplate 58 shown, and provides the second point of contact required for the spring to maintain a compressive biasing between the translating bladed element 42 and the fixed bladed elements 44.

[0069] FIG. 6 illustrates the means by which the disclosed oscillating cutting component 43 operates within the device 10. Although as noted above, another translating or oscillating cutting components or members may be employed which can take advantage of the unique action of using the flexible leading edge 32 of the paddle 30, to urge the distal ends 34 of hair strands 12 projecting into the cutting cavity 13, into a cutting component 43 on one or both sides of the cutting cavity 13.

[0070] Also in FIG. 6, is shown an electric motor 60 employable for driving both the hair-paddle 30 and the translating bladed element 42. The motor 60 accomplishes this feat through the implementation of a novel combination geared-cam system that is comprised of a rotating motor shaft 62, an angular speed reduction gear 64, a perpendicular gearing assembly formed by two 45 degree angled gears 66, a cam-linkage assembly formed by an offset linkage attachment point 68, a linkage 70 and the freely rotating junction 76.

[0071] As the motor shaft 62 rotates, the angular speed reduction gear 64 rotates the hair-paddle 30 at a slower angular velocity than the motor shaft 62. This reduction in speed improves the safety of operation, and allows the motor 60 to operate within a more efficient portion of its power band. The reduction in angular velocity also allows the translating bladed element 42 to oscillate at a much higher frequency than if the hair-paddle 30 was not geared down and the motor 60 was forced to operate at a lower power level.

[0072] The translating bladed element 42 linearly oscillates as a result of the cam linkage 70 movement derived from the perpendicular gearing of the 45 degree gears 66. As the motor shaft 62 rotates, the angled gears 66 rotate a cam-disk 74 perpendicular to the motor shaft's 62 axis of rotation. This cam disc 74 lies within a plane parallel to the planes containing the translating bladed element 42 and the cam linkage 70.

[0073] On this cam disc 74 there is an off-center attachment point 68 that joins the linkage 70 to the disc 74 while enabling free rotation of the linkage 70 about the off-center attachment point 68. As the disc 74 rotates, the off-center attachment point 68 orbits the axis of the disc's 74 rotation. While this orbiting movement occurs, the other distal end of the linkage 70 is fixed to the translating bladed element 42 with a freely rotating junction 76. Therefore, due to the linearly constrained characteristics of the translating bladed element 42, the linkage's distal end that is attached to the freely rotating junction 76 at the translating bladed element 42 also translates linearly, thus forcing the translating bladed element 42 to oscillate relative to its complimentary fixed counterpart, the fixed bladed elements 44. As this occurs, the torsion springs 46 translate and distort along the shaft 50 they are concentrically constrained to as they apply a compressive biasing unto the baseplate 58, the fixed bladed elements 44 and the translating bladed element 42 thereby holding them together.

[0074] To better illustrate the disclosed assembly and operation of the aforementioned cutting components 43, an exploded perspective view is shown in FIG. 7. This figure more clearly illustrates the method of mating between the baseplate 58, the fixed bladed elements 44, and the translating bladed element 42. The fixed bladed elements 44 are constrained in all dimensions through the implementation of complimentary key-hole slot elements. There are a plurality of baseplate extrusions 78 that fit within an equal number of complimentary slots or recesses 80 that prevent the fixed bladed element from moving.

[0075] FIG. 8 shows the device 10 in a perspective view of the device 10 showing the interchangeable cutting length component 22 removed from the device 10. This figure illustrates that there may be multiple sizes and forms of this interchangeable cutting length component 22 which can be provided such as in a kit, to allow the user to employ one corresponding to proportional lengths of hair shaft 12 trimming desired. The interchangeable cutting length components 22 are inserted within the cavity formed by the recess 15 a distance from the surface of the operatively positioned positioning member 14 and the apex 40 thereon, to change the distance between the apex 40, the surface of the positioning member 14 and the surface of the recess 15 surrounding them.

[0076] The effect of this distance change is more clearly illustrated in FIG. 9 where a hair shaft path 26 is shown with two different sized wall thicknesses 36. The thin-walled element 82 shown allows the distal end of the hair shaft 12 to release from the sandwiched engagement and rotate through the opening 21 across from the apex 40 and into the cutting cavity 13 sooner, thereby placing a greater amount of the distal end 34 of the hair shaft 12, protruding into the cutting cavity 13. Whereas, the thick-walled element 84 does the opposite. This difference in trimmed length occurs due to the bending of the hair shaft over the apex 40, which forces the hair shaft's distal end 34, once out of contact with the wall of the recess 15, to be thrust upwards into the cutting cavity 13 when the hair shaft's distal end 34 reaches the interchangeable cutting length component's interior surface 86. This trimming length is proportional to the distance between the apex 40 and the interchangeable cutting length component interior surface 86.

[0077] While all of the fundamental characteristics and features of the invention have been shown and described herein, with reference to particular embodiments thereof, a latitude of modification, various changes and substitutions are intended in the foregoing disclosure and it will be apparent that in some instances, some features of the invention may be employed without a corresponding use of other features without departing from the scope of the invention as set forth. It should also be understood that various substitutions, modifications, and variations may be made by those skilled in the art without departing from the spirit or scope of the invention. Consequently, all such modifications and variations and substitutions are included within the scope of the invention as defined by the following claims.