Sliding door foot bolt

Abstract

A lock kit for a fenestration assembly includes a panel stop. The fenestration assembly includes a first panel and a second panel, at least one of the first and second panels being slideable relative the other of the first and second panels. The panel stop is configured to pivotably mount within a recess of a frame member of the first panel and pivot between a first stop position configured to maintain the first and second panels in a fully closed position, a second stop position configured to limit sliding of the first and second panels beyond a preset partially-open position, and a third position substantially within the recess, the third position being configured to not restrict a range of motion of the first and second panels.

Claims

1. A lock kit for a fenestration assembly including a first panel and a second panel, at least one of the first and second panels being slidable relative to the other of the first and second panels, the lock kit comprising: a stop catch configured to mount to the second panel; and a panel stop configured to pivotally mount to the first panel at a pivot location, the panel stop including an abutment portion and a hook portion opposite the pivot location from the abutment portion, the panel stop configured to pivot at the pivot location between a first stop position at which the abutment portion abuts the stop catch to maintain the first and second panels in a fully closed position, a second stop position at which the hook portion hooks the stop catch to limit relative sliding of the first and second panels beyond a partially-open position, and a third position at which the panel stop does not restrict the relative sliding of the first and second panels.

2. The lock kit of claim 1, wherein: the stop catch comprises first and second protrusions defining a recess between the first and second protrusions; the abutment portion of the panel stop engages the recess of the stop catch when the panel stop is in the first stop position; and the hook portion of the panel stop engages one of the first and second protrusions when the panel stop in is in the second stop position.

3. The lock kit of claim 2, wherein the stop catch is configured to mount to a vertical side of the second panel.

4. The lock kit of claim 3, wherein in the first stop position the abutment portion of the panel stop is configured to extend from a recess of the first panel and engage the catch stop.

5. The lock kit of claim 4, wherein in the second stop position the hook portion of the panel stop is configured to extend from the recess of the first panel and engage the catch stop.

6. The lock kit of claim 5, wherein in the third position the panel stop is configured to be substantially within the recess of the first panel.

7. The lock kit of claim 6, comprising a bias and detent structure configured to selectively bias the panel stop between each of the first stop position, the second stop position, and the third position.

8. A fenestration assembly, comprising: a first panel including a recess; a second panel, wherein at least one of the first and second panels is slidable relative to the other of the first and second panels between a first overlapping position at which the first and second panels overlap by a first amount and a second overlapping position at which the first and second panels overlap by a second amount that is greater than the first amount; and a lock kit comprising a panel stop configured to pivotally mount in the recess of the first panel at a pivot location, the panel stop including an abutment portion and a hook portion opposite the pivot location from the abutment portion, the panel stop configured to pivot at the pivot location between a first stop position at which the abutment portion abuts the second panel when the first and second panel are at the first overlapping position to prevent the first and second panels from sliding from the first overlapping position toward the second overlapping position, a second stop position at which the hook portion hooks the second panel when the first and second panels are at the second overlapping position to prevent the first and second panels from sliding beyond the second overlapping position, and a third position at which the panel stop does not restrict the relative sliding of the first and second panels.

9. The fenestration assembly of claim 8, comprising a stop catch mounted to a vertical side of the second panel, and wherein the panel stop engages the stop catch when the panel stop is in the first and second stop positions.

10. The fenestration assembly of claim 9, wherein: the stop catch comprises first and second protrusions defining a recess between the first and second protrusions; the abutment portion of the panel stop engages the recess of the stop catch when the panel stop is in the first stop position; and the hook portion of the panel stop engages one of the first and second protrusions when the panel stop in in the second stop position.

11. The fenestration assembly of claim 10, comprising a bias and detent structure configured to selectively bias the panel stop between each of the first stop position, the second stop position, and the third position.

12. The fenestration assembly of claim 8, comprising a bias and detent structure configured to selectively bias the panel stop between each of the first stop position, the second stop position, and the third position.

13. The fenestration assembly of claim 8, wherein the first overlapping position is a fully closed position, and the second overlapping position is a partially-open position.

14. A method for operating a lock kit of a fenestration assembly including a first panel and a second panel, at least one of the first and second panels being slidable relative to the other of the first and second panels between a first overlapping position at which the first and second panels overlap by a first amount and a second overlapping position at which the first and second panels overlap by a second amount that is greater than the first amount, the method comprising: pivoting a panel stop mounted in a recess of the first panel of the fenestration assembly from a third position substantially within the recess to a first stop position to prevent the first and second panels from sliding from the first overlapping position toward the second overlapping position; pivoting the panel stop mounted in the recess from the first stop position to the third position, the third position not restricting a range of slidable motion of the first and second panels; and pivoting the panel stop mounted in the recess from the third position to a second stop position to prevent the first and second panels from sliding beyond the second overlapping position; wherein, in the first stop position, an abutment portion on a first end of the panel stop extends from the recess of the first panel and engages the second panel; and wherein, in the second stop position, a hook portion proximate a second end of the panel stop extends from the recess of the first panel and engages the second panel.

15. The method of claim 14, wherein: pivoting the panel stop to the first stop position includes causing the abutment portion of the panel stop to engage a stop catch on a vertical side of the second panel; and pivoting the panel stop to the second stop position includes causing the hook portion to engage the stop catch on the second panel.

16. The method of claim 15, wherein: causing the abutment portion of the panel stop to engage the stop catch includes causing the abutment portion to engage a recess in the stop catch; and causing the hook portion to engage the stop catch includes causing the hook portion to engage a protrusion on the stop catch.

17. The method of claim 15, wherein: pivoting the panel stop from the third position to the first stop position includes causing the panel stop to be biased to a detent at the first stop position; and pivoting the panel stop from the third position to the second stop position includes causing the panel stop to be biased to a detent at the second stop position.

18. The method of claim 14, wherein: pivoting the panel stop from the third position to the first stop position includes causing the panel stop to be biased to a detent at the first stop position; pivoting the panel stop from the third position to the second stop position includes causing the panel stop to be biased to a detent at the second stop position.

19. The method of claim 14, wherein the first overlapping position is a fully closed position of the fenestration assembly, and the second overlapping position is a partially-closed position of the fenestration assembly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view of a fenestration assembly, according to some examples.

(2) FIGS. 2A-2E illustrate a panel stop assembly including a panel stop pivotably mounted within a recess of a panel stop outer casing via a pin.

(3) FIGS. 3A-3C illustrate a panel stop assembly in various positions to control sliding of panels.

(4) FIG. 4 is a flowchart illustrating techniques for operating a panel stop, such as a panel stop of the panel stop assembly of FIGS. 3A-3C, to control sliding of panels.

(5) FIG. 5 is a schematic view of a fenestration assembly showing additional or alternative positions of associated lock kit(s), according to some examples.

(6) FIG. 6 is a schematic view of a fenestration assembly showing a lock kit positioned on a sill, according to some examples.

(7) FIG. 7 is a schematic view of another fenestration assembly, according to some examples.

DETAILED DESCRIPTION

(8) Various aspects of the present disclosure are directed toward a foot bolt or lock for a fenestration assembly (such as a sliding door). The lock may be manually actuated to limit travel of the fenestration assembly. Some examples include lock multiple positions providing alternative travel limits such as fully-closed and partially-open limits.

(9) FIG. 1 is a schematic view of a fenestration assembly 10 when closed as viewed from inside a structure in which it is installed. Fenestration assembly 10 includes a first panel 12, a second panel 14, and a frame 18. The first panel 12 is a panel that opens by sliding, often termed a vent panel and the second panel 14 is optionally a stationary panel, often termed a fixed panel, or another vent panel. It is to be understood by one skilled in the art that the first panel 12 and second panel 14 described in the present disclosure may alternatively be a fixed panel and a vent panel, respectively. Panels of fenestration units (e.g., door panels) are often described in terms of vertical stiles and horizontal rails. Frame members of fenestration units are often described in terms of vertical side jambs, a horizontal head, and a horizontal sill. Some examples of suitable fenestration units usable with locking systems according to the instant disclosure include those sold under the trade name ENCOMPASS, THERMASTAR, 250 SERIES, 350 SERIES, IMPERVIA, PROLINE 450 SERIES, ARCHITECT SERIES, and DESIGNER SERIES by Pella Corporation of Pella, Iowa.

(10) Fenestration assembly 10 includes a frame 18 adapted to be received in a rough opening created in a building structure (not shown). Frame 18 can be constructed of wood, vinyl, aluminum, or a variety of other materials. In the illustrated example, frame 18 includes four peripheral frame members joined and secured together to form a rectangular shape corresponding to the shape of the rough opening. The inner perimeter of the rough opening is slightly larger than the perimeter of frame 18 of fenestration assembly 10, so that fenestration assembly 10 can be received in the rough opening during installation. The methods of mounting frame 18 to the rough opening are well known in the window industry.

(11) As used herein the phrase window frame refers to a framework mounted in a rough opening of a building structure for receiving and supporting one or more sashes of a window assembly. As used herein, the term sash refers to a framework for receiving and supporting one or more glazing panes. In double hung, awning, and casement windows, the sashes can be moved relative to the window frame. In a fixed window, the sash does not typically move relative to the window frame, but can be removed for repair purposes. While the techniques of this disclosure are generally described with respect to sliding doors, one type of closure assembly, similar closure assemblies may also be included in window assemblies. In both sliding door and windows, there can be moveable sashes with or without fixed sashes. In various implementations, the moveable sashes move laterally or vertically.

(12) In the usual manner, first panel 12 is slidably mounted within a roller track, for example, horizontal movement between the jambs. Panels 12, 14 may be made of durable material, such as wood, vinyl, aluminum or variety of other materials. The methods of making panels, such as sliding door panels and window sashes, are well known in the fenestration manufacturing industry. Panels 12, 14 each includes a glazing unit that is secured within frame members of panels 12, 14. The glazing units can include a single glass layer, two glass layers, or more. In some examples, glazing units can include various coatings that impact visible and/or UV light transmission.

(13) Although the examples below are provided with general reference to sliding doors, it should be understood that these features are equally applicable to sliding windows. As such, each example below should also be considered applicable to other types of fenestration units, such as sliding windows including one or more sliding window sashes.

(14) FIG. 1 further illustrates lock kit 20. Lock kit 20 includes panel stop assembly 30 within a recess of a horizontal rail 13 of second panel 14, and may or may not include a stop catch 50 mounted to vertical side jamb 15 of first panel 12 adjacent to second panel 14. Additionally or alternatively, the first panel 12 may include a stop assembly 30 and the second panel 14 may include a stop catch 50. Panel stop assembly 30 includes a panel stop 32 (FIG. 2) pivotable between a first stop position configured to maintain the first and second panels 12, 14 in a fully closed position, a second stop position configured to limit sliding of the panels 12, 14 beyond a preset partially-open position, and a third position substantially within the recess of the horizontal rail 13. In the third position, panel stop 32 does not restrict a range of motion of panels 12, 14.

(15) FIGS. 2A-2E illustrate panel stop assembly 30. Specifically, FIG. 2A illustrates a perspective view, FIG. 2B illustrates a side view, FIG. 2C illustrates an exploded view, FIG. 2D illustrates a bottom perspective view, and FIG. 2E illustrates a close-up bottom perspective view of panel stop assembly 30 showing spring 61 registering on a set of spring detents 62.

(16) Panel stop assembly 30 includes panel stop 32, panel stop outer casing 40, pin 39, and detent spring 60. Panel stop 32 is pivotably mounted within recess 42 of panel stop outer casing 40 via pin 39. Panel stop assembly 30, including panel stop 32, is configured to pivotably mount within a recess of a frame member of a panel, such as in a recess of horizontal rail 13 of second panel 14 (FIG. 1).

(17) Panel stop 32 includes a first end 35, a second end 36 opposing first end 35, a protrusion 38 proximate second end 36, and a notch 37 which allows protrusion to engage a frame member of an adjacent fenestration panel, such as vertical side jamb 15 of first panel 12 (FIG. 1). Panel stop 32 is pivotably mounted within recess 42 of panel stop outer casing 40 via pin 39.

(18) Panel stop 32 is configured to pivot between a first stop position configured to maintain panels of a fenestration assembly, such as panels 12, 14 (FIG. 1) in a fully closed position, a second stop position configured to limit sliding of the panels beyond a preset partially-open position, and a third position substantially within a recess of frame member in which panel stop assembly 30 is mounted. In the first position, end 35 of panel stop 32 is configured to extend from recess 42 of panel stop outer casing 40 and engage a frame member of an adjacent fenestration panel (e.g., which may or may not include a stop catch 50) to maintain the panels of a fenestration assembly, such as fenestration assembly 10, in a fully closed position. In the second position, protrusion 38 of panel stop 32 is configured to extend from recess 42 of panel stop outer casing 40 and engage the frame member of an adjacent fenestration panel (e.g., by engaging directly with the panel or stop catch 50 secured to the panel) to limit sliding of the panels beyond a preset partially-open position. In the third position, panel stop 32 does not restrict a range of motion of the panels.

(19) Panel stop outer casing 40 forms a recess 42 for receiving panel stop 32. Panel stop 32 is pivotably mounted within recess 42 via pin 39. As installed, pin 39 extends between interior surfaces of recess 42. Panel stop outer casing 40 further forms apertures 68 for receiving pin 39. Pin 39 may be secured within panel stop outer casing 40 by any suitable techniques including, but not limited to, interference fit, adhesives, welding, brazing, soldering, threads, or as a nut and bolt.

(20) Panel stop outer casing 40 is configured for installation within a recess of frame member in which panel stop assembly 30 is mounted, such as in a recess of horizontal rail 13 of second panel 14 (FIG. 1). In some implementations, panel stop outer casing 40 includes elements to facilitate simple and secure installation. For example, as illustrated, panel stop outer casing 40 includes snap lock 45, which is configured to provide an interference fit between the recess of the frame member and an exterior surface of panel stop outer casing 40. Panel stop outer casing 40 further includes a notch 47 to receive a structural layer of the frame member at an edge of the recess of the fame member during insertion. For example, the frame member may include a generally hollow structural member, optionally filled with insulation, such as a foam material. Notch 47 is formed between protrusion 46 and rim 43. Rim 43 should have a larger perimeter than the recess within the frame member to cover the edge of the recess and provide a finished look for panel stop assembly 30 within the frame member, whether panel stop assembly 30 is part of the original construction or a retrofit feature for the panel. Mechanical attachment may also be employed to hold the assembly in position on the frame members. Fasteners may include, but are not limited to, screws, rivets, staples, adhesives, welds, and others.

(21) For installation, protrusion 46 of panel stop outer casing 40 is first inserted within the recess of the frame member such that the structural layer of the frame member fits within notch 47. Then the opposite end of panel stop assembly 30, including snap lock 45, is inserted into the recess within the frame member until locked into place with snap lock 45. In some implementations, one installed snap lock 45 registers with an interior bottom surface of the structural layer of the frame member to prevent removal. Rim 43 functions to prevent overinsertion of panel stop assembly 30 during installation within a recess of a frame member.

(22) In the illustrated implementation, panel stop assembly 30 further includes a spring 60, and panel stop outer casing 40 includes a set of spring detents 62 that selectably receives detent end 61 of spring 60 to bias panel stop to the different panel stop positions. Details of spring 60 and the set of spring detents 62 is best illustrated in FIG. 2E. Panel stop outer casing 40 includes a protrusion 64 sized to receive an interior diameter of the helical portion of spring 60. In some example, the helical portion of spring 60 may interference fit over protrusion 64. End 63 of spring 60 is retained in a slot adjacent spring retaining protrusion 66 of panel stop outer casing 40.

(23) As shown in FIG. 2E, the set of spring detents 62, includes spring detents 62A, 62B, 62C, which are separated by detent ribs. Spring detents 62A, 62B, 62C are each configured to selectably bias panel stop 32 to one of the first, second, and third positions. Specifically, spring detent 62A is configured to selectably bias panel stop 32 to a first stop position that maintains the fenestration panels in a fully closed position with first end 35 extending from recess 42 of panel stop outer casing 40 to engage a frame member of an adjacent panel (see FIG. 3A). Spring detent 62C is configured to selectably bias panel stop 32 to a second stop position that to limit sliding of the fenestration panels beyond a preset partially-open position with protrusion 38 extending from recess 42 of panel stop outer casing 40 to engage the frame member of an adjacent panel (see FIG. 3B). In addition, spring detent 62B is configured to selectably bias panel stop 32 to a third position in which panel stop 32 remains substantially within recess 42 of panel stop outer casing 40 such that the third position does not restrict a range of motion of the fenestration panels (see FIG. 3C).

(24) FIGS. 3A-3C illustrate panel stop assembly 30 and stop catch 50 mounted to panels 14, 12 in a fully closed position (FIG. 3A), a second stop position configured to limit sliding of panels 12, 14 beyond a preset partially-open position (FIG. 3B), and a third position substantially within the recess of the horizontal rail 13 (FIG. 3C).

(25) As indicated in FIG. 3C, stop catch 50 is secured to vertical side jamb 15 of panel 12 via screw 51 although any suitable attachment techniques may be used. Stop catch 50 includes a recess 55 formed between a protrusion 52 and a tapered surface 54. Tapered surface 54 is configured to correspond to the angled surfaces of end 35 and protrusion 38 of panel stop 32 in order to guide end 35 or protrusion 38 of panel stop 32 into recess 55. Stop catch 50 may provide for further engagement of panel stop 32 with panel 12 than alternative implementations that do not include stop catch 50 by restricting rotation of panel stop 32 when either end 35 or protrusion 38 is engaged with stop catch 50.

(26) FIG. 4 is a flowchart illustrating techniques for operating a panel stop, such as panel stop 32, to control sliding of panels, such as panels 12, 14. For clarity, the technique of FIG. 4 is discussed with respect to fenestration assembly 10, including a lock kit 30 including panel stop assembly 30 and stop catch 50. The illustrated techniques include pivoting panel stop 32, which is mounted in a recess of horizontal rail 13 of second panel 14, from a third position substantially within the recess of horizontal rail 13 (see FIG. 3C) to a first stop position (see FIG. 3A) to maintain panels 12, 14 in a fully closed position (202). In the first stop position, a first end 35 of the panel stop extends from the recess of horizontal rail 13 and engages vertical side jamb 15 of panel 12 to restrict movement of panel 12 relative to panel 14.

(27) The illustrated techniques further include pivoting panel stop 32 from the first stop position (see FIG. 3A) to the third position (see FIG. 3C), the third position not restricting a range of motion of panels 12, 14 (204). In addition, the illustrated techniques also include pivoting panel stop 32 from the third position (see FIG. 3C) to the second stop position (see FIG. 3B) to limit sliding of panels 12, 14 beyond a preset partially-open position (206). In the second stop position, protrusion 38, located proximate second end 36 (FIG. 2A) the panel stop 38 extends from the recess of the second panel and engages the frame member of the first panel 12 to limit movement of panel 12 relative to panel 14.

(28) Pivoting the panel stop between the first stop position, the second stop position, and the third position includes pivoting the panel stop such that detent end 61 of spring 60 selectively engages spring detents 62 to selectably bias panel stop 32 between each of the first position, the second position and the third position.

(29) FIG. 5 is a schematic view of a fenestration assembly showing additional or alternative positions of associated lock kit(s) 20, according to some examples. The lock kit(s) 20 optionally include features similar to those previously described. As shown, the fenestration assembly 10 additionally or alternatively includes lock kit(s) near a head of the fenestration assembly 10 (e.g., with stop assembly 30 mounted to a top horizontal rail of the second panel 14 and optional stop catch 50 mounted to top horizontal rail of first panel 12)

(30) FIG. 6 shows still another additional or alternative position of an associated lock kit(s) 20. As shown, the lock kit 20 is attached to the bottom horizontal sill (the second panel 14 is removed from the schematic for ease of viewing). As shown, the stop assembly 30 is mounted into to the bottom horizontal sill of the frame 18 and the optional stop catch 50 is mounted to bottom horizontal rail of first panel 12 to interact with the stop assembly 30 in a similar manner to that previously described.

(31) Regardless of whether the fenestration assembly 10 is a door or window, any of the lock kit 20 arrangements described in this disclosure are equally applicable. For example, FIG. 7 is a schematic view of another fenestration assembly 10, according to some examples. As shown, the fenestration assembly 10 is configured as a double hung window with a first panel 12 and a second panel 14 (e.g., two vertically slideable sashes) carrying one or more lock kit(s) 20 (e.g., on the respective stiles of the first panel 12 and the second panel 14 as shown). Alternatively, the fenestration assembly 10 could be configured as a single hung window with a first panel 12 and a second panel 14 (e.g. one vertically slideable sash) carrying one or more lock kit(s) 20 (e.g., on the respective stiles of the first panel 12 and the second panel 14 as shown). Alternatively, the fenestration assembly 10 could be configured as a horizontal sliding window in which the first panel 12 and a second panel 14 (e.g. one horizontally slideable sash) carrying one or more lock kit(s) 20 (e.g., on the respective stiles of the first panel 12 and the second panel 14 as shown). The lock kit(s) 20 are optionally similar to those previously described.

(32) Various modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present disclosure. For example, while the embodiments described above refer to particular features, the scope of this disclosure also includes embodiments having different combinations of features and embodiments that do not include all of the described features. Accordingly, the scope of the present disclosure is intended to embrace all such alternatives, modifications, and variations as fall within the scope of the claims, together with all equivalents thereof.