Detachable device for inhibiting air leaks between sliding panels

Abstract

A panel fastening device that is configured to move together a first frame of a first panel unit having a first glass panel mounted within the first frame and a second frame of a second panel unit having a second glass panel mounted within the second frame. The device includes a suction cup is configured to be coupled to and released from the first glass panel of the first panel unit, and a structure is configured to be pressed against and released from the second frame of the second panel unit.

Claims

1. A panel fastening device that is configured to move together a first frame of a first panel unit having a first glass panel mounted within the first frame and a second frame of a second panel unit having a second glass panel mounted within the second frame, the device comprising: a suction cup that is configured to be coupled to and released from the first glass panel of the first panel unit; and a structure that is configured to be pressed against and released from the second frame of the second panel unit comprising a frame clip that is configured to be moved along a threaded rod by a handle that is threadably engaged with the threaded rod, wherein the handle is configured to be pivoted relative to the frame clip, and wherein the handle has a cam surface that is configured to contact a tap surface of the frame clip, such that when the handle is pivoted in a first handle pivot direction to a locked position the cam surface of the handle pushes down against the top surface of the frame clip, to push the frame clip down toward the second frame of the second unit.

2. The panel fastening device of claim l, wherein the handle has a distal end, and wherein the first handle pivot direction moves the handle distal end toward the glass panel of the first panel unit.

3. The panel fastening device of claim 2, wherein when the handle is in the locked position the handle distal end is directly over the first glass panel of the first panel unit.

4. The panel fastening device of claim 1, wherein the handle comprises a threaded nut that is engaged with the threaded rod.

5. The panel fastening device of claim 1, wherein the frame clip comprises a cushioned end face that is configured to contact the second frame of the second panel unit.

6. The panel fastening device of claim 1, further comprising a structure that is configured to release the suction cup from the first glass panel of the first panel unit.

7. The panel fastening device of claim 1, wherein the suction cup is coupled to the first glass panel of the first panel unit using a cam lock that is pivotable so as to push the suction cup against the glass.

8. The panel fastening device of claim 1, further comprising a compliant foot that is carried on a first end of the threaded rod.

9. The panel fastening device of claim 8, further comprising a knob at a second end of the threaded rod.

10. The panel fastening device of claim 9, wherein when the knob is rotated in a first direction the compliant foot is moved toward the second frame of the second panel unit.

11. The panel fastening device of claim 10, wherein when the knob is rotated in a second direction the compliant foot is moved away from the second frame of the second panel unit.

12. A panel fastening device that is configured to move together a first frame of a first panel unit having a first glass panel mounted within the first frame and a second frame of a second panel unit having a second glass panel mounted within the second frame, the device comprising: a suction cup that is configured to be coupled to and released from the first glass panel of the first panel unit, wherein the suction cup is coupled to the first glass panel of the first panel unit using a cam lock that is pivotable so as to push the suction cup against the glass, and to release the suction cup from the first glass panel of the first panel unit; and a structure that is configured to be pressed against and released from the second frame of the second panel unit, wherein the structure that is configured to be pressed against and released from the second frame of the second panel unit comprises a frame clip that is configured to be moved along a threaded rod by a handle that is threadably engaged with the threaded rod, wherein the handle is configured to be pivoted relative to the frame clip, and wherein the handle has a cam surface that is configured to contact a top surface of the frame clip, such that when the handle is pivoted in a first handle pivot direction to a locked position, the cam surface of the handle pushes down against the top surface of the frame clip, to push the frame clip down toward the second frame of the second unit, wherein the handle has a distal end, and wherein the first handle pivot direction moves the handle distal end toward the first glass panel of the first panel unit, wherein when the handle is in the locked position the handle distal end is directly over the first glass panel of the first panel unit, wherein the handle comprises a threaded nut that is engaged with the threaded rod, wherein the frame clip comprises a cushioned end face that is configured to contact the second frame of the second panel unit.

13. The panel fastening device of claim 12, wherein the structure that is configured to be pressed against and released from the second frame of the second panel unit comprises a compliant foot, a threaded shaft that carries the compliant foot on a first end thereof, and a knob at a second end of the threaded shaft, wherein when the knob is rotated in a first direction the compliant foot is moved toward the second frame of the second panel unit and wherein when the knob is rotated in a second direction the compliant foot is moved away from the second frame of the second panel unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For a better understanding of the present disclosure, reference is made to the accompanying drawings, in which like elements are referenced with like numerals, and in which:

(2) FIGS. 1A and 1B are side views of a detachable device for inhibiting air leaks between sliding panels in the disengaged and engaged positions, respectively.

(3) FIG. 2 is an exploded view of the detachable device for inhibiting air leaks between sliding panels of FIGS. 1A and 1B.

(4) FIG. 3 is a perspective view of the detachable device for inhibiting air leaks between sliding panels of FIGS. 1A, 1B, and 2.

(5) FIGS. 4A is a top view of the detachable device for inhibiting air leaks between sliding panels of FIGS. 1A, 1B, 2, and 3.

(6) FIG. 4B is a cross-sectional view taken along line 4B-4B of FIG. 4A.

(7) FIGS. 5A and 5B illustrate side and top perspective views, respectively, of a second example of a detachable device for inhibiting air leaks between sliding panels.

DETAILED DESCRIPTION

(8) FIGS. 1A and 1B illustrate a sliding panel assembly 19 having one fixed panel unit and one sliding panel unit. The sliding panel assembly 19 is illustrated as a sliding glass door assembly and will be described as such herein although those skilled in the art will recognize that the present detachable device for inhibiting air leaks between sliding panels (also known as fastener device) 50 may be used with other sliding panel assemblies such as sliding windows. Device 50 is preferably adapted for use with panel units that have overlying frame sections when in the closed position (as in FIGS. 1A and 1B).

(9) Fixed panel unit 20 includes a frame 21 extending about its periphery with a glass panel 22 mounted within the frame 21. Similarly, the sliding panel unit 30 includes a frame 33 extending about its periphery with a glass panel 32 mounted within the frame 33.

(10) Fastener device 50 is configured to be removably coupled to the glass of one panel unit (e.g., glass 32) and is also configured to be tightened down against the top face of the frame of the other adjacent panel unit (e.g., frame 21). A result is that the two overlying frames 21 and 33 are pushed together, as shown by the differences between FIGS. 1A and 1B (where the frames are apart in FIG. 1A and together in FIG. 1B). This helps to inhibit the leaking of air between the overlapping frames 20 and 33.

(11) In the first embodiment shown in FIGS. 1-4, fastener device 50 comprises suction cup 52 that can be pressed against a glass pane via pivoting cam lock 70 that acts on overlying structure 72. Cam lock 70 pivots on pin 71 that is received in structure 73. Cam lock 70 is shown in the engaged or locked (down) position in FIGS. 1-4. The disengaged/unlocked (up) position is not depicted.

(12) Rubber contact surface 54 of arm or frame clip 55 is the structure that is configured to place pressure against a frame. This is accomplished as follows. Threaded barrel nut 61 is embedded in handle 60, and rides on threaded rod 56 with end-cap 57. With handle 60 in the up (disengaged) position, handle 60 is rotated clockwise, which causes nut 61 and thus handle 60 to move down toward the frame. This pushes frame clip 55 down toward the frame. Frame clip 55 and handle 60 are locked together so they move together by shoulder 64 overlying surface 63; see FIGS. 3 and 4A. Rotation is continued until surface 54 is close to or engages with the frame. Handle 60 is then pulled or pushed down (pivoted) toward the glass panel. This causes handle end cam surface 62 to engage with and push down against mating frame clip top surface 59. Since the frame clip is not fixed to threaded rod 56, it is pushed down, thereby placing pressure on end 54. The door or window frame under end 54 is pushed down, closer to and ideally tightly against the underlying frame of the other panel. This moves the overlapping panels (frames) 21 and 33 together and thereby reduces or seals any air leaks between the panels. See FIG. 1B. The device can be removed in the opposite mannerpull up on handle 60 to release the pressure on end 54 and turn the handle counter-clockwise to remove end 54 from the frame. Suction cup 52 can then be released by pulling up on cam lever 70.

(13) FIG. 5A illustrates a side view and FIG. 5B illustrates a perspective view of another embodiment, device 200 that also has suction cup 210 and its cam lock lever 212 for coupling to a glass pane. The coupling to the frame of the other panel in this case is via rubber foot 206 carried at the free end of threaded shaft 204 that is received in body 218 and can be rotated in two directions via knob 202. Device 200 is coupled to the slider/window by fixing suction cup 210 to the glass of one panel unit and then turning knob 202 clockwise to push foot 206 against the frame of the other panel unit, until the two frames have moved together. Device 200 can be released by turning knob 202 counter-clockwise and releasing suction cup 210 using release tab 211.

(14) Accordingly, there is thus provided a detachable fastening device for sliding panels. The device is an effective and inexpensive mechanism to minimize air gaps common in sliding panels such as sliding glass doors and windows. Accordingly, heat transfer is advantageously minimized. For example, in cold climate regions, this can result in substantial heating cost savings as heat losses are minimized. Furthermore, the device also enables users to readily detach it so that one of the sliding panels can be moved. Also, the device does not require tools or machining any permanent attachments to existing frames.

(15) The present disclosure is not to be limited in scope by the specific embodiments described herein. Indeed, other various embodiments of and modifications to the present disclosure, in addition to those described herein, will be apparent to those of ordinary skill in the art from the foregoing description and accompanying drawings. Thus, such other embodiments and modifications are intended to fall within the scope of the present disclosure. Further, although the present disclosure has been described herein in the context of a particular implementation in a particular environment for a particular purpose, those of ordinary skill in the art will recognize that its usefulness is not limited thereto and that the present disclosure may be beneficially implemented in any number of environments for any number of purposes. Accordingly, the claims set forth below should be construed in view of the full breadth and spirit of the present disclosure as described herein.