The present invention is in the field of pergola tilt louver systems.
A variety of different pergolas have been invented in the past, such as Self Ventilated Pergola described in WO 2011/121370A2 by inventor Konstantinos Spiliopoulos, published Oct. 6, 2011, the disclosure of which is incorporated herein by reference, which shows a pergola with blade panels having hook ends. In U.S. Pat. No. 5,306,210 to Smit, issued Apr. 26, 1994, entitled Louver Type Roof Structure has a plurality of parallel transversely mounted on carrier beams extending transversely to the slats, the disclosure of which is incorporated herein by reference. A variety of different pergola louver cover folding mechanisms have been created, such as seen in U.S. Pat. No. 9,644,374 issued May 9, 2017 entitled Pergola Cover, the disclosure of which is incorporated herein by reference. Edwards in U.S. Pat. No. 5,732,507 entitled Louvre Assembly issued Mar. 31, 1998 provides a pivoting profile having interengagement means, the disclosure which is incorporated herein by reference.
The present invention is an improvement over the prior art in that it provides a modular system of interconnecting links for decreasing binding commonly associated with interlocking louver system. A pergola louver tilt system has a crossbeam with a track with a track groove. The system also has a post mounted on the crossbeam. A louver clip is pivotally mounted to post at a post joint. A louver is mounted to the louver clip. A pivot link is pivotally mounted to the louver clip. A stem is mounted to slide on the track groove. The pivot link is pivotally mounted to the stem at a stem connection pivot formed on the stem. A link connecting the stem to an adjacent stem. The link includes a first link connection and a second link connection. The first link connection connects to an adjacent stem, and the second link connection connects to a subsequent stem in a sequential chain.
The track groove can be formed on an upper surface of the crossbeam. The post can be an inside post. An outside post is mounted on the crossbeam adjacent to the inside post. The louver has a louver flat portion with a louver upper bend extending from the louver flat portion and a louver lower bend also extending from the louver flat portion. The louver upper bend terminates at a louver upper hook. The louver lower bend terminates at a louver lower hook.
The stem connection pivot is formed as a stem connection opening. The stem further includes a stem slot, and the stem slot receives the pivot link. The pivot link has a flat shape configured to fit into the stem slot. The pivot link rotates relative to the stem connection opening inside the stem slot. The link is modular and removable. The louver clip further includes a clip flange mount is formed as a flat rib extending perpendicularly from the louver clip toward the post. The clip flange mount is pivotally mounted to the post joint.
The following call out list of elements can be a useful guide in referencing the element numbers of the drawings.
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Each louver clip 30 has a louver clip lower arm 31 and a louver clip upper arm 32. The louver clip lower arm 31 and the louver clip upper arm 32 flex relative to the louver clip 30. The flexible arms extend around the edge of each louver and lock the louver to the louver clip 30. The louver clip is preferably made of an aluminum extrusion, or steel bended sheet. The louver clip lower arm hook 33 and the louver clip upper arm hook 34 further include a lower arm hook edge 35 and an upper arm hook edge 36. The louver clip 30 also preferably includes a clip flange mount 37 that can either extend from a longitudinal edge of the louver clip 30, or can extend from a middle lower portion of the louver clip 30. The clip flange mount 37 is connected to a flange pivot 38 that retains and actuates the louver clip 30. The louver clip 30 is structurally pivotally mounted to the post joint 39.
A link 41 transmits the actuation motion to the louver clip 30 and a series of links 41 transmits the actuation motion from one louver clip to another. The link 41 has a first link connection 42 and a second link connection 43. The first link connection 42 and the second link connection 43 can be formed as openings such as circular openings. The circular openings can fit over the stem 50. The link 41 is discrete and can be added modularly with additional louver clips 30 so as to extend the length of a pergola.
The louver clips 30 rotate when an actuator bar 44 moves. The actuator bar 44 is mounted to an actuator link 45. The actuator link 45 is similar to the link 41, except that it is connected to the actuator bar 44. The actuator bar 44 can be rigidly mounted to the actuator link 45. The actuator link 45 has an actuator link connection 46 which may also have a circular opening for fitting over the stem 50.
Certain links 41 may have a link bend 47 to allow overlapping of links 41. The first link connection 42 can be formed as a first link connection opening 49 and the second link connection 43 can be formed as a second link connection opening 48. Both of these openings are sized to fit over the stem 50 with a minimal amount of play. The stem base 51 can be circular disk shape and fit into a track groove 56 so that the stem base 51 slides along the track groove 56. The stem 50 can have a stem connection pivot formed as a stem connection opening 52 for receiving a post pivot 54 of the pivot link 53. The post pivot 54 can be a pin joint or riveted joint similar to the flange pivot 38. The track 55 is preferably an aluminum extrusion with a track groove 56 formed therein. The stem 50 may also have a stem slot. The stem slot 57 preferably receives the flat tip of the pivot link 53. So that the post pivot 54 engages with the stem connection opening 52.
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The general configuration of the pergola is rectangular but can also be made in a variety of different shapes such as square or octagonal. The pivot link 53 is also formed in a pair of rows, namely a left row of pivot links and a right row of pivot links provide a left and right symmetrical force transmission. Similarly, the track 55 is also formed with a right track and the left track supporting the right and left rows of pivot links and louver clips. Columns 58 provide a vertical support for the pergola crossbeams 59. The crossbeams 59 can be integrally formed with the track 55, or can be made as separate members. Preferably, the crossbeams 59 are integrally formed with the track 55 and the groove on the track.
The louver panel 60 has a louver flat portion 61 that extends upwardly to a louver upper bend 62. The louver flat portion 61 also extends downwardly to a louver lower bend 63. The louver lower bend 63 has a louver lower hook 64 that terminates at a louver lower hook edge 66. Similarly, the louver upper bend 62 extends to a louver upper hook 65 with a louver upper hook edge 67. The louver panel 60 also includes a louver right edge 68 and a louver left edge 69. The louver upper hook edge 67 engages to the upper arm hook edge 36, and the louver lower hook edge 66 engages to the lower arm hook edge 35. Thus, the louver panel 60 snaps to the right louver clip and the left louver clip. The louver clips 30 are formed as springs for bias retention of the louver panels 60.
As seen in
The link 41 connects to adjacent links and provides transmission of force equally to all of the stems 50 at the first link connection 42 and the second link connection opening 48. Each stem 50 extends upwardly from each stem base 51. Each stem connection opening 52 may communicate or cooperate with the stem slot 57 and provide a mounting to the pivot link 53. The track 55 extends horizontally to be supported by columns 58.
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The first connection openings and the second connection openings fit over the stem 50. The stem 50 has a stem base 51 with a larger radius then a radius of the stem 50. The stem 50 may also have a stem connection opening 52. The stem base 51 is preferably disc-shaped and can have one or more disc-shaped members that fit into one or more track grooves 56 in an aluminum extrusion that is horizontally oriented. The stem slot 57 preferably passes through the stem 50 to allow free rotation of the pivot link 53 relative to the stem connection opening 52.
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A key feature of the present invention is that the play in the link is tuned properly. The first link connection connects to an adjacent stem, and the second link connection connects to a subsequent stem in a sequential chain. Each link has a small amount of play to prevent binding because each link is activated sequentially when the closing and opening action is reversed. Since each link is activated sequentially, subsequent links are not affected so then not all of the louver panels, or blades need to be started in motion simultaneously. Avoiding simultaneous motion startup minimizes binding when link tolerances are tuned to an appropriate amount.