None.
None.
The invention relates to furniture such as a chair or sofa, such furniture pieces being referred to herein generally as seating units, and more particularly, to an improved mechanism for controlling the inclination angle of the back rest to the seat cushion.
Modern recliners exist that allow a user to recline the chair back relative to the seat. These existing recliners use mechanisms to control the inclination angle of the back. These mechanisms are housed internal to the seating and or back unit such that the mechanisms are hidden from view. However, these mechanisms are relatively complex and to some extent impose constraints on the furniture manufacture and transportation. Specifically, some of these mechanisms prohibit the disassembly of the back from the base frame, which holds the seat cushion, because the mechanisms extend into, and form a part of, the back. Additionally, these existing recliner mechanisms require a particular cross-beam configuration that is sized for each specific width of seating unit. This precludes manufacturing and assembling uniform components when producing a variety of sizes and styles of seating units.
The present invention pertains to a reclining back mechanism separable from the back rest. Significantly, the mechanism of the invention is constructed so that it is located within the stationary base area of the seating unit, thus enabling disassembly of the back rest from the base frame to facilitate, among other things, shipping and manufacture. Further, the present invention provides for a system of multiple lengths of interchangeable cross beams that allows for the manufacture of a variety of sizes, widths, and styles of recliners.
A reclining back mechanism for a seating unit, where the seating unit has a stationary base and a reclining back. The stationary base has a pair of opposed side members, and the reclining back has a pair of opposed side frames. The reclining back mechanism has a pair of arms, a rearward transverse member, a forward transverse member, and an actuator. The arms are pivotably coupled to each of the opposed side members. Additionally, the arms have one end coupled to each respective opposed side frame, and another downwardly extending end. The coupling of the arms and side frames constitutes an attachment between the reclining back and the stationary base. This attachment is made by a mating component such that the mating component facilitates rapid assembly and disassembly of the reclining back from the stationary base. The rearward transverse member is made from generally rigid material and has opposed ends extending generally between the opposed side members. These opposed ends are coupled to the downwardly extending end of each respective arm. The downwardly extending end has multiple mounting holes that provide for selection of mounting positions between the arm and rearward transverse member. The forward transverse member is made from generally rigid material and has opposed ends extending generally between the opposed side members. These opposed ends are coupled to each respective opposed side member with a mounting bracket. The mounting brackets have multiple mounting holes that provide for a selection of mounting positions between the opposed side members and the forward transverse member. These multiple mounting hole locations are consistent in number and spacing with the multiple mounting hole locations of the downwardly extending ends of the arms. This configuration allows for the assembly of multiple stationary base widths while fixing the length of the transverse members.
The actuator is pivotably coupled on one end to the rearward transverse member, on the other end to the forward transverse member. Typically, the actuator is a gas cylinder with a release valve that is actuated by a release mechanism. The release mechanism includes a manual lever, a cable, and a release valve lever. When the release mechanism is not activated, the gas cylinder is rigid and holds the reclining back mechanism in a fixed orientation. A user of the seating unit may pull the manual lever of the release mechanism to adjust the reclining back to a reclined position. Pulling the manual lever rotates the lever and operates the cable, which in turn rotates the release valve lever. As the release valve lever rotates, it contacts the release valve, releasing the actuator and allowing movement of the reclining back mechanism. As a user exerts rearward force on the reclining back, the side frames cause the arms to pivot. This pivoting motion is carried through the downwardly extending ends of arms and swings the rearward transverse member forward toward the forward transverse member, compressing the actuator. As the user discontinues pulling of the manual lever, the actuator will arrest the position of the reclining back at a fixed position. A user of the seating unit may pull the manual lever of the release mechanism to return the reclining back to an upright position. Activating the release valve releases the actuator and allows its predisposed extension force to return the reclining back to the fully upright position.
In the accompanying drawings which form a part of the specification and which are to be read in conjunction therewith, and in which like reference numerals are used to indicate like parts in the various views:
Referring to
As shown in
Returning to
The actuator 30 extends rearward from the forward transverse member 20 and is pivotably attached between the opposed ends of the forward transverse member 20 by a pivot assembly 25. An exemplary configuration of the pivot assembly is a C-bracket 26 fixedly connected to the forward transverse member 20. The C-bracket 26 receives a pin 27 through opposed holes, wherein the pin 27 is fixedly attached to the C-bracket 26. As shown in
The head end 31 of the gas cylinder 33 is pivotably connected to the rearward transverse member 40 by a pivot assembly 45. An exemplary configuration of the pivot assembly 45 is a C-bracket 46 fixedly connected to the rearward transverse member 40. The C-bracket 46 receives a pin 47 through opposed holes, wherein the pin 47 is fixedly attached to the C-bracket 46. It can be seen that the head 31 is directed rearward toward the back 6 of the base section 4. A bore through the head end 31 receives the pin 47 that allows the actuator to pivot rotationally about the axis of the pin 47.
The rearward transverse member 40 is made from a generally rigid material, such as square steel tubing or square stock, and generally extends between the opposed side members 21. Member 40 has opposed ends that fixedly connect to the arms 50. The arms 50 have a formed tab 52 that extends from a downward end 51. Formed tab 52 is set at an angle such that a bottom surface 59 of the formed tab 52 is aligned with a mounting surface 48 of the rearward transverse member 40. Formed tab 52 has multiple mounting hole locations 53 that allow the rearward transverse member 40 to be attached at a selection of positions. These multiple mounting hole locations 53 are consistent in number and spacing with the multiple mounting hole locations 23 of the mounting bracket 22. An exemplary spacing of the mounting hole locations 53 will allow a particular rearward transverse member 40 to assemble into a two-inch range of chair widths in one-half-inch increments. The multiple mounting hole locations 53 receive a fastener 54 that fixedly connects the rearward transverse member 40 to the formed tab 52 of the arm 50. One fastener 54 is shown in
The arms 50 have a downward end 51 and an upper end 58. Between the downward end 51 and the upper end 58, the arms 50 are pivotably coupled to the opposed side members 21 by a back pivot bracket 56. The back pivot bracket 56 is fixedly connected to the opposed side members 21 by mounting hardware 104. Additionally, the back pivot bracket 56 is pivotably connected to the arms 50 at pivot point 120 that provides an axis about which reclining back 3 is allowed to rotate. Arms 50 are formed from a sturdy material, such as stamped, formed steel. It should be understood that other suitable materials could also be used.
The upper end of the arms 58 includes one part of a knock-down fastener 57. The knock-down fastener 57 includes a male component that allows the arms 50 to mate with a complimentary female component 61 that is fixedly connected to the opposed side frames 60. The assembly of these components 57, 61 fixedly couples the arms 50 to the opposed side frames 60. The opposed side frames 60 form a part of the reclining back 3, and the arms are attached to the base section 4 at pivot point 120. Therefore, the components 57 and 61 allow for the disassembly of the reclining chair 1 by a two point disengagement. Exemplary configuration of the knock-down fastener 57 are any of the knock-down fasteners known within the art. These knock-down fasteners facilitate the rapid assembly and disassembly of the reclining back 3 from reclining chair 1 and provide for the option of shipping the base section 4 as a separate unit from the reclining back 3.
In use, a user of chair 1 can recline the reclining back 3 by activating a release valve 90 (
The release valve 90 is operated by a release mechanism. As shown in
A length of cable 88 is provided to extend cable 88 to the release valve 90. Cable 88 may be held in place in a desired location through various attachment mechanisms or grommets. The end of conduit 84 adjacent the release valve 90 has a mounting sleeve 85 sized to accommodate a snap-in attachment to a release mechanism, as further described below. Similarly, the cable 88 has an exposed external end 86 that is provided to apply force against the release lever 89, which in turn transfers force to the release valve 90 when activated by the release mechanism.
Turning to
In use, a user of chair 1 may pull lever 80 to recline or return the reclining back 3 to an upright position. Pulling lever 80 rotates the lever about point 122, which engages end 83 of cable 88 to pull the cable itself through conduit 84. This in turn pulls the end 86 against lever 89, and rotates lever 89 about pin 91. As lever 89 rotates, it contacts release valve 90, releasing rod 32. As the rod 32 is released, the actuator 30 exerts force on member 40 through arms 50 to reclining back 3 to return the back to an upright position.
As shown in
As shown in
Although three different configurations of the release mechanism have been shown, it should be understood that other release mechanisms could be used, and that the invention is not limited to those release mechanism shown and described.
As previously stated, a component of the actuator 30 is the gas cylinder 33. The gas cylinder 33 biases the reclining back 3 to the upright position as seen in
Then, the release valve 90 may be triggered by the user with either configuration of the release mechanism to return the reclining back 3 to a fully upright bias. The release mechanism triggers the release valve 90 to release pressure from the head end 31 and allows the reclining back 3 to return from the specific rearward bias position to a fully upright bias.
Persons familiar with the field of the invention will realize that it may be practiced by various devices which are different from the specific illustrated embodiment. Therefore, it is emphasized that the invention is not limited only to this embodiment but is embracing of a wide variety of mechanisms which fall within the spirit of the following claims.
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Number | Date | Country | |
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20070278837 A1 | Dec 2007 | US |