The present invention relates to folding furniture and, more specifically, to a counterbalancing assembly for an article of folding furniture.
Various forms of folding furniture are well-known in the prior art and are commonly used where available space within the area of use is limited. Such folding furniture is provided with a rotation system that allows for the rotation of a frame supporting cushion/mattress components (which may collectively be referred to as a “user-contacting portion”) or other furniture component (e.g., a table) between a storage position and a use position. Typically, the storage position is substantially upright (or vertical), and the user-contacting portion or other furniture component is housed in a decorative cabinet in this storage position. The use position is substantially horizontal, allowing the user to sit or lie on the cushion/mattress components held by the supporting frame, or allowing the user to otherwise use the furniture component. Because the combined weight of the elements that make up the user-contacting portion or other furniture component can be considerable, counterbalancing mechanisms are frequently employed that allow an individual to easily raise the user-contacting portion or other furniture component to the substantially upright storage position.
Various counterbalancing mechanisms have been developed for such folding furniture, including spring systems, counterbalancing hinges, and piston-based arrangements. Piston-based arrangements have proven to be especially effective in heavier applications, such as the counterbalancing of the weight of a wall bed, which includes the weight of the frame and the mattress (and possibly box springs). Examples of such piston-based arrangements are described in U.S. Pat. Nos. 5,033,134; 5,978,988; and 8,006,327, each of which is assigned to the assignee of the present application and is incorporated herein by reference. As described in U.S. Pat. Nos. 5,033,134; 5,978,988; and 8,006,327, two gas-filled counterbalance pistons, which provide an appropriate resistive force to the gravitational force acting on the frame and mattress, are secured to the inside surfaces of a wall-mounted cabinet (housing the frame and mattress in the substantially upright storage position) and to the sides of the frame. The pistons are biased to resist, i.e., counterbalance, the downward force of gravity acting on the frame and mattress, thus assisting in both the lowering of the frame and mattress to the use position and the lifting/returning of the frame and mattress to the substantially upright storage position.
U.S. Pat. No. 5,978,988 also describes the problem of variances in the weight of the user-contacting portion or other furniture component. To properly counterbalance the weight of the user-contacting portion or other furniture component, the pistons must be carefully selected, and the mounting locations for the piston ends must also be carefully selected. Variances in the weight complicate the selection of the pistons and the mounting locations. For example, with respect to a wall bed, the substitution of a particle board material for lighter board material for the frame is likely to require the use of heavier pistons with greater resistive counterbalancing force and/or change in the mounting locations. Such changes of the pistons and/or mounting locations can be both time-consuming and expensive, and may prove impractical to the end user who innocently changes the component weight.
U.S. Pat. No. 5,978,988 describes one solution to the problem of variances in the weight. Specifically, U.S. Pat. No. 5,978,988 describes a folding furniture apparatus with a counterbalancing system that creates one of a selected value of torques about a pivot axis to bias the user-contacting portion or other furniture component to the substantially upright storage position. The folding furniture apparatus thus includes at least one upper mounting bracket mounted to a support assembly (such as a wall-mounted cabinet) and a lower bracket mounted to the user-contacting portion or other furniture component, each of these brackets having a plurality of corresponding mounting points. The counterbalancing piston is pivotally secured to and extends from a selected mounting point on the lower bracket to an associated mounting point on the upper bracket. The lower mounting points and associated upper mounting points are preselected to provide the necessary counterbalancing (torque) for a certain weight of the user-contacting portion or other furniture component without requiring the use of a different piston or relocation of the mounting hardware. In other words, a user can move the piston and mount it to a different pair of mounting points to vary the counterbalancing torque that is applied to the user-contacting portion or other furniture component. However, this does require the disconnecting and reconnecting of each piston to both of the mounting brackets.
The present invention is a counterbalancing assembly for an article of folding furniture.
In an article of folding furniture, a furniture component can be rotated relative to a support assembly between a substantially upright storage position and a substantially horizontal use position about a pivot axis. A counterbalancing assembly then includes two gas-filled pistons secured to the inside surfaces of the support assembly and to the furniture component. The pistons are biased to resist the downward force of gravity acting on the furniture component and any supported cushion/mattress components, thus assisting in both the lowering of the furniture component and any supported cushion/mattress components to the use position and the lifting/returning of the furniture component and any supported cushion/mattress components to the substantially upright storage position.
The lower end and/or the upper end of each piston is fixed to a respective mounting bracket that allows for adjustment of the torque that biases the furniture component and any supported cushion/mattress components to the substantially upright storage position, but without requiring the use of a different piston, relocation of the mounting hardware, or even disconnecting and reconnecting the piston to one or both of the mounting brackets.
In some exemplary embodiments, an upper mounting bracket is secured to the support assembly, such as the cabinet of a wall bed. The upper mounting bracket includes a channel mounted on the surface of the plate, which defines an internal cavity. A worm gear is received in this internal cavity and is mounted for rotation with respect to the channel. A mounting element is threaded onto the worm gear. The mounting element has a lower portion that includes a threaded hole therethrough for receiving the worm gear. The mounting element also includes an intermediate portion that fits through and engages a slot defined through the surface of the channel. Finally, the mounting element includes an upper ball portion that extends away from the channel and is adapted to engage a complementary ball-receiving opening or similar fitting defined by an end of one of the pistons. By rotating the worm gear, and as a result of the engagement of the intermediate portion of the mounting element with the slot defined through the surface of the channel, the mounting element is moved along the length of the slot.
In some exemplary embodiments, a lower mounting bracket is secured to the furniture component, such as the frame of a wall bed. The lower mounting bracket includes a channel mounted on the surface of the plate, which defines an internal cavity. A worm gear is received in this internal cavity and is mounted for rotation with respect to the channel. A mounting element is threaded onto the worm gear. In this regard, the mounting element is the same as the one described above for use with the upper mounting bracket. Thus, in use, by rotating the worm gear, and as a result of the engagement of the intermediate portion of the mounting element with the slot defined through the surface of the channel, the mounting element is moved along the length of the slot.
In some exemplary embodiments, only one of the lower mounting bracket and the upper mounting bracket includes a worm gear for adjustment of the mounting element. For instance, in one exemplary embodiment, the lower mounting bracket includes a worm gear, while the upper mounting bracket defines multiple holes, each configured to receive a mounting element. In other embodiments, it is contemplated that adjustment may be effectuated only at one end of each piston.
As a result of the use of the upper mounting bracket and/or the lower mounting bracket, a user can readily adjust the torque that biases the furniture component to the substantially upright storage position, but without requiring the use of a different piston, relocation of the mounting hardware, or even disconnecting and reconnecting the piston to one or both of the mounting brackets.
The present invention is a counterbalancing assembly for an article of folding furniture.
Referring now to
The counterbalancing assembly then includes two gas-filled pistons (one of which is visible in
In accordance with the teachings of the present invention, however, the lower end and/or the upper end of each piston is fixed to a respective mounting bracket that allows for adjustment of the torque that biases the frame and any supported cushion/mattress components to the substantially upright storage position, but without requiring the use of a different piston, relocation of the mounting hardware, or even disconnecting and reconnecting the piston to one or both of the mounting brackets.
Referring still to
Referring again to
Referring still to
Referring again to
As a result of the use of the upper mounting bracket 60 and the lower mounting bracket 80, a user can readily adjust the torque that biases the frame 20 and any supported cushion/mattress components (or another furniture component) to the substantially upright storage position, but without requiring the use of a different piston, relocation of the mounting hardware, or even disconnecting and reconnecting the piston to the respective mounting brackets 60, 80.
As also shown in
The counterbalancing assembly then includes two gas-filled pistons (one of which is visible in
In accordance with the teachings of the present invention, however, the lower end and/or the upper end of each piston is again fixed to a respective mounting bracket that allows for adjustment of the torque that biases the frame and any supported cushion/mattress components to the substantially upright storage position, but without requiring the use of a different piston, relocation of the mounting hardware, or even disconnecting and reconnecting the piston to at least one of the mounting brackets.
Referring now to
Referring now to
In use, by rotating the worm gear 188 (in this example, by rotating the nut 189), and as a result of the engagement of the mounting element 70 with the slot 187 defined through the surface of the channel 186, the mounting element 70 is moved along the length of the slot 187.
Referring still to
Referring now to
Referring now to
As a result of the use of the upper mounting bracket 160 and the lower mounting bracket 180, a user can readily adjust the torque that biases the frame 120 and any supported cushion/mattress components (or another furniture component) to the substantially upright storage position, but without requiring the use of a different piston or relocation of the mounting hardware.
In this regard, as a further refinement, numbers or other visual indicia can be placed on the respective mounting brackets 160, 180 in order to provide an indication of the position of the mounting elements 70, 170. For instance, as shown in
Thus, as reflected in Table A, for a queen bed that is stored in a vertical position (as shown in
Finally, as should be clear from the foregoing discussion, in some embodiments, it is contemplated that adjustment may be effectuated only at one end of each piston. In other words, it is not always necessary to have an adjustment means at both end of each piston.
One of ordinary skill in the art will recognize that additional embodiments or implementations are possible without departing from the teachings of the present invention or the scope of the claims which follow. This detailed description, and particularly the specific details of the exemplary embodiments and implementations disclosed herein, is given primarily for clarity of understanding, and no unnecessary limitations are to be understood therefrom, for modifications will become obvious to those skilled in the art upon reading this disclosure and may be made without departing from the spirit or scope of the claimed invention.
The present application is a continuation in-part of U.S. patent application Ser. No. 13/961,623 filed on Aug. 7, 2013, which claims priority to U.S. Provisional Patent Application Ser. No. 61/823,030 filed on May 14, 2013, the entire disclosure of which is incorporated herein by reference.
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Number | Date | Country | |
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61823030 | May 2013 | US |
Number | Date | Country | |
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Parent | 13961623 | Aug 2013 | US |
Child | 14463913 | US |