The present invention relates generally to convertible furniture and, more particularly, relates to a convertible bed having wood dependent movements.
Convertible furniture has previously been provided as an expedient for saving floor space. For example, the well-known sofa bed provides a sofa in one mode and a bed frame and mattress in another mode. Other arrangements have been suggested to provide combination bed and table or desk furniture. For example, U.S. Pat. No. 4,070,715, issued to Reppas and the disclosure of which is incorporated herein, teaches a combination bed and desk furniture piece in which a bed frame and desk are mounted on a base for conjoint movement between raised and lowered positions. In the raised position, the bed frame is pivoted upright where its bedding is concealed from view and at the same time, the desk is elevated to a standard height above the floor. In the lowered position, the bed frame is pivoted to a horizontal orientation spaced above the top of the desk to provide clearance for small articles left on the desk surface. In this lowered position, the bed frame is lowered to standard bed height above the floor, which is lower than the desk. Means are provided for simultaneously moving the bed frame and desk between the raised and lowered positions without altering the horizontal alignment of the desk and its drawers with respect to the floor. This combination bed and desk furniture piece is particularly well suited for applications requiring efficient use of a space while providing a generally flat work surface.
In general, torsion systems are used with convertible furniture to store potential energy as the furniture components are lowered or stowed. The amount of potential energy stored in a torsion bar is a function of torsional stress. Torsional stress is defined by the amount of twist per unit length of the bar. These torsion systems are selected based on the weight of the unit, in this case the bed structure and/or desk assembly, to be lifted. Previous convertible furniture required that the torsion system solely supply the actuation and/or lifting energy to at least partially raise the bed structure. However, it should be appreciated that these torsion systems have a limited lifting capacity and, thus, it is advantageous to assist the torsion system by counter balancing the weight to be lifted so as to increase the lifting capacity of the system. Accordingly, with this increased lifting capacity, the size and/or number of torsion bars required may be reduced, which reduces the overall cost of the convertible furniture.
Thus, a need has been recognized for convertible furniture that is capable of minimizing the weight to be lifted and/or lifting capacity of the torsion system thereby permitting more elaborate furniture to be constructed without increasing the size of the torsion system. Accordingly, a first embodiment of the present invention provides convertible furniture that employs a slidable panel system capable of at least in part counterbalancing the weight of the bed structure. This arrangement reduces the overall weight the torsion system must lift.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiments is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.
Referring now to
Still referring to
As best seen in
Table assembly 16 of furniture piece 10 is oriented such that its longitudinal axis extends generally perpendicular to pivot axis A. Similarly, bed frame 14 of furniture piece 10 is oriented such that its longitudinal axis extends generally perpendicular to pivot axis A. This arrangement enables the length of table assembly 16 to be maximized due to the length of bed frame 14.
Table assembly 16 includes a generally flat, horizontally disposed desktop or tabletop 30, which provides a continuous writing or serving surface. Table assembly 16 further includes a leg member 32 fixedly mounted and downwardly extending from tabletop 30.
Furniture piece 10 further includes a self-standing support 34 pivotally interconnected between an outrigger support member 36 and leg member 32 of table assembly 16. Self-standing support 34 facilitates the raising and lowering of table assembly 16. Specifically, self-standing support 34 is pivotally coupled at one end to outrigger support member 36 at pivot 38 and pivotally coupled at the other end to leg member 32 of table assembly 16 at pivot 40. Outrigger support member 36 is fixed mounted to furniture frame assembly 12 and forms part of furniture frame assembly 12.
As best seen in
Bed frame 14, table assembly 16, self-standing support 34, outrigger support member 36, and furniture frame assembly 12 define a parallelogram linkage geometry that maintains a horizontal attitude of table assembly 16 as furniture piece 10 is converted between a bed mode and a table mode. More specifically, the parallelogram linkage geometry is defined by a first pair of linkages 200 (schematically illustrated in phantom in
As best seen in
Counterbalance panel 52 is provided as a counterbalancing weight to offset the weight of bed frame 14 and bedding 26 pivoting about axis A—A. In other words, as bed frame 14 is lowered from the table mode to the bed mode, counterbalance panel 52 is forced upward, thereby storing potential energy in the form of an elevated member. As bed frame 14 is raised from the bed mode to the table mode, the potential energy stored in raising counterbalance panel 52 is now released to help raise bed frame 14. In this regard, counterbalance panel 52 aids torsion system 50 in the raising of bed frame 14 and, thus, minimizes the amount of work required by torsion system 50. By minimizing the amount of work required by torsion system 50 it is possible to minimize the lifting capacity and size of torsion system 50, thereby increasing the useable size of bed frame 14 (or sofa or desk assembly) and/or reducing the cost associated therewith.
It should be understood that counterbalance panel 52 also functions as a simple and convenient headboard for concealing the wall and any associated furniture structure located there behind. However, in an attempt to facilitate simple and convenient access to the back of convertible furniture piece 10 for maintenance and/or repair, it is preferable that guide pins 62 be retractable or at least disengagable from corresponding guide channel 56. In this regard, counterbalance panel 52 may be pivoted forward onto bed frame 14 to expose the back portion of convertible furniture piece 10 without the need to move convertible furniture piece 10 away from the wall.
In operation, furniture piece 10 is converted from the table mode to the bed mode according to the following operation (
Referring now to
The description of the invention is merely exemplary in nature and, thus, variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
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