The present invention relates to mobile folding tables. More particularly, it relates to mobile folding tables with attached seating having lift-assist and stabilizer mechanisms.
Mobile folding tables with attached seating are useful in school cafeterias and other institutional settings, as they have the potential to be versatile and allow for fast setup and removal, as well as being compact when folded for convenient storage. However, existing folding tables typically have heavy table tops and are therefore difficult to lift from an unfolded, use position to a folded storage position. Moreover, in existing folding tables with attached bench seating, the benches tend to be unstable and may freely tilt from side to side when in the folded position, thus creating an awkward and potentially unsafe condition.
A need therefore exists for a mobile folding table with attached bench seating that is both stable when folded and easy to open and close.
In accordance with one aspect of the present invention, a mobile folding table is provided with an improved mechanism for assisted transition between an open position and a closed position. The table includes a first table section hingedly connected to a second table section to permit folding and unfolding the table about a substantially horizontal hinge axis between an open position and a closed position, wherein said first and second table sections are substantially horizontal in the open position, and wherein said first and second table sections are substantially vertical in the closed position. Assistance in lifting the table into a folded storage position is provided by a high-speed cylinder assembly having a piston and a cylinder slidably connected to the piston for movement of the piston and cylinder between fully contracted and fully extended positions. The cylinder assembly is oriented vertically so that one of the piston and cylinder is a top member, and the other is a bottom member.
In one embodiment, the top member of the high-speed cylinder assembly has a top end attached to the table proximate to the hinge axis. A linkage assembly is provided including a first side link having a top end rotatably connected to the first table section about a first side axis substantially parallel to the hinge axis, a second side link having a top end rotatably connected to the second table section about a second side axis substantially parallel to the hinge axis, and a base fixedly connected to a bottom end of the bottom member of the cylinder assembly, wherein the first and second side links each have a bottom end rotatably connected to the base about a bottom axis substantially parallel to the hinge axis, and wherein the base is located substantially vertically below the hinge axis. The cylinder assembly contains compressed fluid adapted to produce a force tending to move its members apart from each other to extend the assembly toward the fully extended position, and extending the assembly causes the table sections to fold together toward the closed position. Unlike typical cylinder assemblies employed in mobile folding tables, the cylinder assembly of the invention produces substantially no force to oppose rapid extension of the assembly, thus making the table of the invention easier to open.
In another embodiment, a table according to the invention comprises a first bench and a first bench leg, the first bench being configured for rotational movement to remain generally parallel to the first table section as the table is folded between the open and closed positions, the first bench being hingedly and slidably connected to a top end of the first bench leg. To maintain stability of the first bench when the table is being folded or moved, a bottom end of the first bench leg is fixedly attached to the base. In this manner, the first bench leg is kept substantially upright at all times, and the first bench is prevented from tipping from side to side. Preferably, the table further comprises a second bench and a second bench leg, the second bench being configured for rotational movement to remain generally parallel to the second table section as the table is folded between the open and closed positions, the second bench being hingedly and slidably connected to a top end of the second bench leg. A bottom end of the second bench leg is also fixedly attached to the base, to stabilize the second bench in a manner similar to the first bench. More benches and bench legs stabilized in a similar manner may also be included. For example, in the illustrated embodiment, two benches are provided alongside each table top half, each bench being supported by a center bench leg fixedly attached to the base and hingedly and slidably attached to the bench.
A mobile folding table that is stable in the folded position and easy to open and close is described in this section. With reference to
The linkages and mechanics enabling table 10 to be folded will now be described, with reference to
In this manner, four center bench legs 50, which are fixedly attached to center leg structure 36 as shown in
In addition to the stabilizing linkage for bench center legs 50 just described, another advantage provided by the present invention is an improved gas cylinder assembly for assisting with the lifting the center of table 10 into its folded storage position. In particular, existing folding tables typically employ gas cylinders adapted to exert both spring forces and stabilizing forces that resist rapid extension of the cylinders. Such stabilizing forces are desired in some applications, such as in opening the door of a car trunk, which might otherwise swing open dangerously quickly. However, the present inventors have found that a gas cylinder adapted to exert a spring force and substantially no force to resist rapid extension is appropriate for use in folding tables according to the invention, which are sufficiently heavy so that an additional internal force is not needed to prevent the spring force of a typical gas cylinder from folding the table at a dangerous speed. By eliminating resistance to rapid extension in the gas cylinders used, tables according to the present invention are made significantly easier to fold than tables employing typical gas cylinders of comparable capacity. Gas cylinders according to the present invention that do not resist rapid extension are conveniently termed “high-speed cylinder” assemblies.
As shown in
Table 10 also preferably includes a suitable locking mechanism which may be engaged to lock the linkages of at least one of frame center portion 22 and frame end portions 24 and 26 when table 10 is in its unfolded use position, thus preventing undesired folding of table 10 by the lift-assisting force provided by the high-speed cylinder. In the illustrated embodiment, for example, a locking mechanism 60 includes a locking bar 62, pivotally mounted with respect to table top half 14, that may be engaged between notches 64 and 66 of hinge plates 68 and 70, respectively, to lock table 10 is in its unfolded use position. The components of locking mechanism 60 are best seen in
Additionally, it should be noted that a high-speed cylinder may be employed in conjunction with other typical means for assisting a human user in folding a table according to the invention. For example, although not shown in the figures, one or more torsion bars, springs, or other suitable force-providing mechanism associated with the end portions and/or the center portion of the table may be advantageously included.
While the invention has been described with respect to certain preferred embodiments, as will be appreciated by those skilled in the art, it is to be understood that the invention is capable of numerous changes, modifications and rearrangements, and such changes, modifications and rearrangements are intended to be covered by the following claims.