B. COHEN LOCKING MECHANISM FOR FOLDABLE TABLES Feb. 13, 1968 3 Sheets-Sheet 1 Filed June 28, 196'? INVENTOR BORIS COHEN ATTORNEYS.
Feb. 13, 1968 B. COHEN LOCKING MECHANISM FOR FOLDABLE TABLES Filed Jfine 28, 1967 3 Sheets-Sheet 2 INVENTOR ao/ws connv er W {a a ATTORNEYS.
Feb. 13, 1968 B- COHEN LOCKING MECHANISM FOR FOLDABLE TABLES 3 Sheets-Sheet 5 Filed June 28, 1967 //v VENTOR BORIS COHEN A rromvsys.
United States Patent 3,368,504 LQCKING MECHANISM FOR FOLDABLE TABLES Boris Cohen, Merion Station, Pa., assignor to All- Luminum Products, Inc., Philadelphia, Pa., a corporation of Pennsylvania Filed June 28, 1967, Ser. No. 649,531 6 Claims. (Cl. 108-131) ABSTRACT OF THE DISCLOSURE An automatic locking mechanism for foldable tables having shiftable interengaging bracing members, comprising a latch member on one of the bracing members, an abutment member on the other of the bracing members, and a longitudinally extending flange on one of the bracing members overlying the other bracing member. The locking member and abutment prevent axial movement of the bracing members, and the flange maintains the bracing members in coplanlar relation.
This invention relates to locking mechanisms for folding tables, and more particularly, to locking mechanisms for automatically maintaining foldable tables in assembled table forming disposition.
Numerous types of folding tables are known to the prior art. Notable among these is the one disclosed in Patent 2,542,394, issued to Cohen et al., which is a foldable table having a pair of hinged top sections and supporting legs pivotably coupled to shiftable interengaging bracing elements. With the top sections in table-forming disposition, rotation of the legs to their supporting position serves to shift the bracing elements into inter-engaged position, whereby the bracing elements rigidify the structure and maintain the top sections in coplanar relationship.
The present invention is a novel and improved form of a locking mechanism whereby the legs of a foldable table of the type disclosed in Patent 2,542,394 may be automatically maintained in their supporting position, and the top sections rigidly maintained in coplanar relationship. The present invention contemplates an automatic locking mechanism directly interconnecting the bracing elements when the table is unfolded.
Accordingly, it is an object of the present invention to provide a novel automatic locking mechanism for folding tables of the type having shiftable interengaging bracing elements.
It is another object of the present invention to provide an automatic locking mechanism which provides a direct connection between shiftable bracing elements, each of which is associated with one of a pair of hingedly coupled table-top forming sections.
It is another object of this invention to provide a locking mechanism automatically operative upon unfolding of a foldable table, and easily released for folding.
It is yet another object of this invention to provide an automatic locking mechanism requiring an absolute minimum of moving parts.
It is still another object of the present invention to provide an automatic locking mechanism which serves to further rigidify foldable table structure with which it is used.
Other objects will appear hereinafter.
Locking mechanisms for foldable tables have heretofore been proposed, as for example, in Patent 2,643,926 to Pucci. The present invention provides a simpler, less expensive and more desirable construction by providing a direct and automatically engageable locking connection between the shiftable interengaging bracing members. Rigid interconnection of the bracing members, which extend across the axis about which the top sections fold,
3,3685% Patented Feb. 13, 1968 provides an extremely rigid construction, not likely to be aifected by inadvertent impact, but nevertheless easily manipulated when folding is desired.
For the purpose of illustrating the invention, there is shown in the drawings a form which is presently preferred; it being understood, however, that this invention is not limited to the precise arrangements and instrumentalities shown.
FIGURE 1 is a perspective view showing a table in accordance with the present invention in its open position.
FIGURE 2 is a perspective view showing the underside of the table when the table is in its open position.
FIGURE 3 is a perspective view of the table in its folded position.
FIGURE 4 is a longitudinal sectional view taken along theline 44 in FIGURE 1.
FIGURE 5 is a view similar to FIGURE 4 showing the legs in partially folded condition.
FIGURE 6 is a partial sectional view taken along theline 66 in FIGURE 4.
FIGURE 7 is a partial sectional view taken along the line 77 in FIGURE 4.
FIGURE 8 is a partial sectional view taken along theline 88 in FIGURE 4.
FIGURE 9 is a partial sectional view taken along the line 99 in FIGURE 4.
FIGURE 10 is a partial sectinoal view showing details of the automatic locking mechanism of the present invention.
FIGURE 11 is a sectional view taken along the line 11-11 in FIGURE 10.
FIGURE 12 is a perspective view showing details of the interengaging ends of the shiftable bracing members which form a part of the present invention.
Referring now to the drawings in detail, wherein like numerals indicate like elements, there is seen in FIGURE 1 a foldable table designated generally by thenumeral 10. The table 10 has a planar top, formed by identicaltop members 12. Thetop members 12 are joined at an adjacent edge portion byhinges 14 and 16, best seen in FIG- URE 2. Thetop members 12 are preferably formed of lightweight sheet metal. A down-turnedflange 18 extends around the edge portions of thetop members 12, and includes a furtherfree edge portion 20, disposed in a direction generally parallel to the plane defined by thetop members 12. The down-turned flanges 1S andfree edge portions 20 define peripheral channels on the edges of thetop members 12. Such channels serve to rigidify and strengthen the table, and form an important part of the mechanism facilitating folding of the table, as will shortly become apparent.
When the foldable table 10 is in its open position, thetop members 12 are in coplanar edge-to-edge relation. Thehinges 14 and 16 provide a common folding axis parallel to the abutting edges of thetop members 12. Theflanges 18 of the abutting edges of thetop members 12 are cut away, as indicated at 22 and 24, so that the channels at the sides of thetop members 12 are unobstructed for the full length of the table.
Each of thetop members 12 is provided with aleg member 26, which may be of generally U-shaped configuration. The outer ends of theleg members 26 are pivotably attached to bracing members 28' and 3G, for example, bypivots 32 and 34. Thepivots 32 and 34 are at outer ends of therespective bracing members 28 and 30.
Thebracing members 28 and 30 may be channelshaped sheet metal members, and have exterior dimensions to provide a snug sliding fit in the channels defined by the down-turnedflanges 18 andfree edge portions 20 of thetop members 12. Thus, thebracing members 23 and 30 are longitudinally shiftable along the channels.
3 As seen in FIGURE 2, thebracing member 28 is somewhat shorter in longitudinal dimension than thebracing member 30.Bracing members 28 and 30 are provided on both sides of the table.
Referring now to FIGURES 2 and 4, it is seen that thebracing members 28 and 30 includeelongated slots 36 and 38 in the portions thereof adjacent thedownturned flanges 18.Pivot pins 40 and 42, secured to the down-turnedflanges 18, extend through theelongated slots 36 and 38. As is best seen in FIGURE 8, bearingwashers 44 may be provided on thepivot pins 40 and 42 for engagement with the edges of theslots 36 and 38. Thus, thepivot pins 40 and 42 extend through theelongated slots 36 and 38, but do not interfere with shifting of thebracing members 28 and 30.Links 46 and 48 are pivoted at one end to thepivot pins 40 and 42, and at their other ends to theleg members 26, for example, atpivots 50 and 52 spaced from thepivots 32 and 34.Retainer washers 54 may be provided between thelinks 46 and 48 and thebracing members 28 and 30, thereby further enhancing relative movement of the parts.
Referring to FIGURE 5, the manner in whichlegs 26 move to their folded positions should now be apparent. Referring to theleg 26 at the right-hand side of the figure, folding is initiated by rotation of the legs in the direction indicated by the arrow A. Such rotation occurs about thepivot 52. Thepivot 52, however, itself rotates in the direction B, about thepivot 42. Thebracing member 30, therefore shifts to the right in the figure, theslot 36 permitting longitudinal movement with respect to thepivot pin 42. Upon completion of rotation, thelegs 26 are positioned betweenopposite flanges 18. Theflanges 18 have a vertical dimension suflicient to fully enclose the legs and associated structure when the table is closed, as in FIG- URE 3. The table may be provided with ahandle 49 for ease of carrying.
There are seen in FIGURES 9 to 12 details of structure constituting the applicants novel automatic locking mechanism. Referring first to FIGURE 12, the bracingmember 28 includes aforward tip 58 of reduced vertical dimension. Theforward tip 58 of the bracingmember 28 may be received in nesting relation within the channel defined by the forward end of the bracingmember 30. The bracing members, it should be understood, includeperipheral flanges 60 and 62 extending generally at right angles to the vertical dimensions of the bracing members. Theperipheral flange 62 of the bracingmember 30 is provided with a down-turned longitudinally extendingfree edge portion 64. Thefree edge portion 64 overlies afinished edge portion 65 of theflange 60 of the bracingmember 28 when the bracing members are in their nested position, and serves to maintain the bracing members in generally coaxial nested relation.
Referring to FIGURE 10, there is seen alatch member 66, pivotably coupled to the bracingmember 30 by apivot pin 68, secured toupstanding bracket 70. Thelatch member 66 is provided with an anchor member 72, and the bracingmember 28 with asimilar anchor member 74. Acompression spring 76 has its opposite ends disposed on theanchor members 72 and 74, and serves to bias the latch member to a locking position. Thelatch member 66 includes apressure applying surface 78, whereby pressure may be applied to rotate the latch member against the bias of thespring 76 for a purpose to be explained hereinafter. The latchingmember 66 also includes a lockingtooth 79 including a locking surface 80 and abeveled cam surface 82 adjacent the locking surface 80. The forward tip of theperipheral flange 60 of the bracingmember 28 provides an abutment, engageable with the locking surface 80 to prevent relative longitudinal shifting of the bracingmembers 28 and 30.
It should now be apparent that thespring 76 serves to bias the latch member into a position wherein the locking surface 80 contacts the tip of theperipheral flange 60. It should also be apparent that upon unfolding of theleg members 26, initial contact between the tip of theperipheral flange 60 and thecam surface 82 is effective to momentarily rotate thelatch member 66 against the bias of thespring 76, thereby permitting thetooth 79 to ride over the tip of theperipheral flange 60. Immediately thereafter, thespring 76 causes thelatch member 66 to rotate to a position wherein the locking surface 80 engages the rear surface of the tip of theperipheral flange 60. Such engagement prevents separation of the bracingmembers 28 and 30 until such time as pressure is intentionally applied to thepressure applying surface 78 to rotate thetooth 79 away from theperipheral flange 60.
If desired, the bracingmembers 28 and 30 may be provided with spring projected bullet locks 86 as a backup against inadvertent collapsing of the table. The bullet locks 86 best seen in FIGURE 7, includeprojections 88 for engagement with openings 90 in the down-turnedflanges 18. It has been found, however, that satisfactory performance can be had without the use of the bullet locks 86.
As is apparent from FIGURES 2, 4 and 5, unfolding of theleg members 26 is effective to project the bracingmember 28 across the folding axis defined by thehinges 14 and 16. The down-turnedfree edge portion 64, in contact with thefinished edge portion 65 of the bracingmember 28, and thelatch 66 in contact with theflange 60 unite the bracingmembers 28 and 30 to form in effect a single highly rigid structural member, extending across the hinge line. Thus, the novel automatic lock effectively precludes rotation about thehinges 14 and 16. Moreover, the novel lock may be readily disengaged by the application of pressure on thepressure applying surface 78, but due to the protected location of thelatch 66, best seen in FIGURE 11, cannot be inadvertently released by impact or snagging.
The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof and, accordingly, reference should be made to the appended claims, rather than to the foregoing specification as indicating the scope of the invention.
I claim:
1. In a foldable table having at least one pair of longitudinally shiftable interengaging bracing members underlying and supporting a pair of hingedly connected top members, one of said bracing members having a forward tip of reduced vertical dimension adapted to be received in nesting relation with the forward end of the other of said bracing members; manually releasable means for automatically locking said bracing members in interengaged top bracing position, said locking means comprising a latch member on one of said bracing members, an abutment on the other of said bracing members for engagement with said latch member, and a longitudinally extending flange on the other of said bracing members overlying a portion of the forward tip of said one bracing member for returning said one bracing member in generally coaxial nesting relation with said other bracing member.
2. In a foldable table in accordance with claim 1, said forward tip including an upstanding peripheral flange, said abutment comprising a portion of said upstanding flange, said longitudinally extending flange overlying a further portion of said upstanding flange when said bracing members are in top-bracing position.
3. In a foldable table in accordance with claim 1, said further portion of said upstanding flange comprising a finished surface for engagement with said longitudinally extending flange when said bracing members are in topbracing position.
4. In a foldable table in accordance with claim 3, said manually releasable means comprising a pivotable latch member, a locking surface on said latch member for engaging said upstanding flange, and spring means coupled to said latch member normally urging said latch member to a locking position.
5. In a foldable table in accordance with claim 4, said latch member including a cam surface for initial engagement with said upstanding flange, said cam surface being adjacent said locking surface so that shifting of said bracing members toward the top-bracing position causes automatic engagement of said locking surface and said upstanding flange. I
6. In a foldable table in accordance with claim 4, said latch member including a pressure applying surface whereby said latch member may be rotated to release said locking surface from said upstanding flange, and said bracing members being of channel-shaped cross-section, said latch member being disposed within said channel.
References Cited UNITED STATES PATENTS Arnt 108131 Birdsall 10836 Howe 10836 Cohen et a1. 108-36 Hoffmann 108-36 Pucci 108131 Lencioni 108-36 CASMIR A. NUNBERG, Primary Examiner. GLENN O. FINCH, Assistant Examiner.