AU656579B2 - Folding display frame - Google Patents

Abstract

A collapsible framework constructed of rods pivotally joined at their ends to hubs to form a self-standing unit when expanded and to fold into a small set of nearly parallel rods when folded. The hubs are designed to pivotally join the ends of four rods, with the plane defined by the pivot axes of one pair of opposing rods being offset from the plane defined by the pivot axes of the other pair of opposed rods attached to the same hub. A stab-connection latch locks two hubs together and secures the framework in the expanded position. Folding channel bars are attached to knobs on vertically aligned hubs by key-slots, the key-slots of one channel bar being of progressively shorter length going from the top-most to the bottom-most of the vertically aligned hubs to which the bar is attached. <IMAGE>

Description

656579 1-

AUSTRALIA

Patents Act 1990 WILLIAM JOHN WICHMAN

ORIGINAL

COMPLETE SPECIFICATION STANDARD PATENT o r u r o r, rrrr r.r s Invention Title: "FOLDING DISPLAY FRAME" So (Ccc C (C The following statement is a full description of this invention including the best method of performing it known to us:- *-la- Field of the Invention V This invention relates to folding display frames, and more particularly, is concerned with a hub design for interconnecting pivotally joined rods into a frame.

Background of the Invention Three-dimensional frameworks are well known in which a plurality of rod members are pivotally connected together to permit folding the framework into a compact closed form in which the rod members lie substantially parallel to each other. Such folding frameworks have been used for racks to support covers, panels, and the like, some in dome-shaped enclosures, in flat or curved display units, and in other types of rigid structures. Except where the framework is assembled in a substantially permanent structure, the rod members are pivotally joined at their ends to some type of hub so that the rods can be rotated relative to each other as the framework is adjusted between its open extended configuration and its i "closed compact storage configuration.

20 Examples of such prior art folding frameworks are found in U.S. patents 4,471,548, 4,479,340, 4,512,097, 4,580,375 and 4,276,726.

S" One of the objectives of designing such frameworks is to make the structure light and compact in its folded condition to enhance the transportation and storage when 0 0 -i- M "1 -2the framework is not in use. At the same time, the framework, when fully extended into its useful configuration, must be strong and fairly rigid. The framework must not only be strong enough to give adequate support, but must withstand abuse, particularly when being folded and erected.

Large diameter thin-walled metal tubes normally provide maximum strength-to-weight ratios. However, the hubs to which such tubes are pivotally joined must be made light and compact to reduce the space required by the hubs when they are brought together in the collapsed configuration of the framework. In the past, attempts to utilize small hubs and thin, solid rods have resulted in a relatively fragile structure whereas use of larger diameter tubular rods have resulted in bulkier and heavier hubs.

Summary of the Invention The present invention is directed to an improved framework design incorporating a unique hub that permits S 20 larger diameter thin-walled tubes to be pivotally connected in a strong, rigid joint. At the same time, the hub is very compact and light weight. An added advantage of the present hub design.is that it allows rod members of unequal length to be incorporated into the framework's array so that the height of the array may be, for example, less than the width while still permitting the structure to be folded effectively.

S the present invention, in its expanded or open e, c 1 30 consists of a grid of horizontal and ver rod members forming an array of cubicles, eac icle having a top, bottom and two-side frame ons, each frame section consisting of two ro r tubes pivotally joined to each other midway een their ends. The rods terminate at each e n pivotally attached hubs. Adjacent cubicles in S -a icr t N. Ici

Y-

ii: C: 'i i- -i 4.

3 The present invention provides a collapsible display framework having hub assemblies for pivotally holding the ends of a plurality of rods joined together to form an expanded orientation of a self-standing display framework, in which the display framework is a three-dimensional grid of horizontal and vertical rods forming an array of cubicles in which the rods are pivotally joined at a distance from their ends, and in which the spaced apart hub assemblies are aligned vertically in rows along the face of the self-standing display framework, characterized by one or more hinged folding bar units to which display devices can be attached for covering a face of the expanded self-standing display frame, the folding bar unit comprising a plurality of elongated rigid bar sections hinged together end-to-end to fold as a unit to a compact size and to unfold into an expanded configuration in which the hinged bar sections are aligned end-to-end as a .o.6 continuous hinged bar, and attachment means spaced apart on the bar sections and arranged thereon for releasably fastening the bar sections as a unit to corresponding aligned hub assemblies on the expanded display framework .go so that the continuous hinged bar unit can hang on the front face of the expanded frame to provide a means for attaching the display devices.

VT 000 00 0 00 0 0 0 .2.

r)VrtoIf 1+ C b -4- 1 Brief Description of the Drawings For a better understanding of the invention reference should be made to the accompanying drawings wherein: FIG. 1 is an elevational view of the frame in expanded position; FIG. 2 is a top view of .the expanded frame; FIG. 3 is a top view of a frame hub; FIG. 4 is a side view of a frame hub; FIG. 5 is a front view of a frame hub; FIG. 6 is a partial view in perspective showing the frame latching mechanism; FIG. 7 is a detailed partial view of the frame in a nearly collapsed position; FIG. 8 is similar to FIG. 7 but showing an alternate construction; FIG. 9 shows the frame in the folded or collapsed position; FIG. 10 is a detailed plan view of a folding channel bar; and FIG. 11 shows the channel bar in its folded condition.

e r «e* *t 1 t o c k« ee ei b .t tFt t

I

-l Referring to FIG. 1 in detail, the numeral 10 indicates generally a folding framework shown in its open or expanded position. The framework is constructed of a plurality of pairs of rods, in the form of thin-walled metal tubes, such as indicated at' 12 and 14, the rods of each pair being pivotally joined together by a hinge pin 16. The hinge pins 16 are located between the ends of the rods, allowing the rods to swivel with respect to each other in scissors-like fashion. These rod pairs are joined to form a grid-like framework, with the multiple pairs of rods being arranged in vertical columns and horizontal rows.

The ends of the rods are joined by a plurality of identical hubs 18. As best shown in FIGS. 1 and 2, the framework in 15 the expanded or open condition comprises a plurality of vertical columns, five of which are indicated respectively at 20, 22, 24, 26 and 28. These are joined by a plurality of horizontal rows, four of which are indicated at 30, 32, 34 and 36. Each of the rows, as best shown in the top .I 20 view of FIG. 2, is made up of pairs of rods 12 and 14 in which the pivot connection 16 is located slightly off the center or mid position between the ends of its respective rods. Since all horizontal rods are of equal length, this 1 causes the four pairs of rods joined in each row to assume a slightly arcuate shape. This shape gives more stability to the -frame when it is resting on the floor or some other supporting surface.

The framework is locked in the expanded position shown in FIGS. 1 and 2 by a suitable latch mechanism which anchors one or more pairs of adjacent hubs 18' and 18'' together. A preferred latch for this purpose is shown in detail in FIG. 6. One hub of the pair, such as indicated at 18', has a latch rod 40 which. projects toward the adjacent hub 18'' of the pair. As the framework.is expanded to its open position by moving the pairs of hubs 18' and 18'' ros. inceallhorzontl rds re o eqal engt, tis i h ou ar frd ond nec o oas A -6toward each other, the latch rod 40 engages a latch receptacle 42 which is rigidly secured to the hub 18''.

The latch rod 40 enters a hole or bore 44 in the end of the latch receptacle 42 where the tapered end 46 of the rod 40 engages a spring-loaded latch pawl 48. As the latch rod is fully' inserted into the bore 44, the latch pawl engages a notch 50 in the rod,. securely locking the rod 40 in position in the latch receptacle 42. The pawl, which is pivotally supported to the receptacle by a pin 52 can be disengaged from the notch 50 to release the latch.

by pushing down on the opposite end 54 of the latch pawl 48.' The pawl is urged into engagement with the notch 50 by a suitable spring 51. The latch mechanism shown in FIG. 6 need only be provided for one pair of 15 hubs, preferably near the center of the framework grid.

If greater rigidity is required, additional pairs of hubs can be provided with such a latch mechanism.

With the latch mechanisms released, the entire framework can be collapsed or folded into the storage condition, as shown in FIG. 9. In this position, the two rods 12 and 14 in each pair of such rods are rotated relative to each other about the connecting pivot 16, allowing each respective pair of hubs 18' and 18'' to be moved apart.until the rods 12 rotate almost 180 degrees relative to the other rods 14 of each pair. In the full folded position, all the hubs 18' move into side-by-side engagement with each other, and all the hubs 18'' also move into engagement with each other. In this way, the hubs are nested in two groups, each group, occupying an area which is limited by the size of the hubs.

In order to achieve nesting in the minimum space and make the folded framework as compact as possible, a unique hub is provided which allows the hub to be substantially reduced in size without sacrificing rigidity and strength of the framework. At the same time, the hub design of the :i t t ll^ -7- .1 present iArVention provides for ease of assembly in pivotally attaching the rods to the hubs. Details of the hub design are shown more clearly in FIGS. Referring to these Figures, the hub 18 is preferably molded of a suitable plastic material, but can be die-cast or otherwise formed of light weight metal. The hub is formed with a base plate 60 which is generally square in outline with the corners rounded as shown in FIG. 5, and has a flat outer surface 62 from which projects a knob or flanged'pin 64. The knob 64 is used to mount various auxiliary devices to the framework.

The top surface 65 of the hub base plate 60 has four flanges or hinge plates 66, 68, 70 and 72 projecting perpendicularly therefrom. These flanges are offset from 15 each other, as viewed in FIG. 5, so that each flange provides too.

a flat surface, indicated respectively at 74, 76, 78 and •oee0 These surfaces lie in two mutually perpendicular planes.

Thus, the surfaces 76 and 80 lie in a first common plane S: passing through the central axis 82 of the hub, while the 20 surfaces 74 and 78 lie in a second common plane, also passing through the central axis 82 of the hub. The flanges 68 t oo. and 72 project away from the base plate 60 a distance substantially twice that of the flanges 66 and 70. The outer projecting ends of the flanges 68 and 72, which are 25 hereinafter referred to as "high" flanges, intersect in an enlarged central portion 84 having an opening or hole 86 into which the latch rod 40 or latch receptacle 42 may be pressfitted or otherwise secured. High flanges 68 and 72 are provided with holes 88 and 90 adapted to receive a pivot pin or rivet 91 which pivotally secures the end of a tubular rod to the hub flange. The axes of the holes 88 and are parallel to each other and lie in a common plane.

Similarly, the flanges 66 and 70, referred to as the "low" flanges of the hub, are provided with holes 92 and 94 that are adapted to receive the hingi pins or ri'vets 91 -7 1 associated with additional tubular rods. The axes of the holes 92 and 94 are parallel to each other and lie in a common plane. The plane of the holes 92 and 94 is offset from the plane of the holes 88 and 90 by a distance

S

'The backside of the high flanges 68 and 72 are undercut, as indicated at 96 and 98, respectively, to provide clearance for the ends of the rods pivotally attached to the low flanges as the rods are rotated about the axes of the holes 92 and 94.

As -best seen in FIG. 6, the high and low flange arrangement of each hub, as described above, allows for the ends of four relatively large tubular rods to be pivotally attached to each hub by rivets 91. The offset allows ready access to all the rivets 91 of each hub 15 by suitable riveting equipment. Also, the flange configuration allows the outer perimeter of the base plate 60 to be made approximately equal to twice the'diameter of the tubular rods, thus permitting the hubs to be made extremely compact and to nest against each other in two groups in the folded condition of the framework, as illustrated in FIG. 9.

Another advantage of the high, low flange arrangement of the hubs is that the rods in the horizontal rows can be of a different length than the rods in the vertical columns 25 while still permitting the hubs to nest in two coplanar groups when the framework is in its folded position. This feature can be best understood by reference to FIG. 7, •0 which shows a portion of the framework in a substantially folded position. As the framework is expanded into its open position by moving the hubs 18' toward the hubs 18'', the pair -of rods 12' and 14' rotate into the horizontal rows as shown in FIG. 1 while the rods 12'' and 14'' rotate into the vertical columns of the framework. Thus, the spacing between the hubs in the horizontal rows is determined by the length of the rods 12' and 14 while the distance

SI

1

A

1 between the hubs in the vertical columns is determined by the length of the rods 12'' and If, as shown in FIG. 7, all of the horizontal rods 12' and 14' are pivotally joined to the low flanges of the hubs 18, and all the vertical rods 12'' and 14'' are pivotally connected to the high flanges of the hub 18, .it becomes necessary for the vertical rods to be' made shorter in length than the horizontal rodr in order for the hubs in each of the two folded groups (see Fig. 9) to be coplanar. In fact, as seen in FIG. 7, the rods 12'' and 14'' are shorter, by an amount equal to 2A, than the horizontal rods 12' and 14'.

As a result, when the framework is expanded to the open position, the openings or cubicles are not square but are .crectangular, with the vertical dimension of each cubicle c 15 being smaller than the horizontal dimension by an amount "t substantially equal to 2A. Thus, the high, low flange ^arrangement of the hubs allows the designer to modify the width-to-height ratio of the erected or expanded framework.

It should be noted that if it is desired to construct the framework with all of the rods being of identical length, •L this can be accomplished merely by rotating the hubs .18' relative to the hubs This causes the high flange of the hubs 18' to be aligned with a low flange of the hubs 18'' so that every rod is pivotally joined at one end 25 to a low flange and at the other end is pivotally joined to a high flange. This alternative arrangement is shown in FIG. 8.

I In order to attach panels of heavy fabric or other materials to the face of the framework after it is erected, it is desirable to attach vertical channel bars to the framework-along each of the vertical rows of rods., In the past, these channel bars have been made up in individual sections corresponding to the height of each cubicle and the frame. The one feature of the present invention is an improved channel bar in which the sections are hinged i 1 t! 1 together so that the channel bar can be attached as a unit or folded for storage. The channel bar is shown in FIGS.

and 11 and includes three sections 80, 82 and 84. The sections 80 and 82 of the channel bar are joined by a link 86 pivotally attached to a hinged member 88 secured to the bar section 80 and a hinged member 90 secured to one end of the bar section 82. Similarly, the channel bar section 82 is connected to the channel bar section 84 by a hinge including a link 92 pivotally attached to a hinged plate 94 secured to the channel bar section 82 and a hinged plate 96 secured to the channel bar section 84. The link 86 is longer than the link 92, allowing the channel bar section 82 to be folded between the channel bar sections 82 and 80 in the manner shown in FIG. 11.

15 The three sections of the channel bar are attached to the front of the framework by four key slots indicated at 100, 102, 104 and 106. The key slots 102 and 104 are formed in the hinged members 90 and 96 respectively while the key slots 100 and 106 are formed in blocks 108 and 110 secured to the respective ends of the channel bar. The key slots are open at one end and are arranged to engage knobs 64 on the front of the hubs of the framework. To simplify the assembly of the channel bar to the framework, :the key slots are made progressively shorter from the top 25 to the bottom of the channel bar as the key slot 100 is .longer than the slot 102, the key slot 102 is longer than the slot 104, and the key slot 104 is longer than the slot 106. This simplifies the assembly of the framework and channel bars since the keys slots can be engaged with one knob at a time starting at the top. Thus, with the key slot 100 at the top of the channel bar engaged with the top knob of a column, the channel bar assembly can be lifted sufficiently to engage the key slot 102 at the next A lower knob without disengaging the longer key slot 100.

Similarly, the key slot 104 can be dngaged with a knob r i i! -11without disengaging the slot 102. When so attached to the frame, the channel bars form a continuous vertical strip to which panels can be attached for covering the framework with a smooth, continuous display surface.

From the above description, it will be recognized that the improved display framework has been provided which can be made very compact and .ghtweight.

I,

*F

f

A

Claims (8)

1. A collapsible display framework having hub assemblies for pivotally holding the ends of a plurality of rods joined together to form an expanded orientation of a self-standing display framework, in which the display framework is a three-dimensional grid of horizontal and vertical rods forming an array of cubicles in which the rods are pivotally joined at a distance from their ends, and in which the spaced apart hub assemblies are aligned vertically in rows along the face of the self-standing display framework, characterized by one or more hinged folding bar units to which display devices can be attached for covering a face of the expanded self-standing display frame, the folding bar unit comprising a plurality of 15 elongated rigid bar sections hinged together end-to-end to fold as a unit to a compact size and to unfold into an expanded configuration in which the hinged bar sections are aligned end-to-end as a continuous hinged bar, and attachment means spaced apart on the bar sections and 20 arranged thereon for releasably fastening the bar sections as a unit to corresponding aligned hub assemblies on the expanded display framework so that the continuous hinged t bar unit can hang on the front face of the expanded frame C C t to provide a means for attaching the display devices.

2. Apparatus according to claim 1, characterized in that the fastening means comprise receptacles having open ends facing generally in the same direction and arranged to engage corresponding connectors on the hub assemblies.

3. Apparatus according to claim 1, characterized in that the collapsible display framework comprises a plurality of rods pivotally joined at their ends to hubs to form said self-standing display framework when the rods are expanded apart and a compact set of nearly parallel rods when folded, the expanded configuration of the framework having an array of frame sections which share common rods hinged 'IT- o• i 13 at their ends to hubs at common corners of adjacent frame sections, the expanded configuration of the display frame having its hubs aligned in essentially parallel, vertically extending rows with the hubs in each row being vertically spaced apart; in which the separate folding bar units are adapted for releasable attachment to corresponding vertical rows of spaced apart hubs to provide separate, essentially parallel and vertically extending means for attaching display devices to the bars when the display framework is in its expanded position, and in which each folding bar unit comprises a plurality of elongated, vertically spaced apart and aligned sections hinged together end-to-end to fold as a unit into a compact size, and including said attachment means spaced apart along the sections of the folding bar unit and spaced from the hinges thereon for releasably fastening the vertically spaced apart sections of each bar to ee corresponding vertically spaced apart hubs on the expanded o framework. oooo o" 20 4. Apparatus according to claim 3, characterized in that each bar has a plurality of key slots spaced apart along the bar at intervals corresponding to the distance between the hubs for engaging the hubs, each successive key slot •being shorter in length than the adjacent key slot so the 25 bar can be engaged one hub at a time to the aligned hubs. o *s Apparatus according to claim 3, characterized in that each folding bar unit has a plurality of key slots spaced S* along the bar at intervals corresponding to the distance between the hubs for engaging the vertically aligned hubs in each row so the bar is removably secured to the plurality of aligned hubs, whereby the folding bar unit can be engaged one hub at a time to the aligned hubs.

6. Apparatus according to claim 1, characterized in that the hubs on at least one side of the framework include a flanged knob projecting therefrom, and each folding bar ii //N c' I 4 A 14 a SO CO C a flat 0 a a a a a eeC, S eec. a *Oaa a a a 0 a a 0 *00000 a a. a S 0* 0~ 0 Ca C 0 a 00 a unit has a plurality of key slots spaced along the bar at intervals corresponding to the distance between knobs in each vertical row for engaging the knobs of the aligned hubs, whereby the folding bar unit is removably secured to the plurality of hubs by engaging one knob at a time in the row of aligned hubs.

7. Apparatus according to claim 6, characterized in that wherein each successive key slot in a respective bar section is shorter in length than the adjacent key slot to facilitate engaging one hub at a time in the row of aligned hubs.

8. Apparatus according to claim 1, characterized in that each folding bar unit has a plurality of elongated vertically spaced apart and aligned sections 15 interconnected end-to-end by spaced apart hinges for folding the sections as a unit into a compact size, and attachment means spaced apart on the sections of the bar and spaced from the hinges thereon for releasably fastening vertically spaced apart sections of the bar to 20 corresponding vertically spaced apart hubs on the expanded framework, the folding bar unit attached to each vertically spaced apart row of hubs providing means for attaching display devices to the expanded frame.

9. Apparatus according to claim 8 in which each folding 25 bar unit has E, plurality of key slots spaced apart along the bar at intervals corresponding to the distance between the hubs for engaging the hubs, each successive key slot being shorter in length than the adjacent key slot so the bar can be engaged one hub at a time to the aligned hubs.

10. A collapsible display framework substantially as hereinbefore described with reference to the accompanying drawings. DATED this 23rd day of November 1994 WILLIAM JOHN WICHNAN Patent Attorneys for the Applicant: F.B. RICE CO. b~K~ ABSTRACT The present invention relates to a collapsible display framework 10 including channel bars. The channel bar includes three sections 80, 82 and 84. The sections and 82 of the channel bar adjoined by a link 86 pivotally attached to a hinged member 88 secured to the bars section 80 and a hinged member 90 secured to one end of the bar section 82. The channel bar section 82 is connected to the channel bar section 84 by a hinge including a link 92 pivotally attached to a hinged plate 94 secured to the channel bar section 82 and a hinged *aoo*6 plate 96 secured to the channel by section 84. The link 86 is longer than the link 92, allowing the channel bar section 82 to be folded between the channel bar sections 82 and 0* O 00 0 a0 0 0a 0 0 o 0 o aoeo ii t