EP0503641A1 - Modular wire shelving system and methods for making shelves and vertical supports incorporated therein - Google Patents
Modular wire shelving system and methods for making shelves and vertical supports incorporated therein Download PDFInfo
- Publication number
- EP0503641A1 EP0503641A1 EP92104306A EP92104306A EP0503641A1 EP 0503641 A1 EP0503641 A1 EP 0503641A1 EP 92104306 A EP92104306 A EP 92104306A EP 92104306 A EP92104306 A EP 92104306A EP 0503641 A1 EP0503641 A1 EP 0503641A1
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- EP
- European Patent Office
- Prior art keywords
- shelf
- ribs
- projection
- frame
- vertical
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47F—SPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
- A47F5/00—Show stands, hangers, or shelves characterised by their constructional features
- A47F5/10—Adjustable or foldable or dismountable display stands
- A47F5/13—Adjustable or foldable or dismountable display stands made of tubes or wire
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
- A47B55/00—Cabinets, racks or shelf units, having essential features of rigid construction
- A47B55/02—Cabinets, racks or shelf units, having essential features of rigid construction made of wire
Definitions
- the present invention relates to an improved modular shelving system primarily for home use. More particularly, the present invention relates to an inexpensive shelving system for home use having modular components that can be easily assembled and disassembled without any tools, for shipment, storage, cleaning, and for changing the height of the shelves in of the shelving system.
- Modular shelving systems are well known.
- U.S. Patents Nos. 3,138,123 and 3,208,408 disclose knockdown shelving units that have achieved great commercial success under applicants' assignees' trademark ERECTA SHELF and that do not require tools for their assembly.
- These systems comprise a plurality of shelf components supported by two vertical supports.
- Each vertical support comprises two pairs of vertical rods interconnected by spaced horizontal stiffeners that form transverse supports for the shelf components.
- the central part of each stiffener includes a U-shaped portion that can elastically expand when appropriately stressed.
- the space separating the two pairs of vertical rods is smaller than the overall width of the shelf components.
- the shelf components must be tilted and forced down between the two pairs of vertical rods.
- the U-shaped portion of the stiffener permits this wedging action by expanding when each shelf component is forced between the two pairs of vertical rods.
- This wedging action is also facilitated by the use vertically spaced ribs of front and rear frames of each shelf component.
- the exterior edges of the ends of these ribs are formed with notched ends that engage the vertical rods when the shelf component is wedged between the two pairs of vertical rods.
- the notches in the ends of the ribs are made sufficiently large to permit the insertion of the shelf components between the pairs of vertical rods.
- the shelving system of the present invention comprises a shelf and means for supporting the shelf.
- the shelf comprises an object carrying portion or mat for supporting objects, and a number of projections connected to and projecting from the mat.
- the means for supporting the shelf comprises a pair of vertical supports each having two pairs of vertical members spaced apart by a distance sufficient to permit the insertion of one projection from the shelf therebetween but to prevent substantial horizontal movement of the projection.
- the supporting means also comprises a horizontal support, connected between the two pairs of vertical members, which is adapted to carry a portion of the shelf in that vertical direction.
- the shelf includes a frame surrounding and attached to the mat. Each projection protrudes from that frame.
- the frame comprises two lateral frame members and front and rear frame members attached to the two lateral frame members.
- the projections may be formed integrally with the front and rear frame members or the lateral frame members.
- the shelving system also includes a plurality of transverse rods connecting the front and rear frame members at different points along the length thereof.
- the mat comprises a plurality of substantially parallel mat ribs attached to the frame members and the transverse rods.
- each transverse rod extends at substantially a right angle to the parallel mat ribs.
- a generally sinuously formed wire can be provided to connect those frame members at spaced points along the length thereof. Such a wire may also be connected between the lateral frame members.
- each of the spaced ribs defining the front and rear frame members form the projections by being bent substantially horizontally at approximately right angles with respect to a remaining portion of each of such spaced ribs.
- the lateral frame members each comprise two vertically spaced ribs. In this embodiment, the end portion of each of those spaced ribs form the projections by extending in the same direction as a remaining portion thereof.
- the elements of the frame members, transverse rods and shelf mat are metal wire rods. These wire rods are interconnected by welding.
- the shelving system may further comprise a snap-on cover adapted to snap over the projections from the shelf frame and the portion of the pair of vertical support members horizontally adjacent each such projection when inserted between the spaced vertical support members.
- each projection from the shelf frame comprises a detachable snap-on element adapted to snap onto a portion of the frame and onto each of the two vertical support members.
- the present invention relates specifically to a shelf for a shelving system configured to be supported by at least one pair of spaced vertical supports connected by a horizontal support.
- the shelf comprises a frame that includes a plurality of ribs.
- One of the ribs comprises two projections protruding in the same direction beyond the outer periphery of the frame. Each projection is sufficiently narrow to permit insertion thereof between the pair of spaced vertical supports but is sufficiently wide to permit no substantial horizontal movement when inserted between the pair of spaced vertical supports.
- the shelf also comprises a plurality of ribs attached to and extending within the frame to define an object carrying surface or mat within the frame thus for supporting objects.
- the shelf mat still further comprises a plurality of transverse ribs extending transversely to and connected to the bottom of the plurality of ribs defining the object carrying surface.
- Another of the ribs comprises two projections in the same direction beyond the outer periphery of the frame.
- the ribs comprising the two projections are vertically spaced and are connected at a plurality of points along the length thereof by the plurality of transverse rods.
- the portion of each transverse rod which connects the ribs comprising the two projections extends at substantially a right angle to the portion of each transverse rod which is attached to the bottom of each of the plurality of ribs defining the object support surface.
- the present invention also contemplates a method of making both the vertical support structures and the shelves by a continuous welding and subsequent wire bending procedure described in detail hereinafter.
- the shelving system 10 of the present invention generally comprises a plurality of horizontal wire shelves 12 and a vertical wire support arrangement 14 for supporting the shelves 12.
- each of the wire shelves 12 and the wire support arrangement 14 are composed of a plurality of metal wires that are welded together.
- a large wire mat larger than the individual shelves 12, is continuously constructed by welding individual wire rods together. The large mat is then cut generally to form the individual shelves 12.
- the final desired configuration of each single wire shelf 12 is formed by bending individual components to the desired shape after the large mat is cut. Consequently, the shelving system 10 is capable of supporting heavy loads and can be manufactured quickly and inexpensively.
- the shelving system 10 is a modular one that can be shipped and stored in component pieces which can be easily assembled and disassembled. More particularly, the shelving system 10 includes two types of modular components, namely at least one shelf 12 and two lateral support structures 16 that together form the support arrangement 14 and support the respective opposing lateral sides of each shelf 12. Each lateral support structure 16 comprises two spaced vertical corner posts 18 rigidly connected by a plurality of horizontal rods 26, as will be discussed in more detail below.
- each corner post of each vertical structure 16 comprises two spaced vertical rods 24 connected by the horizontal rods 26.
- Each horizontal rod 26 supports the end of a rib 40 projecting from a frame of the shelf mat 12.
- any one of the shelves 12 can be changed by reversing this process, without removing any of the other shelves 12, and repositioning the one shelf.
- the simplicity of this design reduces manufacturing costs.
- the simplicity of the method for assembling the shelving system 10 and changing the height of the individual shelves 12 renders the system convenient and easy to use.
- the support arrangement 14 comprises the two vertical support structures 16.
- Each support structure 16 comprises two spaced vertical corner posts 18, namely a front vertical corner post 20 and a rear vertical corner post 22.
- Each vertical corner post 18 comprises two spaced vertical rods 24.
- Each front corner post 20 is connected to one rear corner post 22 by a plurality of horizontal rods 26.
- the horizontal rods 26 are bent at each end at substantially a right angle also to interconnect the vertical rods 24 of the respective front and rear corner posts 20 and 22.
- the horizontal rods 26 perform several functions. First, they connect and rigidly hold front and rear corner posts 20, 22 together to form the lateral support structure 16. Second, the horizontal rods 26 form support surfaces for the shelves 12 as will be described in greater detail below.
- Figure 1 shows a vertical support structure having five horizontal rods 26.
- Figure 10 illustrates another embodiment showing such a structure with three horizontal rods 26, and
- Figure 11 illustrates still another embodiment showing the structure with four horizontal rods 26. It should be understood that these are merely exemplary embodiments, and that the invention is not limited to the number of horizontal rods 26 or shelves 12 carried thereon shown in the drawings.
- cross braces 28 can be attached thereto.
- the embodiment illustrated in Figure 1 shows the top end of the cross brace 28 welded to the rear end of the uppermost horizontal rod 26 and the bottom end of the cross brace 28 welded to the front end of the lowermost horizontal rod 26.
- FIG 1 shows only one cross brace 28 for each lateral support structure 16 is shown in Figure 1, it should be understood that two or more cross braces 28 can be used, for example, in an X-shaped configuration.
- cross brace 28 may be omitted, whereas for taller lateral support structures 16 which are, for example, 48 inches or 54 inches tall, one or two cross braces 28 are preferably incorporated.
- the lateral support structures 16 are also stabilized by plastic feet 60, as is shown in Figures 1, 2, 3 and 4.
- Each foot 60 supports the two vertical rods 24 of a corner post 18, comprises a base 62 and two housings 64 which extend vertically from the base 62.
- Each housing 64 is dimensioned to tightly receive the bottom end of one of the vertical rods 24 therein.
- the support arrangement 14 further comprises a plurality of plastic caps 70 which are placed on the top ends of the rods 24 forming each corner post 18, as shown in Figures 1, 2, 6 and 7.
- Each cap 70 has two housings, each dimensioned tightly to receive the top end of one of the vertical rods 24 therein.
- the connector 80 comprises a base 82, two housings 84 extending upwardly from the base 82, and two housings 86 extending downwardly from the base 82. Pairs of the upwardly and downwardly extending housings are axially aligned as clearly shown.
- the upwardly extending housings 84 are dimensioned tightly to receive the bottom ends of the vertical rods 24 of a corner post 18 therein.
- the downwardly extending housings 86 are dimensioned tightly to receive the top ends of the vertical rods 24 of a different corner post 18 therein.
- the connector 80 thus axially vertically aligns the rods of respective upper and lower corner posts of the stacked shelving systems so that the posts continue to provide primary vertical load bearing.
- each support structure 16 can be made in a continuous mat welding process.
- the vertical rods 24, horizontal rods 26 and cross braces 28 can be made as a continuous welded wire mat. Thereafter, sections of the continuous mat can be cut to the desired vertical height of a support structure 18 and the horizontal rods 26 can be bent near their respective ends adjacent the welded attachment to the vertical rods, at a 90 degree angle. The bending operation produces the U-shaped configuration in plan view of the horizontal rods as can be seen in Figure 1.
- the continuous welding process described above avoids the need for making an undue number of custom welds to secure separate wire components to the structure after it is made to proper size and thereby improves the efficiency of manufacturing and reduces cost.
- Figures 1, 2, 5, 10, and 11 show a first embodiment of each shelf 12, Figure 12 shows a second embodiment of the shelf 12, and Figure 13 shows a third embodiment.
- Figures 5, 12, and 13 show the manner in which the corners of the shelf 12 engage the vertical support posts 18.
- the shelf 12 in each embodiment is rectangular in shape, having four identical corner structures. However, it should be understood that it is within the scope of the present invention for the shelf 12 to have other shapes, such as square, triangular, or similar shapes.
- the shelf 12 comprises a frame which surrounds and supports an object carrying portion or shelf mat 36 adapted to support objects placed thereon.
- the frame comprises identical front and rear frame members 38 and identical lateral frame members 39.
- the front and rear frame members 38 each comprise two vertically spaced wire ribs 40.
- Each rib 40 comprises a major portion 42 that defines the front or rear edges of the mat 36.
- the two ends of each rib 40 are formed with a short projection 44.
- Each projection 44 on a given front or rear frame 38 extends horizontally in the same direction at substantially a right angle with respect to the major portion 42. In addition, the projections 44 extend beyond the front or rear edges of the object carrying portion 36.
- the distance between the spaced vertical rods 24 of each corner post and the dimensions of the projections 44 are such as to permit the insertion of the projections 44 between the vertical rods 24 while preventing substantial horizontal movement of the projections 44 when so inserted, all as shown in detail in Figures 1 and 5.
- the lateral frame members 39 each comprise at least one transverse rib 46 that extends transversely to the front and rear frame members 38.
- the transverse rods 46 comprise a horizontal portion 48 to which additional mat-defining ribs 54 of the object support portion 36 are welded.
- the transverse rods 46 each comprise at each end a connecting portion 50, which is bent downwardly at substantially a right angle with respect to the horizontal portion 48. Connecting portions 50 are welded near the lateral extremes of the major portions 42 of ribs 40 of the front and rear frame members 38.
- transverse rods 56 are welded to the bottom of the mat-defining ribs 54 of the mat 36.
- the ends of the transverse rods 56 are also bent downwardly substantially at a right angle with respect to the major portion of each welded to the bottom of the ribs 54.
- the ends of the transverse rods 56 are thus welded to the portions 42 of the front and rear frame member ribs 40 at spaced points along the lengths thereof.
- the wires comprising the various frame members can be of a higher gauge than or the same gauge as the wires comprising the object support portion 36.
- the shelf mat structure may be made by a continuous welding process in which, for example, the mat-defining ribs 54 and front and rear frame ribs 40 are laid in parallel, and the transverse ribs 56 and 46 are welded perpendicularly thereto.
- the transverse ribs 56 and 46 are then cut to desired length and bent at opposing ends to cause the two ribs 40 at each end thereof to depend from the major portion of the mat and define the front and rear frame members.
- the mat-forming wires are cut to shorter length to define the shelf mat, while the front and rear frame member ribs 40 are left longer and bent at 90 degrees to define the projections 44.
- other orders of performing these manufacturing steps may be contemplated by those skilled in the art.
- a plastic snap-on cover 58 is illustrated that is adapted to snap over the two projections 44 and the portion of vertical rods 24 that are horizontally adjacent the projections 44 when inserted between the vertical rods 24. More specifically, the cover 58 comprises a central section 59 dimensioned to permit snapping over the ends of the projections 44, and two outer sections 61 dimensioned to permit snapping onto the portions of the vertical rods 24 adjacent the projections 44. Accordingly, this cover provides an aesthetically pleasing appearance.
- FIGS 10 and 11 illustrate an accessory for the shelving system of the present invention in the form of a rear side-to-side cross brace 45 that diagonally interconnects the opposing lateral supports.
- This cross brace 45 may be provided with a sheppard's hook 47 at each end, each of which embraces one horizontal support 26 in the region of the rear corner posts 22 at the opposing top and bottom of the respective vertical support structures 16.
- two such cross braces 45 may be provided at the rear of a shelving system assembly and would be arranged in an X-shaped configuration.
- Figure 12 illustrates a second embodiment of the present invention, in which elements having the same structure or function as elements of the first embodiment are labelled with the same reference numerals.
- this second embodiment uses an intermediate snap-on coupling member 90 for coupling the corner of the shelf 12 to the vertical corner post 18.
- the coupling member 90 comprises a base 91 formed with two vertically extending channels 93 that share a common wall 95 and that are spaced to snap onto and embrace both of the vertical rods 24 comprising a corner post 18.
- the common wall 95 is adapted to be inserted between the vertical rods 24.
- Facing the shelf 12 are a pair of parallel flanges 97 that together define a channel 99 adapted to receive the depending end or connecting portion 50 of one transverse rod 46 between the ribs 40 of a front or back frame member.
- the upper most of the ribs 40 is then carried on the tops 101 of the flanges 97 while the bottom of the housing 90 is supported on a horizontal rod 26 of a vertical support structure 16, thereby to vertically support the shelf mat.
- Figure 13 illustrates a third embodiment of the present invention. Again in this figure, elements having the same structure or function as elements of the first embodiment are labelled with the same reference numerals. This embodiment differs from the first embodiment in that the projections that are inserted between the vertical rods 24 of each corner post are not projections bent from ribs 40 forming the front and rear frame members 38. Rather, extensions of transverse rods 46 defining the lateral frame members 39 constitute the projections 44a to be inserted between the vertical rods 24 defining each corner post.
- the lateral frame members 39 and the front and rear frame members 38 each comprise two vertically spaced ribs 46 and 40 respectively that are straight.
- the ends of the spaced ribs 40 of the front and rear frame members 38 are welded at a welding point to the respective spaced ribs 46 of the lateral frame members 39.
- the welding point is spaced from the ends of those ribs 46. Consequently, the extremes of the ribs 46 of the lateral frame members 39 define the projections 44a which are inserted between adjacent vertical rods 24.
- the distance between the spaced vertical rods 24 and the dimensions of the projections 44a are such as to permit the insertion of the projections 44a between the vertical rods 24 while preventing substantial horizontal movement of the projections 44a when so inserted.
- the end of the lower most rib 40 is supported on the horizontal rod 26.
- this third embodiment is shown with an enhanced stiffening structure in the form of a generally sinuous or "snake-like" wire 92 welded between the ribs 40 and 46 of the respective front, rear and lateral frame members.
- this stiffening wire may also be used in the other embodiments.
- one shelf configuration now contemplated incorporates the front and rear frame members each comprised of upper and lower spaced wire ribs 40, bent at their opposing ends to form projections 44, all as shown in Figures 1 and 5.
- a snake-like stiffening member 92 such as shown in Figure 13, is welded between these spaced wire ribs.
- a single lateral frame wire 46 is provided at each side of the shelf and is welded to the undersides of the upper ribs 40 and of the mat-forming wires 54.
- the depending connecting portions 50 of these frame wires 46 and the depending portions of each mat-forming wire 56, shown in Figure 1 are omitted. That is each of the frame wires and mat-forming wires terminates at and is welded to the bottom of the upper rib 40.
- the present invention provides many improvements over known shelving systems, especially those for home use, in the areas of ease of assembly and low cost manufacture.
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Abstract
A shelving system includes a shelf mat (12) and a support structure (16) for supporting the shelf mat (12). The shelf mat includes an object carrying portion for supporting objects and a projection (44) connected to and projecting from the object support portion. The support structure (16) includes a pair of vertical corner posts (18) each having two vertical rods (24) spaced by a distance sufficient to permit the insertion of the projection (44) therebetween but to prevent substantial horizontal movement of the projection (44) when the projection (44) is so inserted. The support structure also includes a horizontal support (26), connected between the two vertical corner posts (18), and adapted to support at least a portion of said shelf (12) when inserted between the two vertical rods (24). Methods of manufacturing the shelf mat and support structure using continuous mat-forming steps are also described.
Description
- The present invention relates to an improved modular shelving system primarily for home use. More particularly, the present invention relates to an inexpensive shelving system for home use having modular components that can be easily assembled and disassembled without any tools, for shipment, storage, cleaning, and for changing the height of the shelves in of the shelving system.
- While the shelving system of the present invention is especially well suited for home use, it can, of course, be used with equal advantage in many other environments.
- Modular shelving systems are well known. For example, U.S. Patents Nos. 3,138,123 and 3,208,408 disclose knockdown shelving units that have achieved great commercial success under applicants' assignees' trademark ERECTA SHELF and that do not require tools for their assembly. These systems comprise a plurality of shelf components supported by two vertical supports. Each vertical support comprises two pairs of vertical rods interconnected by spaced horizontal stiffeners that form transverse supports for the shelf components. The central part of each stiffener includes a U-shaped portion that can elastically expand when appropriately stressed. The space separating the two pairs of vertical rods is smaller than the overall width of the shelf components. Thus, the shelf components must be tilted and forced down between the two pairs of vertical rods. The U-shaped portion of the stiffener permits this wedging action by expanding when each shelf component is forced between the two pairs of vertical rods. This wedging action is also facilitated by the use vertically spaced ribs of front and rear frames of each shelf component. The exterior edges of the ends of these ribs are formed with notched ends that engage the vertical rods when the shelf component is wedged between the two pairs of vertical rods. The notches in the ends of the ribs are made sufficiently large to permit the insertion of the shelf components between the pairs of vertical rods.
- While this structure can be readily assembled at home and provides a stable, strong shelf system, it is believed that it may be improved further. First, the use of a variety of differently shaped elements, such as notched ribs and stiffeners having a U-shaped central section, increases the manufacturing costs of the system. Second, in order to assemble the system, the user must force the shelf components down between the closely spaced vertical rods against the force of U-shaped portions of the stiffeners. Similarly, when the user wishes to change the height of the shelves, the user must force the shelf components up against the force of the U-shaped portion of the stiffeners. This can require substantial effort, which may be difficult or inconvenient for some users.
- Thus, there is a need for a shelving system that can be readily assembled at home without tools, which is also inexpensive and can be assembled with minimal effort.
- It is an object of the present invention to improve upon the modular shelving systems known in the prior art.
- It is another object of the present invention to provide a shelving system that can be readily assembled at home with minimal effort without tools and that is inexpensive.
- It is still another object of the present invention to provide a shelving system in which the height of the shelf components can be quickly changed with minimal effort.
- According to one aspect, in a preferred embodiment the shelving system of the present invention comprises a shelf and means for supporting the shelf. The shelf comprises an object carrying portion or mat for supporting objects, and a number of projections connected to and projecting from the mat. The means for supporting the shelf comprises a pair of vertical supports each having two pairs of vertical members spaced apart by a distance sufficient to permit the insertion of one projection from the shelf therebetween but to prevent substantial horizontal movement of the projection. The supporting means also comprises a horizontal support, connected between the two pairs of vertical members, which is adapted to carry a portion of the shelf in that vertical direction.
- The shelf includes a frame surrounding and attached to the mat. Each projection protrudes from that frame. The frame comprises two lateral frame members and front and rear frame members attached to the two lateral frame members. The projections may be formed integrally with the front and rear frame members or the lateral frame members.
- The shelving system also includes a plurality of transverse rods connecting the front and rear frame members at different points along the length thereof. In addition, the mat comprises a plurality of substantially parallel mat ribs attached to the frame members and the transverse rods. Thus, each transverse rod extends at substantially a right angle to the parallel mat ribs.
- Instead of or in addition to the use of transverse rods to connect the two vertically spaced ribs comprising the front and rear frame members, a generally sinuously formed wire can be provided to connect those frame members at spaced points along the length thereof. Such a wire may also be connected between the lateral frame members.
- In one preferred embodiment, the end portions of each of the spaced ribs defining the front and rear frame members form the projections by being bent substantially horizontally at approximately right angles with respect to a remaining portion of each of such spaced ribs. In a second embodiment, the lateral frame members each comprise two vertically spaced ribs. In this embodiment, the end portion of each of those spaced ribs form the projections by extending in the same direction as a remaining portion thereof.
- In these preferred embodiments, the elements of the frame members, transverse rods and shelf mat are metal wire rods. These wire rods are interconnected by welding.
- The shelving system may further comprise a snap-on cover adapted to snap over the projections from the shelf frame and the portion of the pair of vertical support members horizontally adjacent each such projection when inserted between the spaced vertical support members.
- In still another embodiment of the present invention, each projection from the shelf frame comprises a detachable snap-on element adapted to snap onto a portion of the frame and onto each of the two vertical support members.
- According to another aspect, the present invention relates specifically to a shelf for a shelving system configured to be supported by at least one pair of spaced vertical supports connected by a horizontal support. The shelf comprises a frame that includes a plurality of ribs. One of the ribs comprises two projections protruding in the same direction beyond the outer periphery of the frame. Each projection is sufficiently narrow to permit insertion thereof between the pair of spaced vertical supports but is sufficiently wide to permit no substantial horizontal movement when inserted between the pair of spaced vertical supports. The shelf also comprises a plurality of ribs attached to and extending within the frame to define an object carrying surface or mat within the frame thus for supporting objects.
- The shelf mat still further comprises a plurality of transverse ribs extending transversely to and connected to the bottom of the plurality of ribs defining the object carrying surface. Another of the ribs comprises two projections in the same direction beyond the outer periphery of the frame. The ribs comprising the two projections are vertically spaced and are connected at a plurality of points along the length thereof by the plurality of transverse rods. The portion of each transverse rod which connects the ribs comprising the two projections extends at substantially a right angle to the portion of each transverse rod which is attached to the bottom of each of the plurality of ribs defining the object support surface.
- The present invention also contemplates a method of making both the vertical support structures and the shelves by a continuous welding and subsequent wire bending procedure described in detail hereinafter.
- A more complete appreciation along with an understanding of other aspects, objects, features, and advantages of the present invention will become apparent from the following detailed description, when considered in conjunction with the accompanying drawing.
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- Figure 1 is a perspective view of a shelving system in accordance with a first embodiment of the present invention;
- Figure 2 is a front elevational view of the shelving system shown in Fig. 1;
- Figure 3 is a perspective view of a foot for supporting the ends of the vertical rods of the vertical support structures of the present invention;
- Figure 4 is a vertical cross-sectional view of the foot shown in Figure 3;
- Figure 5 is an enlarged perspective view of the corner of the shelf mat shown in Figure 1 engaging a pair of vertical support rods, and a cover adapted to snap onto two projections of the shelf mat and the portion of the vertical support rods adjacent the projections;
- Figure 6 is a perspective view of a top cap for the vertical support rods of the present invention;
- Figure 7 is a vertical cross-sectional view of the cap shown in Figure 6;
- Figure 8 is a perspective view of a connector for connecting two pairs of vertical support rods of the present invention;
- Figure 9 is a vertical cross-sectional view of the connector shown in Figure 8;
- Figure 10 is a rear elevational view of a short form of the first embodiment of the shelving system of the present invention having one side-to-side cross brace;
- Figure 11 is a rear elevational view of a tall form of the first embodiment of the shelving system of the present invention also having one side-to-side cross brace;
- Figure 12 is a perspective schematic view of the corner structure of a second embodiment of the present invention, showing a snap-on coupling member which snaps onto a rod of the shelf mat and which snaps onto each of the rods of the vertical supports to couple the shelf mat to the vertical supports; and
- Figure 13 is a perspective view of the corner structure of a third embodiment of the present invention, showing the manner in which the corner of the shelf mat engages the vertical supports.
- For purposes of explanation, it is to be understood that in this specification and the concluding claims, the location of elements of the shelving system of the present invention will be defined with reference to the fully assembled system. Accordingly, the term "horizontal" refers to directions parallel to a surface on which the fully assembled shelving system stands. Similarly, the term "vertical" refers to directions normal to that surface.
- As shown in Fig. 1, the
shelving system 10 of the present invention generally comprises a plurality ofhorizontal wire shelves 12 and a verticalwire support arrangement 14 for supporting theshelves 12. In all preferred embodiments, each of thewire shelves 12 and thewire support arrangement 14 are composed of a plurality of metal wires that are welded together. As described in greater detail below, to formindividual shelves 12, a large wire mat, larger than theindividual shelves 12, is continuously constructed by welding individual wire rods together. The large mat is then cut generally to form theindividual shelves 12. The final desired configuration of eachsingle wire shelf 12 is formed by bending individual components to the desired shape after the large mat is cut. Consequently, theshelving system 10 is capable of supporting heavy loads and can be manufactured quickly and inexpensively. - In addition, the
shelving system 10 is a modular one that can be shipped and stored in component pieces which can be easily assembled and disassembled. More particularly, theshelving system 10 includes two types of modular components, namely at least oneshelf 12 and twolateral support structures 16 that together form thesupport arrangement 14 and support the respective opposing lateral sides of eachshelf 12. Eachlateral support structure 16 comprises two spaced vertical corner posts 18 rigidly connected by a plurality ofhorizontal rods 26, as will be discussed in more detail below. - Moreover, the corners of the
shelving system 10, at which theshelves 12 may be carried by thesupport structures 16, are simple in design and permit quick and easy assembly of the system. Briefly, as shown in Figures 1, 5, and 13, each corner post of eachvertical structure 16 comprises two spacedvertical rods 24 connected by thehorizontal rods 26. Eachhorizontal rod 26 supports the end of arib 40 projecting from a frame of theshelf mat 12. - To assemble the shelving system, the user need only
- (a) place the two
vertical support structures 16 at a distance from each other equal to the length of ashelf 12; - (b) tilt the
front 27 of eachshelf 12 with respect to the rear 29 thereof (or vice versa), - (c) insert the ends of the
ribs 40 at thefront 27 of theshelf 12 between the spacedvertical rods 24 of the front most corner posts 20 so that theribs 40 are supported byhorizontal rods 26, and - (d) slide the ends of the
ribs 40 at the rear 29 of theshelf 12 down until they are inserted between the spacedvertical rods 24 of the rearmost posts 22 such that theribs 40 also supported by thehorizontal rods 26. - The height of any one of the
shelves 12 can be changed by reversing this process, without removing any of theother shelves 12, and repositioning the one shelf. The simplicity of this design reduces manufacturing costs. In addition, the simplicity of the method for assembling theshelving system 10 and changing the height of theindividual shelves 12 renders the system convenient and easy to use. - The
vertical support arrangement 14 will now be described in more detail. As shown in Fig. 1, thesupport arrangement 14 comprises the twovertical support structures 16. Eachsupport structure 16 comprises two spaced vertical corner posts 18, namely a frontvertical corner post 20 and a rearvertical corner post 22. Eachvertical corner post 18 comprises two spacedvertical rods 24. Eachfront corner post 20 is connected to onerear corner post 22 by a plurality ofhorizontal rods 26. Thehorizontal rods 26 are bent at each end at substantially a right angle also to interconnect thevertical rods 24 of the respective front and rear corner posts 20 and 22. Thehorizontal rods 26 perform several functions. First, they connect and rigidly hold front and rear corner posts 20, 22 together to form thelateral support structure 16. Second, thehorizontal rods 26 form support surfaces for theshelves 12 as will be described in greater detail below. - Figure 1 shows a vertical support structure having five
horizontal rods 26. Figure 10 illustrates another embodiment showing such a structure with threehorizontal rods 26, and Figure 11 illustrates still another embodiment showing the structure with fourhorizontal rods 26. It should be understood that these are merely exemplary embodiments, and that the invention is not limited to the number ofhorizontal rods 26 orshelves 12 carried thereon shown in the drawings. - To increase the stability of the
lateral support structures 16, cross braces 28 can be attached thereto. The embodiment illustrated in Figure 1 shows the top end of thecross brace 28 welded to the rear end of the uppermosthorizontal rod 26 and the bottom end of thecross brace 28 welded to the front end of the lowermosthorizontal rod 26. Although only onecross brace 28 for eachlateral support structure 16 is shown in Figure 1, it should be understood that two or more cross braces 28 can be used, for example, in an X-shaped configuration. Moreover, it should also be understood that for smalllateral support structures 16 which may be 33 inches tall, for example, thecross brace 28 may be omitted, whereas for tallerlateral support structures 16 which are, for example, 48 inches or 54 inches tall, one or two cross braces 28 are preferably incorporated. - The
lateral support structures 16 are also stabilized byplastic feet 60, as is shown in Figures 1, 2, 3 and 4. Eachfoot 60 supports the twovertical rods 24 of acorner post 18, comprises abase 62 and twohousings 64 which extend vertically from thebase 62. Eachhousing 64 is dimensioned to tightly receive the bottom end of one of thevertical rods 24 therein. - The
support arrangement 14 further comprises a plurality ofplastic caps 70 which are placed on the top ends of therods 24 forming eachcorner post 18, as shown in Figures 1, 2, 6 and 7. Eachcap 70 has two housings, each dimensioned tightly to receive the top end of one of thevertical rods 24 therein. -
Separate shelving systems 10 can be stacked one on top of another. This arrangement provides maximum flexibility in satisfying the needs of users for systems of different heights. Such stacking is accomplished with fourplastic connectors 80, one of which is shown in Figures 8 and 9. Theconnector 80 comprises abase 82, twohousings 84 extending upwardly from thebase 82, and twohousings 86 extending downwardly from thebase 82. Pairs of the upwardly and downwardly extending housings are axially aligned as clearly shown. The upwardly extendinghousings 84 are dimensioned tightly to receive the bottom ends of thevertical rods 24 of acorner post 18 therein. The downwardly extendinghousings 86 are dimensioned tightly to receive the top ends of thevertical rods 24 of adifferent corner post 18 therein. Theconnector 80 thus axially vertically aligns the rods of respective upper and lower corner posts of the stacked shelving systems so that the posts continue to provide primary vertical load bearing. - It will be understood from the description provided above that each
support structure 16 can be made in a continuous mat welding process. For example, thevertical rods 24,horizontal rods 26 and cross braces 28 can be made as a continuous welded wire mat. Thereafter, sections of the continuous mat can be cut to the desired vertical height of asupport structure 18 and thehorizontal rods 26 can be bent near their respective ends adjacent the welded attachment to the vertical rods, at a 90 degree angle. The bending operation produces the U-shaped configuration in plan view of the horizontal rods as can be seen in Figure 1. - The continuous welding process described above avoids the need for making an undue number of custom welds to secure separate wire components to the structure after it is made to proper size and thereby improves the efficiency of manufacturing and reduces cost.
- The structure of the
horizontal shelves 12 will now be described in detail. Figures 1, 2, 5, 10, and 11 show a first embodiment of eachshelf 12, Figure 12 shows a second embodiment of theshelf 12, and Figure 13 shows a third embodiment. Figures 5, 12, and 13 show the manner in which the corners of theshelf 12 engage the vertical support posts 18. - The
shelf 12 in each embodiment is rectangular in shape, having four identical corner structures. However, it should be understood that it is within the scope of the present invention for theshelf 12 to have other shapes, such as square, triangular, or similar shapes. - In the first embodiment, the
shelf 12 comprises a frame which surrounds and supports an object carrying portion orshelf mat 36 adapted to support objects placed thereon. The frame comprises identical front andrear frame members 38 and identicallateral frame members 39. - The front and
rear frame members 38 each comprise two vertically spacedwire ribs 40. Eachrib 40 comprises amajor portion 42 that defines the front or rear edges of themat 36. The two ends of eachrib 40 are formed with ashort projection 44. Eachprojection 44 on a given front orrear frame 38 extends horizontally in the same direction at substantially a right angle with respect to themajor portion 42. In addition, theprojections 44 extend beyond the front or rear edges of theobject carrying portion 36. - The distance between the spaced
vertical rods 24 of each corner post and the dimensions of theprojections 44 are such as to permit the insertion of theprojections 44 between thevertical rods 24 while preventing substantial horizontal movement of theprojections 44 when so inserted, all as shown in detail in Figures 1 and 5. - Moreover, the use of two
projections 44, as shown in detail in Figure 5, that tightly fit between thevertical rods 24 comprising each corner post provides the assembled system with side-to-side stability. Alternatively, one projection having substantial height may be used in place of the vertically spacedprojections 44 to provide similar side-to-side stability for the assembled system. - It will be appreciated that, when the
projections 44 are inserted between thevertical rods 24 comprising acorner post 18, at least some portion of theshelf 12 will be supported on thehorizontal rod 26. As shown in detail in Figure 5, the lowermost projection 44 and the end of themajor portion 42 of the lower most frame-formingrib 40 from which that projection is bent are both supported on thehorizontal rod 26 thus vertically to support theshelf 12. - The
lateral frame members 39 each comprise at least onetransverse rib 46 that extends transversely to the front andrear frame members 38. Thetransverse rods 46 comprise ahorizontal portion 48 to which additional mat-definingribs 54 of theobject support portion 36 are welded. In addition, thetransverse rods 46 each comprise at each end a connectingportion 50, which is bent downwardly at substantially a right angle with respect to thehorizontal portion 48. Connectingportions 50 are welded near the lateral extremes of themajor portions 42 ofribs 40 of the front andrear frame members 38. - Furthermore, a plurality of additional
transverse rods 56 are welded to the bottom of the mat-definingribs 54 of themat 36. The ends of thetransverse rods 56 are also bent downwardly substantially at a right angle with respect to the major portion of each welded to the bottom of theribs 54. The ends of thetransverse rods 56 are thus welded to theportions 42 of the front and rearframe member ribs 40 at spaced points along the lengths thereof. - The wires comprising the various frame members can be of a higher gauge than or the same gauge as the wires comprising the
object support portion 36. - It will again be appreciated that the shelf mat structure may be made by a continuous welding process in which, for example, the mat-defining
ribs 54 and front andrear frame ribs 40 are laid in parallel, and thetransverse ribs transverse ribs ribs 40 at each end thereof to depend from the major portion of the mat and define the front and rear frame members. Thereafter, the mat-forming wires are cut to shorter length to define the shelf mat, while the front and rearframe member ribs 40 are left longer and bent at 90 degrees to define theprojections 44. Of course, other orders of performing these manufacturing steps may be contemplated by those skilled in the art. - Turning now to Figure 5, a plastic snap-on
cover 58 is illustrated that is adapted to snap over the twoprojections 44 and the portion ofvertical rods 24 that are horizontally adjacent theprojections 44 when inserted between thevertical rods 24. More specifically, thecover 58 comprises acentral section 59 dimensioned to permit snapping over the ends of theprojections 44, and twoouter sections 61 dimensioned to permit snapping onto the portions of thevertical rods 24 adjacent theprojections 44. Accordingly, this cover provides an aesthetically pleasing appearance. - Figures 10 and 11 illustrate an accessory for the shelving system of the present invention in the form of a rear side-to-
side cross brace 45 that diagonally interconnects the opposing lateral supports. Thiscross brace 45 may be provided with a sheppard'shook 47 at each end, each of which embraces onehorizontal support 26 in the region of the rear corner posts 22 at the opposing top and bottom of the respectivevertical support structures 16. Of course, two such cross braces 45 may be provided at the rear of a shelving system assembly and would be arranged in an X-shaped configuration. - Figure 12 illustrates a second embodiment of the present invention, in which elements having the same structure or function as elements of the first embodiment are labelled with the same reference numerals. However, unlike the embodiment illustrated in detail in Figure 5, in which each corner of the
shelf 12 directly engages thevertical corner post 18, this second embodiment uses an intermediate snap-oncoupling member 90 for coupling the corner of theshelf 12 to thevertical corner post 18. Thecoupling member 90 comprises a base 91 formed with two vertically extendingchannels 93 that share acommon wall 95 and that are spaced to snap onto and embrace both of thevertical rods 24 comprising acorner post 18. Thecommon wall 95 is adapted to be inserted between thevertical rods 24. Facing theshelf 12 are a pair ofparallel flanges 97 that together define achannel 99 adapted to receive the depending end or connectingportion 50 of onetransverse rod 46 between theribs 40 of a front or back frame member. The upper most of theribs 40 is then carried on the tops 101 of theflanges 97 while the bottom of thehousing 90 is supported on ahorizontal rod 26 of avertical support structure 16, thereby to vertically support the shelf mat. - Figure 13 illustrates a third embodiment of the present invention. Again in this figure, elements having the same structure or function as elements of the first embodiment are labelled with the same reference numerals. This embodiment differs from the first embodiment in that the projections that are inserted between the
vertical rods 24 of each corner post are not projections bent fromribs 40 forming the front andrear frame members 38. Rather, extensions oftransverse rods 46 defining thelateral frame members 39 constitute the projections 44a to be inserted between thevertical rods 24 defining each corner post. - More specifically, the
lateral frame members 39 and the front andrear frame members 38 each comprise two vertically spacedribs ribs 40 of the front andrear frame members 38 are welded at a welding point to the respective spacedribs 46 of thelateral frame members 39. The welding point is spaced from the ends of thoseribs 46. Consequently, the extremes of theribs 46 of thelateral frame members 39 define the projections 44a which are inserted between adjacentvertical rods 24. As in the previous embodiments, the distance between the spacedvertical rods 24 and the dimensions of the projections 44a are such as to permit the insertion of the projections 44a between thevertical rods 24 while preventing substantial horizontal movement of the projections 44a when so inserted. In this embodiment as shown the end of the lowermost rib 40 is supported on thehorizontal rod 26. - In addition, this third embodiment is shown with an enhanced stiffening structure in the form of a generally sinuous or "snake-like"
wire 92 welded between theribs - Various modifications to the embodiments described above may be made by those skilled in the art. For example, one shelf configuration now contemplated incorporates the front and rear frame members each comprised of upper and lower spaced
wire ribs 40, bent at their opposing ends to formprojections 44, all as shown in Figures 1 and 5. A snake-like stiffening member 92, such as shown in Figure 13, is welded between these spaced wire ribs. A singlelateral frame wire 46 is provided at each side of the shelf and is welded to the undersides of theupper ribs 40 and of the mat-formingwires 54. The depending connectingportions 50 of theseframe wires 46 and the depending portions of each mat-formingwire 56, shown in Figure 1, are omitted. That is each of the frame wires and mat-forming wires terminates at and is welded to the bottom of theupper rib 40. - Thus, it will be appreciated that the present invention provides many improvements over known shelving systems, especially those for home use, in the areas of ease of assembly and low cost manufacture.
- Although specific embodiments of the present invention have been described above in detail, it will be understood that this description is merely for purposes of explanation. Modifications of the preferred embodiments in addition to those described above may be made by those skilled in the art without departing from the scope of the present invention which is set forth in the following claims.
Claims (28)
- A shelving system comprising:A. a shelf (12) including:(1) an object carrying portion (36) for carrying objects to be place on said shelf (12); and(2) a projection (44) connected to and projecting from said object support portion(36); andB. means (14) for supporting said shelf (12), including:(1) a pair of vertical supports (18) comprising two vertical support members (24) spaced by a distance sufficient to permit the insertion of said projection (44) therebetween but to prevent substantial horizontal movement of said projection (44) when said projection (44) is so inserted; and(2) a horizontal support (26), connected between said two vertical supports (18), adapted to support said at least one portion of said shelf (12) when said projection (44) is inserted between said two vertical support members (24).
- A subassembly for a shelving system comprising:A. a shelf (12) including:(1) an object carrying portion (36) for supporting objects; and(2) a projection (44) connected to and projecting from said object carrying portion (36); andB. two vertical supports (18) spaced by a distance sufficient to permit the insertion
of said projection (44) therebetween but to prevent substantial horizontal movement of said projection when said projection is inserted therebetween; andC. a horizontal support (26), connected between said two vertical supports (18), adapted to support at least a portion of said shelf (12) when said projection is inserted between said two vertical supports. - The shelving system recited in claim 1 or 2, wherein said shelf further comprises a frame surrounding and attached to said object carrying portion (36), and wherein said projection (44) projects from said frame.
- The shelving system recited in claim 3, wherein said frame comprises two lateral frame members (39) and front and rear frame members (38), wherein each of said front and rear frame members (38) is attached to said two lateral frame members (39), and wherein at least one of said front and rear frame members (38) is formed with said projection (44).
- The shelving system recited in claim 3, wherein said frame comprises two lateral frame members (39) and front and rear frame members (38) wherein each of said front and rear frame members is attached to said two lateral frame members, and wherein one of said lateral frame members (39) is formed with said projection (44).
- The shelving system recited in anyone of claims 3 to 5, wherein said frame comprises two vertically spaced ribs (40,46), wherein said projection (44) comprises an end portion of one of said ribs, and wherein said shelving system further comprises another projection protruding from said frame and comprising an end portion of the other of said ribs.
- The shelving system recited in claim 6, further comprising a plurality of transverse rods (56) connecting said two vertically spaced ribs at spaced points along the length thereof.
- The shelving system recited in claim 7, wherein said object carrying portion (36) comprises a plurality of substantially parallel ribs (54), wherein the ends of each parallel rib are attached to said frame, wherein each transverse rod (56) is attached to the bottom of each of said parallel ribs (54), and where in the portion of each transverse rod (56) which connects said two vertically spaced ribs (54) of said frame extends at substantially a right angle to the portion of each transverse rod (56) which is attached to the bottom of each of said parallel ribs (54).
- The shelving system recited in anyone of claims 6 to 8, further comprising a generally sinuously formed stiffening element (92) connecting said two vertically spaced ribs (40,46) at spaced points along the length thereof.
- The shelving system recited in anyone of claims 6 to 9, wherein said frame comprises front and rear frame members (38), wherein at least one of said front and rear frame members comprises two said vertically spaced ribs (40), and wherein said end portion of each of said ribs comprising said projection (44) is bent substantially horizontally at approximately a right angle with respect to a remaining portion of each of said ribs (40,46).
- The shelving system recited in anyone of claims 6 to 9, wherein said frame comprises two lateral frame members (39) on each lateral side of said object carrying portion (36) of said shelf mat, wherein at least one of said lateral frame members (39) comprises said two vertically spaced ribs (46), and wherein said end portion of each of said ribs comprising said projection (44) extends in the same direction as a remaining portion of each of said ribs.
- The shelving system recited in anyone of claims 3 to 11, wherein said frame comprises a plurality of metal wire rods (54), wherein said object carrying portion (36) comprises a plurality of metal wire rods (54), and wherein each of said rods of said object carrying portion (36) is attached by welding to two rods (46) of said frame.
- The shelving system recited in claim 1 or 2, wherein said shelf is rectangular and further comprises:
additional projections connected to and projecting from said object carrying portion at each corner of said shelf;
and a plurality of pairs of vertical supports (18), each pair being positionable adjacent one said corner of said shelf and comprising two vertical support members (24) spaced by a distance sufficient to permit the insertion of one of said projections (44) therebetween but to prevent substantial horizontal movement of said one of said projections when inserted between said two vertical support members (24); and
a plurality of horizontal supports (26) connected to said vertical supports (18), each adapted to support at least a portion of said shelf when a projection is inserted between two said vertical supports comprising one said pair. - The shelving system recited in claim 13, wherein at least two horizontal supports (26) are connected between two pairs of said vertical support members (24) thereby to form a unitary lateral support structure (16) for supporting one end of said shelf (12).
- The shelving system recited in claim 14, wherein said pairs of vertical support members (24) comprise two front pairs of vertical support members and two rear pairs of vertical supports, and wherein each unitary structure (16) comprises a front pair of vertical support members and a rear pair of vertical support members.
- The shelving system recited in anyone of claims 1 to 15, further comprising a snap-on cover (58) adapted to snap over said projection (44) and the portion of said pair of vertical support members (24) horizontally adjacent said projection when said projection is inserted between said vertical support members.
- The shelving system recited in anyone of claims 1 to 16, wherein said shelf further comprises a frame surrounding and attached to said object carrying portion, and wherein said projection comprises a detachable snap-on element (90) adapted to snap onto a portion of said frame and adapted to snap onto each of said two vertical supports (18), said snap-on element including a first surface engageable on said horizontal support and a second surface engageable on said frame thereby to vertically support said shelf on said support means.
- A shelf (12) for a shelving system configured to be supported by at least one pair of spaced vertical supports (18) connected by a horizontal support (26), said shelf comprising:
a frame comprising a plurality of ribs (40,46), wherein one of said ribs comprises two projections
(44) projecting in the same direction beyond the outer periphery of said frame, wherein each projection (44) is sufficiently narrow to permit insertion thereof between the pair of spaced vertical supports (18) but is sufficiently wide to permit no substantial horizontal movement when inserted between the pair of spaced apart vertical supports; and
a plurality of ribs (54) attached to and extending within said frame to define an object
carrying surface for supporting objects to be placed on said shelf. - The shelf recited in claim 18, further comprising:
a plurality of transverse rods (46) extending transversely to and connected to the bottom of said plurality of ribs (54) defining said object carrying surface,
wherein another of said ribs (46) comprises two projections projecting in the same direction beyond the outer periphery of said frame,
wherein said ribs (46) comprising two projections (44) are vertically spaced and are connected at a plurality of points along the length thereof by said plurality of transverse rods, and
wherein the portion of each transverse rod which connects said ribs comprising two projections extends at substantially a right angle to the portion of each transverse rod which is attached to the bottom of each of said plurality of ribs (54) defining said object support surface. - The shelf recited in claim 18, wherein said rib comprising two projections includes:
a portion extending along at least apart of the outer periphery of said frame,
wherein said two projections (44) extend beyond the outer periphery of said frame,
and
wherein each of said two projections are bent horizontally at approximately a right angle to said portion extending along at least a part of the outer periphery of said frame. - The shelf recited in claim 18,
wherein said frame further comprises two lateral frame members (39), a front frame member (38), and a rear frame member (38),
wherein each of said two lateral frame members, said front frame member and said rear frame member comprise a plurality of ribs (40,46),
wherein each of said front and rear frame members (38) are welded to said two lateral frame members (39),
wherein said front and rear frame members (38) each comprise a plurality of transverse rods (56) and two vertically spaced ribs (40) connected by said plurality of transverse rods along the length thereof, and
wherein each of said two vertically spaced ribs comprises two of said projections projecting in the same direction beyond the outer periphery of said frame. - The shelf recited in claim 21,
wherein said front and rear frame members each comprise a generally sinuously bent element (92) and two vertically spaced ribs (40,46) connected by said sinuously bent element (92) along the length thereof, and
wherein each of said two vertically spaced apart ribs comprises said two projections projecting in the same direction beyond the outer periphery of said frame. - A method of manufacturing a wire shelf for a modular shelving system, said method comprising the steps of:
laying a plurality of mat-defining wires (54) in parallel relation, substantially in one plane;
placing a plurality of transverse rod-defining wires (56) in mutually spaced parallel relation adjacent said mat-defining wires in perpendicular relation thereto;
welding said plurality of mat-defining wires (54) and said pluralityof transverse rod-defining wires (56) together at the points of adjacency;
bending said transverse rod-defining wires (56) in the regions of their opposing ends so
that at least one mat-defining wire at each said opposing end is not positioned in the plane formed by the remainder of said mat-defining wires (54); said one mat-defining wire at each said opposing end of said transverse rod-defining wires, in conjunction with the mat-defining wire adjacent thereof, forming a frame member for said shelf; and
bending said one mat-defining wire (40) at its opposing ends to form a projection (44)
from said shelf at each of said ends thereof. - The method according to claim 23, further comprising the step of bending each said projection (44) at an angle from the remaining portion of each said one mat-defining wire (40).
- The method according to claims 23 or 24, wherein one of said plurality of mat-defining wires (54) and said plurality of transverse rod-defining wires (56) is essentially continuous, and further comprising the step of;
cutting said plurality of continuous wires to length substantially dual to one of the lateral and longitudinal dimension of said shelf, prior to said bending step. - A method of manufacturing a vertical wire support for a modular shelving system, said method comprising the steps of:
laying a plurality of horizontal support-defining wires (26) in parallel relation, substantially in one plane;
placing a first pair of vertical corner post-defining wires (24) in mutually spaced parallel relation adjacent said horizontal support-defining wires (26) in perpendicular relation thereto;
placing a second pair of vertical corner post-defining wires (24) in mutually spaced parallel relation adjacent said horizontal support-defining wires in perpendicular relation thereto and spaced from said first pair, one of said plurality of horizontal support-defining wires and said pairs of vertical corner post-defining wires being essentially continuous;
welding said pairs of corner post-defining wires (24) and said plurality of horizontal support-defining wires (26) together at the points of adjacency;
cutting said continuous wires to lengths substantially equal to one of the lateral and vertical dimension of said vertical wire support; and
bending said horizontal support-defining wires in the regions of their opposing ends so
that each pair of corner post-defining wires (24) lies in a plane not parallel to the plane defined by the remaining portions of said horizontal support-defining wires (26). - The method according to claim 26, wherein said planes in which said pairs of corner post-defining wires (24) lie are substantially parallel and mutually perpendicular to the plane defined by said remaining portions of said horizontal support-defining wires (26).
- The method according to claim 26 or 27, further comprising the step of welding a wire cross brace (28) to said vertical wire support structure extending at a non-perpendicular angle to said horizontal support-defining wires (26).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US66902691A | 1991-03-13 | 1991-03-13 | |
US669026 | 1991-03-13 |
Publications (1)
Publication Number | Publication Date |
---|---|
EP0503641A1 true EP0503641A1 (en) | 1992-09-16 |
Family
ID=24684720
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP92104306A Withdrawn EP0503641A1 (en) | 1991-03-13 | 1992-03-12 | Modular wire shelving system and methods for making shelves and vertical supports incorporated therein |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0503641A1 (en) |
JP (1) | JPH05192229A (en) |
CA (1) | CA2062912A1 (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2734138A1 (en) * | 1995-04-25 | 1996-11-22 | Chenel Guy G | Partition for temporary demonstration made from panels to which objects can be hooked |
FR2734137A1 (en) * | 1995-04-25 | 1996-11-22 | Chenel Guy G | Partition for exhibition stand made from panels |
GB2340733A (en) * | 1998-07-28 | 2000-03-01 | Hsin Chen Yang | A fixing for horizontal frames in racking |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6526897B1 (en) * | 2000-09-21 | 2003-03-04 | V. John Ondrasik | Shelving system |
US7249442B2 (en) * | 2005-04-11 | 2007-07-31 | Ridg-U-Rak, Inc. | Storage rack vibration isolators and related storage rack systems |
JP2011160952A (en) * | 2010-02-09 | 2011-08-25 | Protrend Co Ltd | Combined structure of two-wire side racks and shelf members of collapsible rack |
KR102022027B1 (en) * | 2018-04-05 | 2019-09-17 | 최문규 | Self-assembly shelves |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3138123A (en) * | 1961-07-25 | 1964-06-23 | Maslow Louis | Knockdown shelving unit |
US3146735A (en) * | 1962-05-21 | 1964-09-01 | Kesilman Sol | Shelving device |
US3183862A (en) * | 1963-12-10 | 1965-05-18 | Monticello Mfg Corp | Foldable display device |
US3743105A (en) * | 1971-03-18 | 1973-07-03 | M David | Merchandise display apparatus |
FR2590144A1 (en) * | 1985-11-15 | 1987-05-22 | Lacroix Bruno | Exhibition equipment structure made from tubular elements assembled with one another |
-
1992
- 1992-03-12 EP EP92104306A patent/EP0503641A1/en not_active Withdrawn
- 1992-03-12 CA CA002062912A patent/CA2062912A1/en not_active Abandoned
- 1992-03-13 JP JP5522492A patent/JPH05192229A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3138123A (en) * | 1961-07-25 | 1964-06-23 | Maslow Louis | Knockdown shelving unit |
US3146735A (en) * | 1962-05-21 | 1964-09-01 | Kesilman Sol | Shelving device |
US3183862A (en) * | 1963-12-10 | 1965-05-18 | Monticello Mfg Corp | Foldable display device |
US3743105A (en) * | 1971-03-18 | 1973-07-03 | M David | Merchandise display apparatus |
FR2590144A1 (en) * | 1985-11-15 | 1987-05-22 | Lacroix Bruno | Exhibition equipment structure made from tubular elements assembled with one another |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2734138A1 (en) * | 1995-04-25 | 1996-11-22 | Chenel Guy G | Partition for temporary demonstration made from panels to which objects can be hooked |
FR2734137A1 (en) * | 1995-04-25 | 1996-11-22 | Chenel Guy G | Partition for exhibition stand made from panels |
GB2340733A (en) * | 1998-07-28 | 2000-03-01 | Hsin Chen Yang | A fixing for horizontal frames in racking |
GB2340733B (en) * | 1998-07-28 | 2001-11-21 | Hsin Chen Yang | Component assembly of rack |
Also Published As
Publication number | Publication date |
---|---|
CA2062912A1 (en) | 1992-09-14 |
JPH05192229A (en) | 1993-08-03 |
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