CN214711304U - Laminate structure for goods shelf - Google Patents

Abstract

A shelf board structure comprises a board body including a board panel, a pair of buckling folded plates, a first positioning folded plate and a second positioning folded plate respectively bent at the side part of the board panel, a reinforcing rib tube arranged on one side surface of the board panel and extending in parallel with the first positioning folded plate and located between the buckling folded plates, the both sides at the strengthening rib pipe are formed with the laminating pterygoid lamina, a side surface of strengthening rib pipe and a side surface of plywood panel paste and touch, strengthening rib pipe length direction's both ends tip is formed with the block chamber with establishing between the block folded plate of its both sides, the both ends tip of laminating pterygoid lamina length direction has the laminating pterygoid lamina locating piece towards outside extension in the direction of keeping away from the strengthening rib pipe, the laminating pterygoid lamina locating piece is visited into the block intracavity, first, a portion of second location folded plate length direction all is formed with first, the second supporting folded plate towards the inboard. The bearing capacity of the laminated plate is improved, the transportation space is saved, the transportation efficiency is improved, and the transportation cost is reduced; the service life is prolonged.

Description

Laminate structure for goods shelf

Technical Field

The utility model belongs to the technical field of commercial facility, concretely relates to plywood structure for goods shelves.

Background

The shelf laminate can also be called as a shelf partition or a storage shelf storage plate, and with the automation of logistics and the high mechanization of production, the supply and distribution of materials are inevitably required to be timely, rapid and accurate, so that the stereoscopic warehouse technology is promoted to be rapidly developed, and the shelf is also increasingly becoming indispensable important equipment in modern industrial production. The shelf is a shelf for placing various goods in a warehouse flow, and is widely used in places such as a self-service store, a convenience supermarket, a warehouse, and the like, and published chinese patent documents do not lack related technical information about the shelf, and examples thereof include entitled publication nos. CN104305735A (shelf), CN202287153U (shelf column structure), CN202287359U (shelf column), CN202287361U (shelf), CN202302692U (matching structure of bottom beam and column of shelf), CN105640094A (assembled shelf), and the like.

Through reading and combining the professional knowledge in this field to not being limited to the patent document who lists above and can know, the most bearing of goods shelves plywood is on two trailing arms of being connected with the goods shelves stand, and the plywood is free flat structure, need carry out fixed mounting with every plywood in order to prevent that it from rocking and causing unnecessary trouble in the transportation of plywood, whole process of laying is very loaded down with trivial details, and the plywood of one is stacked and is taken up the transportation space very much, it is not high to cause conveying efficiency, be unfavorable for reducing whole cost of transportation.

In view of the above, there is a need for a reasonable improvement of existing shelf laminate structures. The applicant has therefore made an advantageous design, in the context of which the solution to be described below is made.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a thereby block that helps realizing two plywood bodies stacks and optimizes the combination configuration and practices thrift the transportation space and improve conveying efficiency simultaneously, has the goods shelves plywood structure that is convenient for adopt color-coated sheet, galvanized sheet or corrosion resistant plate to make the goods shelves plywood have good acid-proof rust resistance and increase life.

The utility model aims at achieving like this, a shelf laminate structure, including the plywood body, this plywood body is including a plywood panel that is the rectangle shape structure, its characterized in that: the laminated board panel is characterized in that the edge positions of the opposite side edges of two sides of the laminated board panel are respectively bent to form a clamping folded plate, the edge positions of the opposite side edges of the other two sides of the laminated board panel are respectively bent to form a first positioning folded plate I and a second positioning folded plate II, the clamping folded plate, the first positioning folded plate I and the second positioning folded plate II are all in a vertical state with the laminated board panel, at least one reinforcing rib pipe is fixedly arranged on the surface of one side of the laminated board panel, the reinforcing rib pipe extends in a state of being parallel to the first positioning folded plate I of the laminated board panel and is arranged between the pair of clamping folded plates, two sides of the reinforcing rib pipe in the length direction are respectively provided with a joint wing plate, one surface of the reinforcing rib pipe is contacted with one surface of the laminated board panel, and a clamping cavity is formed between the end parts of the reinforcing rib pipe in the length direction and the clamping folded plates arranged on the two sides of the reinforcing rib pipe, the both ends tip of laminating pterygoid lamina length direction is keeping away from the direction of strengthening the muscle pipe is formed with a laminating pterygoid lamina locating piece towards outside extension, and this laminating pterygoid lamina locating piece is visited into the block intracavity, just first location folded plate I, II length direction's of second location folded plate a portion all is formed with first supporting folded plate I, second supporting folded plate II towards the inboard.

In a specific embodiment of the present invention, the reinforcing rib pipe includes reinforcing rib pipe side plates disposed on both sides thereof, and the pair of reinforcing rib pipe side plates are symmetrically disposed along the vertical center line of the reinforcing rib pipe, and one side edge of the pair of reinforcing rib pipe side plates in the length direction is connected to the attaching wing plate and is constituted as an integral structure, and the other side edge of the pair of reinforcing rib pipe side plates in the length direction is formed with a reinforcing rib pipe connecting plate connecting the two.

In another specific embodiment of the present invention, the reinforcing rib tube connecting plate length direction of the reinforcing rib tube is close to one side edge of the first positioning folded plate i and the horizontal distance between the first positioning folded plate i are a, and the horizontal distance between the joint of the reinforcing rib tube side plate of the inner side of another reinforcing rib tube symmetrically arranged along the horizontal central line of the laminate panel and the reinforcing rib tube and the laminating wing plate and the inner side edge of the second supporting folded plate ii is b, and the horizontal distance b is equal to or slightly greater than the horizontal distance a.

In a further specific embodiment of the present invention, the width of the engaging cavity is equal to or slightly greater than the width of the engaging flap.

In another specific embodiment of the present invention, a locking flap protection portion extending along a length direction of the locking flap is formed at an end portion of the locking flap, the end portion being away from the laminate panel.

The utility model discloses a still a specific embodiment first supporting folded plate fixed orifices I has been seted up to I length direction's of first supporting folded plate both ends proximal end portion position department, and second supporting folded plate fixed orifices II has been seted up to II length direction's of second supporting folded plate both ends proximal end portion position department.

In yet another specific embodiment of the present invention, locking holes are formed in the proximal end portions of the two ends of the locking flap in the length direction.

In a more specific embodiment of the present invention, a first positioning flap locking hole i is disposed at a position of a proximal end portion of each of two ends of the first positioning flap in the length direction, and a second positioning flap locking hole ii is disposed at a position of a proximal end portion of each of two ends of the second positioning flap in the length direction.

In yet another specific embodiment of the present invention, at least one reinforcing rib pipe reinforcing groove is convexly formed on the reinforcing rib pipe connecting plate of the reinforcing rib pipe along the length direction, and the cross-sectional shape of the reinforcing rib pipe is a quadrilateral shape which is axisymmetric.

In a still more specific embodiment of the present invention, the laminate body is made of a metal plate, and the metal plate is a color-coated plate, a galvanized plate or a stainless steel pipe.

The utility model provides a technical scheme is for prior art's technological effect: firstly, the two laminate bodies can be vertically clamped and stacked, namely, the clamping folded plate on the left side of the upper laminate body is clamped and installed in the clamping cavity on the left side of the lower laminate body, and the clamping folded plate on the right side of the lower laminate body is clamped and installed in the clamping cavity on the right side of the upper laminate body, so that the occupied space of the original two laminate bodies is optimized into one, the transportation space is greatly saved, the transportation efficiency is improved, and the transportation cost is reduced; secondly, because the color-coated sheet, the galvanized sheet or the stainless steel sheet is adopted to support the laminate body, the laminate body has good acid-proof and rust-proof properties and the service life is prolonged.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of the present invention.

Fig. 2 is an overall perspective view of the two laminate bodies shown in fig. 1 when they are engaged with each other.

Fig. 3 is an exploded perspective view of the two laminate bodies of fig. 1 in engagement with each other.

Fig. 4 is a perspective cross-sectional view of the two laminate bodies shown in fig. 1 when interengagement is achieved.

FIG. 5 is a plan cross-sectional view of the two laminate bodies shown in FIG. 1 when interengagement is achieved.

Fig. 6 is an application diagram of the embodiment shown in fig. 1.

FIG. 7 is a schematic view of the laminate body of FIG. 6 in combination with a beam.

Fig. 8 is a schematic diagram of a second embodiment of the present invention.

Fig. 9 is a schematic view of a third embodiment of the present invention.

In the figure: 1. the laminated board comprises a laminated board body, 11 laminate panels, 12 clamping folded plates, 121 clamping folded plate protection parts, 122 clamping folded plate locking holes, 13 first positioning folded plates I and 131, first supporting folded plates I and 1311, first supporting folded plate fixing holes I and 132, first positioning folded plate locking holes I and 14, second positioning folded plates II and 141, second supporting folded plates II and 1411, second supporting folded plate fixing holes II and 142, second positioning folded plate locking holes II and 15, reinforcing rib pipes, 151, a laminating wing plate, 1511, a laminating wing plate positioning block, 152, a reinforcing rib pipe side plate, 153, a reinforcing rib pipe connecting plate, 1531, a reinforcing rib pipe reinforcing groove and 16 clamping cavities; 2. the beam connector comprises a beam, 21 beam step plates, 211 beam step plate locking holes and 22 beam connectors; 3. and (5) pulling the nail.

Detailed Description

The following is a detailed description by way of example, but the description of the example is not intended to limit the scope of the present invention, and any equivalent changes made according to the present invention, which are merely formal and insubstantial, should be considered as technical solutions of the present invention.

In the following description, all the concepts related to the directionality or the directionality of up, down, left, right, front, rear, and the like are based on the positions shown in the respective drawings, and thus, they should not be construed as particularly limiting the technical solution provided by the present invention.

The first embodiment is as follows:

referring to fig. 1 to 7, there is shown a shelf laminate structure including a laminate body 1, the laminate body 1 including a laminate panel 11 having a rectangular configuration; as the technical essential of the utility model: a clamping folded plate 12 is formed by bending the long edge of the laminated plate panel 11, a first positioning folded plate I13 and a second positioning folded plate II 14 are formed by bending the two short edge of the laminated plate panel 11, the clamping folded plate 12, the first positioning folded plate I13 and the second positioning folded plate II 14 are all perpendicular to the laminated plate panel 11, at least one reinforcing rib pipe 15 is fixedly arranged on one side surface of the laminated plate panel 11, as shown in figure 1, the number of the reinforcing rib pipes 15 is four, but certainly three, five or the like, the reinforcing rib pipes 15 extend in a direction parallel to the short edge of the laminated plate panel 11 and are arranged between the pair of clamping folded plates 12, a joint wing plate 151 is respectively formed on two sides of the reinforcing rib pipes 15 in the length direction, one side surface of the reinforcing rib pipes 15 is contacted with one side surface of the laminated plate panel 11, a fastening cavity 16 is formed between the end portions of the two ends of the reinforcing rib tube 15 in the length direction and the fastening folding plates 12 arranged at the two sides of the reinforcing rib tube, a fastening wing plate positioning block 1511 is formed by extending the end portions of the two ends of the fastening wing plate 151 in the length direction outward away from the reinforcing rib tube 15, the fastening wing plate 151 is connected and fixed with the laminate panel 11 in an adhesive or welding manner, the fastening wing plate positioning block 1511 extends into the fastening cavity 16, the length of the fastening wing plate 151 is greater than the length of the body of the reinforcing rib tube 15, so that the fastening wing plate positioning block 1511 can effectively ensure that when the reinforcing rib tube 15 is installed, a gap can be formed between the end portions of the two ends of the reinforcing rib tube 15 in the length direction and the fastening folding plates 12, thereby preventing the fastening cavity 16 from being incapable of being formed or being blocked, and the first supporting folding plate i 131, the first supporting folding plate ii 14 are formed towards the inner side at the upper portions in the length direction, And a second support flap ii 141.

In this embodiment, the bead tube 15 includes a pair of bead tube side plates 152 disposed at both sides thereof, the pair of bead tube side plates 152 are symmetrically disposed along a vertical center line of the bead tube 15, one side edge of the pair of bead tube side plates 152 in a length direction is connected to the attachment flange 151 to form an integrated structure, and a bead tube connecting plate 153 for connecting the both is formed at the other side edge of the pair of bead tube side plates 152 in the length direction.

Referring to fig. 3 and 5, a horizontal distance between one side edge of the reinforcing rib tube connecting plate 153 of the reinforcing rib tube 15 in the length direction near the first positioning flap i 13 and the first positioning flap i 13 is a, and a horizontal distance between a joint of the reinforcing rib tube side plate 152 and the attaching wing plate 151 of the inner side of another reinforcing rib tube 15 symmetrically arranged on the laminate panel 11 along the horizontal center line thereof and the reinforcing rib tube 15 and the inner side edge of the second supporting flap ii 141 is b, which is equal to or slightly greater than the horizontal distance a. The aim at that sets up like this, when two plywood bodies 1 that the structure is the same about need the block to stack, for example set up plywood body 1 below and need be for the plywood body 1 upset 180 degrees of top, thereby set up the stiffener pipe 15 of plywood body 1 of top and a stiffener pipe 15 of plywood body 1 of below that the horizontal central line of plywood body 1 symmetry was installed this moment and can laminate each other and realize two plywood body 1's block stack about realizing.

Further, the width of the engaging cavity 16 is equal to or slightly larger than the width of the engaging flap 12.

Referring to fig. 2 to 5, when transportation is required, the engaging flap 12 on the left side of the upper layer plate body 1 is engaged and installed in the engaging cavity 16 on the left side of the lower layer plate body 1, the clamping folded plate 12 at the right side of the lower layer plate body 1 is clamped and installed in the clamping cavity 16 at the right side of the upper layer plate body 1, at the moment, the first positioning folded plate I13 at the front side of the upper layer plate body 1 is jointed with the second supporting folded plate II 142 at the front side of the lower layer plate body 1, and the second supporting folded plate II 141 at the rear side of the upper laminate body 1 is attached to the first positioning folded plate I13 at the rear side of the lower laminate body 1, and at the moment, the reinforcing rib pipe 15 of the upper laminate body 1 is attached to a reinforcing rib pipe 15 of the lower laminate body 1 symmetrically arranged with respect to the horizontal center line of the laminate body 1, so that the upper laminate body 1 and the lower laminate body 1 with the same structure are clamped and stacked.

Preferably, an engaging flap guard 121 is formed at an end of the engaging flap 12 in the longitudinal direction away from the laminate panel 11 and extends in the longitudinal direction.

In this embodiment, first support flap fixing holes i 1311 are formed in the first support flap i 131 at the longitudinal proximal end portions thereof, and second support flap fixing holes ii 1411 are formed in the second support flap ii 141 at the longitudinal proximal end portions thereof.

Further, first positioning flap locking holes i 132 are formed in the longitudinal proximal end portions of the first positioning flaps i 13, and second positioning flap locking holes ii 142 are formed in the longitudinal proximal end portions of the second positioning flaps ii 14.

Further, at least one bead tube reinforcing groove 1531 is provided in the bead tube connecting plate 153 of the bead tube 15 so as to protrude in the longitudinal direction, and in the present embodiment, as shown in fig. 5, the cross-sectional shape of the bead tube 15 is trapezoidal, but it should be noted that the cross-sectional shape of the bead tube 15 is not limited, and may be a rectangular shape having an axisymmetric quadrilateral shape as long as it is possible to satisfy the condition that the bead tubes 15 of the pair of laminate bodies 1 can be joined to each other when the pair of laminate bodies 1 is engaged and assembled. Preferably, the laminate body 1 is made of a metal plate, and the metal plate is a color-coated plate, a galvanized plate or a stainless steel pipe.

Referring to fig. 6 and 7, a pair of plate bodies 1 and a pair of beams 2 are shown to be engaged with each other, beam connectors 22 fixedly connected to shelf uprights are formed at both ends of the beams 2 in the length direction, and related technical information on the fixed connection of the beams 2 and the shelf uprights can be referred to the "shelf upright structure" recommended by chinese patent No. CN202287153U, a beam step plate 21 extending along the length direction is formed on the beam 2, a beam step plate locking hole 211 is formed on the beam step plate 21, the plate body 1 is placed on the pair of beams 2, both ends of a first support flap i 131 and a second support flap ii 141 of the plate body 1 are placed on the corresponding beam step plate 21 of one beam 2, respectively, and the first support flap locking hole i 1311 and the second support flap locking hole ii 1411 correspond to the beam step plate locking hole 211, and a rivet 3 is arranged in the beam step plate locking hole 211, the upper part of the rivet 3 passes through the first supporting folded plate locking hole I131 or the second supporting folded plate locking hole II 1411, and the first supporting folded plate I131 or the second supporting folded plate II 141 and the beam step plate 21 are connected and fixed, so that the connection and the fixation of the laminated plate body 1 and the beam 2 are realized.

Example two:

referring to fig. 8, in the present embodiment, the difference from the first embodiment is: fastening flap locking holes 122 are formed at the proximal end positions of both ends of the fastening flap 12 in the length direction; when plywood body 1 used as solitary thing shelf use this moment, it is visible according to professional general knowledge, this plywood body 1 can be directly through bolt or other connecting pieces and the stand fixed connection who sets up the hanging hole on the stand body, convenient and practical.

In this embodiment, other technical features are the same as those of the first embodiment except that the technical features are different from those of the first embodiment.

Example three:

referring to fig. 9, in the present embodiment, different from the first embodiment, the engaging flap 12 is not provided with the engaging flap locking hole 122 at the proximal end portion of the two ends in the length direction, the first positioning flap i 13 is not provided with the first positioning flap locking hole i 132 at the proximal end portion of the two ends in the length direction, the second positioning flap ii 14 is not provided with the second positioning flap locking hole ii 142 at the proximal end portion of the two ends in the length direction, and the engaging flap 12, the first positioning flap i 13 and the second positioning flap ii 14 are all smooth-surfaced panels.

In this embodiment, other technical features are the same as those of the first embodiment except that the technical features are different from those of the first embodiment.

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (10)

1. The utility model provides a shelf laminate structure, includes plywood body (1), and this plywood body (1) is including one plywood panel (11) that is the rectangle shape structure, its characterized in that: the laminated board panel comprises a laminated board panel (11), wherein the two opposite side edge positions of the two sides of the laminated board panel (11) are respectively bent to form a clamping folded plate (12), the other opposite side edge positions of the two sides of the laminated board panel (11) are respectively bent to form a first positioning folded plate I (13) and a second positioning folded plate II (14), the clamping folded plate (12), the first positioning folded plate I (13) and the second positioning folded plate II (14) are all in a vertical state with the laminated board panel (11), at least one reinforcing rib pipe (15) is fixedly arranged on one side surface of the laminated board panel (11), the reinforcing rib pipe (15) extends in a state parallel to the first positioning folded plate I (13) of the laminated board panel (11) and is arranged between the clamping folded plates (12), and two attaching wing plates (151) are respectively formed on the two sides of the reinforcing rib pipe (15) in the length direction, one side surface of this strengthening rib pipe (15) is pasted with one side surface of plywood panel (11) and is touched together, just strengthening rib pipe (15) length direction's both ends tip all is formed with a block chamber (16) between block folded plate (12) of its both sides with setting up, laminating pterygoid lamina (151) length direction's both ends tip is keeping away from the direction of strengthening rib pipe (15) is extending outward and is formed with a laminating pterygoid lamina locating piece (1511), and this laminating pterygoid lamina locating piece (1511) is visited in block chamber (16), just a first location folded plate I (13), second location folded plate II (14) length direction's a portion all is formed with first supporting folded plate I (131), second supporting folded plate II (141) towards the inboard.

2. The shelf laminate structure as set forth in claim 1 wherein the reinforcing bar pipe (15) comprises reinforcing bar pipe side plates (152) disposed at both sides thereof, and the pair of reinforcing bar pipe side plates (152) are symmetrically disposed along a vertical center line of the reinforcing bar pipe (15), and one side edge of the pair of reinforcing bar pipe side plates (152) in a length direction is connected to the attachment wing plate (151) and is formed as an integral structure, and the other side edge of the pair of reinforcing bar pipe side plates (152) in the length direction is formed with a reinforcing bar pipe connecting plate (153) connecting the two.

3. The shelf laminate structure as claimed in claim 2 wherein the horizontal distance between one side edge of the reinforcing rib tube connecting plate (153) of the reinforcing rib tube (15) adjacent to the first positioning flap i (13) and the first positioning flap i (13) in the longitudinal direction is a, and the horizontal distance between the joint of the reinforcing rib tube side plate (152) and the attaching wing plate (151) of the inner side of another reinforcing rib tube (15) symmetrically disposed on the laminate panel (11) along the horizontal center line thereof and the reinforcing rib tube (15) and the inner side edge of the second support flap ii (141) is b, which is equal to or slightly greater than the horizontal distance a.

4. Shelf laminate structure as claimed in claim 1, characterized in that the width of the snap-in cavities (16) is equal to or slightly larger than the width of the snap-in flaps (12).

5. The shelf laminate structure as defined in claim 1 wherein a locking flap guard portion (121) extending in the longitudinal direction is formed at an end portion of the locking flap (12) in the longitudinal direction which is remote from the laminate panel (11).

6. The shelf laminate structure as claimed in claim 1, wherein first support flap fixing holes i (1311) are formed at the proximal end portions of both ends in the longitudinal direction of said first support flaps i (131), and second support flap fixing holes ii (1411) are formed at the proximal end portions of both ends in the longitudinal direction of said second support flaps ii (141).

7. The shelf laminate structure as claimed in claim 1 wherein the snap flap (12) is provided with snap flap locking holes (122) at the proximal end portions of the longitudinal ends thereof.

8. The shelf laminate structure as claimed in claim 1 wherein first positioning flap locking holes I (132) are formed at the proximal end portions of both ends in the longitudinal direction of said first positioning flap I (13), and second positioning flap locking holes II (142) are formed at the proximal end portions of both ends in the longitudinal direction of said second positioning flap II (14).

9. The laminate structure for a shelf as claimed in claim 1, wherein at least one reinforcing groove (1531) for reinforcing bar tube is formed on the reinforcing bar tube connecting plate (153) of the reinforcing bar tube (15) in a protruding manner in the longitudinal direction, and the cross-sectional shape of the reinforcing bar tube (15) is a quadrangular shape having axial symmetry.

10. The shelf laminate structure as claimed in claim 1, wherein the laminate body (1) is made of a metal plate, and the metal plate is a color-coated plate, a galvanized plate or a stainless steel pipe.

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