CN222290135U - Plate shelves - Google Patents

Abstract

The utility model relates to the technical field of shelves, and in particular to a plate shelf, which comprises a blocking unit, a connecting unit and at least two shelf bodies, wherein the shelf bodies are arranged at intervals and enclosed to form a walking space, and a plate placement opening is arranged on a side of each shelf body close to the walking space. During the process of stacking plates, a worker or a transporter can walk in the walking space and place the plates on each shelf body through the plate placement opening to achieve plate stacking. The blocking unit is arranged on each shelf body and is opposite to the plate placement opening. The blocking unit can block the plates placed in the shelf body, thereby facilitating the placement of the plates and preventing the plates from falling out of the shelf body. The connecting unit can connect the shelf bodies into one by being connected to the shelf bodies, thereby improving the stability of the shelf bodies and preventing the collapse of the shelf bodies.

Description

Plate goods shelf

Technical Field

The utility model relates to the technical field of shelves, in particular to a plate shelf.

Background

In the machining process, plates such as steel plates are used, so that the disorder of the plates is avoided, the operation passage of workshops is influenced, and the production is not facilitated, and therefore, the plates to be machined are generally stacked on a shelf.

The utility model discloses a goods shelves for placing panel as disclosed in patent document of publication number CN209097221U, this panel goods shelves through setting up baffle and bottom plate, can make things convenient for placing of panel, and through reserving the distance between a plurality of drum structure's first blend stop, can realize that different kinds of panel keep apart, improved the convenience of getting of panel put greatly.

Although the existing plate goods shelves are arranged to facilitate stacking of plates, due to the fact that the width of the plate goods shelves is narrow, stability is poor, and potential safety hazards of collapse exist.

Disclosure of utility model

In view of the foregoing, it is necessary to provide a plate shelf, which solves the technical problem of lower stability of the plate shelf in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a plate goods shelf, which comprises:

The plate placing device comprises at least two shelf bodies, wherein the shelf bodies are arranged at intervals and are enclosed to form a walking space, a plate placing opening is formed in one side, close to the walking space, of each shelf body, and each shelf body is used for supporting a plate placed in the plate placing opening;

The blocking units are arranged on the shelf bodies and are opposite to the plate placing openings and used for blocking plates placed in the plate placing openings;

And the connecting unit is connected with each goods shelf body.

In some embodiments, each shelf body includes a plurality of frames, a plurality of supporting modules, and a top beam, each frame is relatively disposed, the board placement openings are disposed between each frame, each supporting module is disposed at intervals along a height direction of each frame, and is configured to provide support for boards placed in the board placement openings, and the top beam is connected to two adjacent frames.

In some embodiments, each shelf body further includes a plurality of pull rod assemblies, and each pull rod assembly is disposed at intervals along the height direction of the frame body and is connected to two adjacent frame bodies.

In some embodiments, the tie rod assembly includes a tie rod and a diagonal tie, both ends of the tie rod and the diagonal tie are connected to adjacent two of the frames, the tie rod being located on both sides of the diagonal tie.

In some embodiments, the blocking unit includes a plurality of net pulling assemblies, and each net pulling assembly is disposed at intervals along the height direction of the frame body and is connected to two adjacent frame bodies.

In some embodiments, each of the pull net assemblies includes two back net pull rods, and the two back net pull rods are disposed in a crossing manner and connected to two adjacent frames.

In some embodiments, a foot pad is disposed at the bottom of each frame, and the foot pad is fixedly connected to the ground.

In some embodiments, the supporting module includes two supporting frames, where the two supporting frames are disposed opposite to each other and are fixed to the two adjacent frames respectively.

In some embodiments, the connection unit includes a plurality of connection beams, and each of the connection beams is spaced apart and connected to each of the shelf bodies.

In some embodiments, the plate goods shelf further comprises a top rail and a bottom rail, wherein the top rail and the bottom rail are both positioned in the walking space, the top rail is fixed on each connecting beam, the bottom rail is fixed on the ground and opposite to the top rail, and the top rail and the bottom rail are used for being walked by the stacker.

Compared with the prior art, the plate shelf has the beneficial effects that the blocking unit, the connecting unit and the at least two shelf bodies are arranged at intervals and enclose to form the walking space, the plate placing opening is formed in one side, close to the walking space, of each shelf body, in the process of stacking plates, workers or carrying the plates, can walk in the walking space and place the plates on each shelf body through the plate placing opening, so that the plates can be stacked, the blocking unit is arranged on each shelf body and opposite to the plate placing opening, can block the plates placed on the shelf bodies, thereby facilitating the placement of the plates, avoiding the plates from falling out of the shelf bodies, and the connecting unit is connected with each shelf body into a whole through the connection of the plate placing opening, thereby improving the stability of each shelf body and avoiding the collapse of each shelf body.

Drawings

FIG. 1 is a schematic view of a plate rack according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a shelf body of a plate shelf according to an embodiment of the present utility model;

Wherein, each reference sign in the figure:

10-shelf body 11-walking space 12-board placing opening

13-Frame 14-support module 15-top beam

16-Tie rod assembly 17-top net pull net 20-blocking unit

21-Net pulling assembly 30-connecting unit 31-connecting beam

40-Top Rail 50-bottom rail 131-foot pad

132-Upright post 133-stay 141-supporting frame

161-Cross tie 162-diagonal tie 211-back net tie.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

The embodiment of the utility model provides a plate goods shelf, which is characterized in that a plurality of goods shelves stacked by plates are connected, so that the stability of the goods shelf is improved, and the collapse of the goods shelf is avoided.

The plate shelf of the embodiment, as shown in fig. 1, comprises at least two shelf bodies 10, a blocking unit 20 and a connecting unit 30, wherein each shelf body 10 is arranged at intervals and encloses a walking space 11, a plate placing opening 12 is formed in one side, close to the walking space 11, of each shelf body 10, each shelf body 10 is used for providing support for a plate placed in the plate placing opening 12, the blocking unit 20 is arranged on each shelf body 10 and opposite to the plate placing opening 12 and used for blocking the plate placed in the plate placing opening 12, and the connecting unit 30 is connected to each shelf body 10.

Specifically, the board goods shelves are provided with the blocking units 20, the connecting units 30 and at least two goods shelf bodies 10, the goods shelf bodies 10 are arranged at intervals and are enclosed to form the walking space 11, one side, close to the walking space 11, of each goods shelf body 10 is provided with the board placing opening 12, workers or carrying devices can walk in the walking space 11 in the board stacking process and place boards on each goods shelf body 10 through the board placing opening 12, stacking of boards can be achieved, the blocking units 20 are arranged on each goods shelf body 10 and are opposite to the board placing opening 12, the blocking units 20 can block boards placed on the goods shelf bodies 10, accordingly, the boards are placed conveniently, the boards are prevented from falling out of the goods shelf bodies 10, the connecting units 30 can connect the goods shelf bodies 10 into a whole through connection to promote stability of the goods shelf bodies 10, and prevent the goods shelf bodies 10 from collapsing.

It can be appreciated that the number of the shelf bodies 10 can be any number of more than 2 groups (including two), the shelf bodies 10 can be enclosed to form square, round and other spaces, and the arrangement form can be set according to the environmental adaptability.

In this embodiment, taking 2 sets of shelf bodies 10 as an example, two sets of shelf bodies 10 are disposed opposite to each other, and a travelling space 11 is located between the two sets of shelf bodies 10, so that when stacking plates, the plates can be stacked on the two sets of shelf bodies 10 at the same time in the travelling space 11.

It will be appreciated that the pallet body 10 may be of any construction that enables stacking of sheets, and that the dimensions may be adapted to the site area and the size of sheets to be stacked.

In one embodiment, as shown in fig. 1-2, each shelf body 10 includes a plurality of frames 13, a plurality of supporting modules 14, and a top beam 15, each frame 13 is disposed opposite to each other, the board placement openings 12 are disposed between each frame 13, each supporting module 14 is disposed at intervals along the height direction of each frame 13, for providing support to boards placed in the board placement openings 12, and the top beam 15 is connected to two adjacent frames 13. Specifically, the top beam 15 is fixed on top of each adjacent frame 13, so that each adjacent frame 13 can be connected, and the support module 14 can provide support for the placed plates, so as to stack the plates.

In one embodiment, as shown in fig. 1-2, the bottom of each frame 13 is provided with a foot pad 131, and the foot pads 131 are fixedly connected to the ground. Specifically, the foot pad 131 can increase the contact area between the frame 13 and the ground, thereby improving the stability of the frame 13, and fixing the frame 13 to the ground.

In one embodiment, as shown in fig. 1-2, the frame 13 includes two upright posts 132, and a plurality of supporting rods 133 fixed between the two upright posts 132, the foot pads 131 are fixed at the bottom ends of the upright posts 132, and the supporting rods 133 realize connection of the two upright posts 132, so as to improve stability of the frame 13.

It will be appreciated that the support unit may be any support structure that can provide support, such as a support plate, a support rod 133, etc., with both ends connected between two adjacent frames 13.

In one embodiment, as shown in fig. 1-2, the supporting module 14 includes two supporting frames 141, where the two supporting frames 141 are disposed opposite to each other and fixed to two adjacent frames 13. Specifically, the plates can be stacked on the shelf body 10 through the supporting function of the supporting frames 141 respectively fixed on the two adjacent frames 13, and as no shielding exists between the two supporting frames 141, the plates can be conveniently lifted by a stacker or manually, thereby being convenient for taking and placing the plates.

In one embodiment, as shown in fig. 1-2, each shelf body 10 further includes a plurality of pull rod assemblies 16, and each pull rod assembly 16 is disposed at intervals along the height direction of the frame 13 and is connected to two adjacent frames 13. Specifically, the pull rod assembly 16 is connected to the two adjacent frames 13, so as to further improve the stability of the shelf body 10, thereby preventing the shelf body 10 from shaking.

In one embodiment, as shown in fig. 1-2, the tie rod assembly 16 includes a tie rod 161 and a diagonal tie 162, both ends of the tie rod 161 and diagonal tie 162 being connected to adjacent two frames 13, the tie rod 161 being located on both sides of the diagonal tie 162. Specifically, the tie rod assembly 16 can achieve stable connection of two adjacent frames 13 by providing the diagonal draw bars 162 and the tie bars 161 located at both sides of the diagonal draw bars 162, thereby ensuring the relative stability of the two adjacent frames 13.

In one embodiment, as shown in fig. 1-2, the pallet body 10 further includes a top net pull net 17, the top net pull net 17 being connected to the tops of two adjacent frames 13.

It is understood that the blocking unit 20 may be any structure that can block the plate material, such as a baffle plate, a baffle frame, etc.

In one embodiment, as shown in fig. 1-2, the blocking unit 20 includes a plurality of net members 21, and each net member 21 is disposed at intervals along the height direction of the frame 13 and is connected to two adjacent frames 13. Specifically, by the arrangement of the net pulling assembly 21, the top net pulling 17 can block the plate in a net pulling mode, so that the plate can be limited, the structure of the blocking unit 20 can be simplified, and the connection between the frame bodies 13 can be enhanced.

In one embodiment, as shown in fig. 1-2, each of the tension net assemblies 21 includes two back net tension rods 211, and the two back net tension rods 211 are disposed in a crossing manner and connected to two adjacent frames 13. Specifically, the blocking of the plate material can be achieved by two cross-disposed expanded net structures, thereby simplifying the structure of the blocking unit 20.

In one embodiment, as shown in fig. 1, the connection unit 30 includes a plurality of connection beams 31, and each connection beam 31 is spaced apart and connected to each shelf body 10. Specifically, the shelf bodies 10 can be integrally connected by the connection of the plurality of connecting beams 31, thereby ensuring the stability of the shelf bodies 10.

In this embodiment, both ends of each connecting beam 31 are connected to the top beams 15 of the two sets of pallet bodies 10, respectively.

In one embodiment, as shown in fig. 1, the plate pallet further includes a top rail 40 and a bottom rail 50, where the top rail 40 and the bottom rail 50 are both located in the traveling space 11, the top rail 40 is fixed to each connecting beam 31, the bottom rail 50 is fixed to the ground and opposite to the top rail 40, and the top rail 40 and the bottom rail 50 are used for traveling by the stacker. Specifically, in the stacking process of the plates, the stacker can walk on the top rail 40 and the bottom rail 50, and then insert the carried plates into the supporting frames 141 of the shelf bodies 10 through the plate placing openings 12, so that automatic stacking of the plates is realized, and convenience is provided for stacking of the plates.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present utility model should be included in the scope of the present utility model.

Claims (10)

1. A panel pallet, comprising:

The plate placing device comprises at least two shelf bodies, wherein the shelf bodies are arranged at intervals and are enclosed to form a walking space, a plate placing opening is formed in one side, close to the walking space, of each shelf body, and each shelf body is used for supporting a plate placed in the plate placing opening;

The blocking units are arranged on the shelf bodies and are opposite to the plate placing openings and used for blocking plates placed in the plate placing openings;

And the connecting unit is connected with each goods shelf body.

2. The sheet material pallet according to claim 1, wherein each pallet body comprises a plurality of frame bodies, a plurality of supporting modules and a top beam, each frame body is arranged relatively, the sheet material placing openings are arranged between each frame body, each supporting module is arranged at intervals along the height direction of each frame body and is used for supporting the sheet material placed in the sheet material placing opening, and the top beam is connected to two adjacent frame bodies.

3. The plank stuff shelf of claim 2, wherein each shelf body further comprises a plurality of tie rod assemblies, each tie rod assembly being spaced apart along a height direction of the frame and connected to two adjacent frames.

4. A plate pallet according to claim 3, wherein the tie rod assembly comprises a tie rod and a diagonal tie, both ends of the tie rod and the diagonal tie being connected to adjacent two of the frames, the tie rod being located on both sides of the diagonal tie.

5. The plank stuff shelf of claim 2, wherein said blocking unit comprises a plurality of screen assemblies, each of said screen assemblies being spaced apart along a height of said frame and connected to adjacent two of said frames.

6. The plank stuff shelf of claim 5, wherein each of said tension net assemblies comprises two back net tension rods, said two back net tension rods being disposed crosswise and connected to adjacent two of said frames.

7. The plank stuff shelf of claim 2, wherein a foot pad is provided at a bottom of each frame for a fixed connection to the ground.

8. The plate material pallet according to claim 2, wherein the supporting module comprises two supporting frames, and the two supporting frames are oppositely arranged and respectively fixed to the two adjacent frame bodies.

9. The plank stuff shelf of any one of claims 1-7, wherein the connecting unit comprises a plurality of connecting beams, each connecting beam being spaced apart and connected to each shelf body.

10. The plank stuff shelf of claim 9, further comprising a top rail and a bottom rail, both positioned in the travel space, the top rail secured to each of the connecting beams, the bottom rail secured to the ground and opposite the top rail, the top rail and bottom rail for a stacker to travel.