CN209814573U

CN209814573U - Logistics tray

Info

Publication number: CN209814573U
Application number: CN201920320016.9U
Authority: CN
Inventors: 郑凯; 杨军
Original assignee: Anhui Guoli Logistics Co Ltd
Current assignee: Anhui Guoli Logistics Co Ltd
Priority date: 2019-03-13
Filing date: 2019-03-13
Publication date: 2019-12-20
Anticipated expiration: 2029-03-13

Abstract

The utility model relates to a logistics tray, which comprises a connecting module and a connecting structure, wherein the connecting module comprises six connecting plates, six supporting shoes and be no less than four extension boards, six supporting shoes set up on the coplanar, per two supporting shoes are a set of, a connecting plate is fixed respectively to the relative both sides of every group supporting shoe, the connecting plate is parallel to each other and per three connecting plate is on the plane of the same one side of supporting shoe, the extension board is fixed and is kept away from one side of supporting shoe and be parallel to each other on the connecting plate of one side of supporting shoe, the extension board of the same one side of connecting plate forms the holding surface, form the fork truck hole between adjacent two sets of supporting shoes and between the extension board, connection structure includes plug connector and inserting groove, inserting groove and plug connector setting are in the both sides that the supporting shoe was kept away from each other, plug connector and inserting groove are. The two connecting modules are connected in a matched and inserting mode through the inserting pieces and the inserting holes, and the length of the tray can be adjusted conveniently according to actual needs.

Description

Logistics tray

Technical Field

The utility model relates to a commodity circulation transportation equipment technical field especially relates to a commodity circulation tray.

Background

Along with the gradual maturity of transportation modes such as highway, railway, water transportation, air transportation, the commodity circulation tray is convenient to be supported the product and fork truck transports as the support that bears the weight of the product, and its application is more and more extensive.

Fig. 1 shows a conventional logistics pallet, which includes twenty-four support plates 11, six connecting plates 12, and nine support blocks 13, wherein the support plates 11, the connecting plates 12, and the support blocks 13 are made of wood. The supporting blocks 13 are located on the same plane, one group of every three supporting blocks 13, and each group of supporting blocks 13 are parallel and level to each other. Two opposite sides of each group of supporting blocks 13 are respectively fixed with a connecting plate 12 by screws, the connecting plates 12 are parallel to each other, and every three connecting plates 12 are arranged on the plane of one side of the supporting blocks 13. Every twelve support plates 11 are parallel to each other and are simultaneously fixed on the side surfaces of the three connecting plates 12 far away from the supporting block 13 by screws, and the outer side surfaces of the support plates 11 on the same side of the connecting plates 12 jointly form a supporting surface 14.

The above prior art solutions have the following drawbacks: the space between two supporting surfaces 14 of the pallet is divided into two forklift holes 15 by a group of supporting blocks 13 in the middle, so that the forklift can conveniently transport the pallet and goods on the pallet. However, the length of the pallet along the length direction of the forklift hole 15 is fixed, and the pallet cannot be adjusted according to actual needs, so that the application range of the logistics pallet is limited.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a commodity circulation tray, the length of being convenient for adjust the tray according to actual need.

The above object of the present invention can be achieved by the following technical solutions: a logistics tray comprises a connecting module and a connecting structure, wherein the connecting module comprises six connecting plates, six supporting blocks and at least four supporting plates, the six supporting blocks are arranged on the same plane, every two supporting blocks are in one group, each group of supporting blocks are parallel and level, two opposite sides of each group of supporting blocks are respectively fixed with one connecting plate, the connecting plates are parallel to each other, every three connecting plates are arranged on the same plane of the supporting blocks, the supporting plates are divided into two groups, each group of supporting plates are fixed on the side surface, away from the supporting blocks, of one side of each supporting block and are parallel to each other, the supporting plates on the same side of each connecting plate form a supporting surface, forklift holes are formed between two adjacent groups of supporting blocks and between adjacent supporting plates, the connecting structure comprises plug connectors and plug grooves, the plug grooves and the plug connectors are arranged on the two sides, away from each, the plug connectors and the plug grooves are arranged along the length direction of the forklift hole.

Through adopting above-mentioned technical scheme, form a fork truck hole between two sets of adjacent supporting shoes in three supporting shoes of link module, the fork truck transportation of being convenient for. The two connecting modules can be connected through the matching and inserting of the plug connectors and the inserting holes arranged on the supporting blocks at the end parts of the forklift holes, so that the length of the tray is prolonged, the operation is convenient, and the length of the tray can be adjusted according to actual needs.

The utility model discloses further set up to: the connecting structure comprises a first fixing component, the first fixing component comprises a first connecting hole, a first fixing stud and a first fastening nut, the first connecting hole is formed in one end of the plug connector in the inserting groove along the width direction of the forklift hole, the first fixing hole communicated with the first connecting hole is formed in the side wall of the inserting groove, the first fixing stud penetrates through the first fixing hole and the first connecting hole, and one end of the first fixing stud, which is outside the first fixing hole, is in threaded connection with the first fastening nut.

Through adopting above-mentioned technical scheme, the connection of a pair of plug connector of fixed subassembly and inserting groove carries out further fixed, increases the stability of pegging graft to increase the stability of connecting between the link module, be favorable to increasing the stability of tray transportation.

The utility model discloses further set up to: and a first fixing groove is formed in the side wall, away from the first fixing hole, of the insertion groove, and the first fixing stud is abutted to the wall of the first fixing groove.

Through adopting above-mentioned technical scheme, increase the fixed steadiness of a pair of plug connector of fixing stud, be favorable to increasing the stability of connecting between the linking module.

The utility model discloses further set up to: the first fastening nut is arranged in the first operation groove, the first fastening nut is abutted to the bottom wall of the first operation groove, and the bottom of the first operation groove is communicated with the first fixing hole.

Through adopting above-mentioned technical scheme, fastening nut one and fixing stud one set up in operation groove one, avoid influencing the transportation of tray outside the supporting shoe.

The utility model discloses further set up to: the connecting structure comprises an accommodating groove, the accommodating groove comprises a sliding hole and a placing groove, the plug connector comprises a splicing column and a square column, the diameter of the splicing column is not more than the side length of the connecting surface of the square column and the splicing column, one end of the splicing column, far away from the square column, is spliced with the splicing groove, the side wall of the square column and the side wall of the placing groove are butted and connected in the placing groove in a sliding manner, the hole wall of the sliding hole is butted with the side surface of the splicing column, and when the splicing column is spliced with the splicing groove, the connecting surface of the square column and the splicing column is butted with the inner side of the notch of the placing; when the inserting column is completely positioned in the accommodating groove, one end of the square column, far away from the inserting column, is abutted against the groove bottom of the placing groove.

Through adopting above-mentioned technical scheme, the plug connector that is not launched can be accomodate to accomodating the groove in, avoids the plug connector to produce the influence to the transportation of tray.

The utility model discloses further set up to: the connecting structure comprises a second fixing component, the second fixing component comprises a second connecting hole, a second fixing stud and a second fastening nut, the second connecting hole is formed in the square column in the direction parallel to the first connecting hole, the second fixing hole is formed in the groove wall of the placing groove, when the inserting column is inserted into the inserting groove, the second fixing hole is communicated with the second connecting hole, the second fixing stud penetrates through the second fixing hole and the second connecting hole, and one end of the second fixing stud outside the second fixing hole is in threaded connection with the second fastening nut.

Through adopting above-mentioned technical scheme, the plug connector after pegging graft plug connector and inserting groove is fixed, increases the stability of plug connector to increase the stability of connecting between the connection module.

The utility model discloses further set up to: and when the inserting column is completely positioned in the accommodating groove, the second fixing hole is communicated with the first connecting hole.

Through adopting above-mentioned technical scheme, connecting hole one and connecting hole two intercommunications are convenient for fix the plug connector with fixing stud two and fastening nut two, increase the stability that the plug connector was accomodate.

The utility model discloses further set up to: and a second fixing groove is formed in the side wall, away from the second fixing hole, of the placing groove, and the second fixing stud is abutted to the wall of the second fixing groove.

By adopting the technical scheme, the stability of fixing the two pairs of plug connectors of the fixing stud is improved.

The utility model discloses further set up to: the second fastening nut is arranged in the second operating groove, the second fastening nut is abutted to the bottom wall of the second operating groove, and the bottom of the second operating groove is communicated with the second fixing hole.

Through adopting above-mentioned technical scheme, fastening nut two sets up in operation groove two, avoids fastening nut or two hourglass of fixing stud outward, influences the commodity circulation transportation of tray to article.

The utility model discloses further set up to: the connecting structure comprises a clamping component, the clamping component comprises a clamping block and a clamping groove, the clamping block is arranged at one end, away from the inserting column, of the square column, the clamping groove matched with the clamping block is arranged on the bottom wall of the placing groove, and when the inserting column is completely located in the accommodating groove, the clamping block is matched and clamped with the clamping groove.

Through adopting above-mentioned technical scheme, increase the stability that the plug connector was accomodate to accomodating the groove.

To sum up, the utility model discloses a beneficial technological effect does:

1. by arranging the connecting structure, the connecting modules can be connected together, so that the length of the tray can be conveniently adjusted as required, and the application range of the tray is expanded;

2. the stability of the splicing between the plug connector and the splicing groove is improved by arranging the first fixing component;

3. by arranging the accommodating groove, the unused plug connectors can be accommodated conveniently, and the influence on the transportation of the tray is avoided;

4. through setting up fixed subassembly two, increase the stability that the plug connector was pegged graft and was accomodate.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a prior art logistics tray;

fig. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic partial cross-sectional view of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Reference numerals: 1. a connection module; 11. a support plate; 12. a connecting plate; 13. a support block; 14. a support surface; 15. a forklift hole; 2. a connecting structure; 21. a plug-in unit; 211. inserting the column; 212. a square column; 22. inserting grooves; 23. a first fixing component; 231. a first connecting hole; 232. a first fixing hole; 233. a first fixing groove; 234. fixing a first stud; 235. fastening a first nut; 236. operating a first groove; 24. a second fixing component; 241. a second connecting hole; 242. a second fixing hole; 243. a second fixing groove; 244. a second fixing stud; 245. fastening a second nut; 246. operating a second tank; 25. a receiving groove; 251. a slide hole; 252. a placement groove; 26. a clamping assembly; 261. a clamping block; 262. a clamping groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 2, for the utility model discloses a logistics tray, including two connection module 1 and connect two connection module 1's connection structure 2. Each connection module 1 comprises six connection plates 12, six support blocks 13 and twelve carrier plates 11. Six supporting blocks 13 are located on the same plane, every two supporting blocks 13 are in a group, each group of supporting blocks 13 are parallel and level to each other, two opposite sides of each group of supporting blocks 13 are respectively fixed with a connecting plate 12 by screws, the connecting plates 12 are parallel to each other, and every three connecting plates 12 are located on the same plane of the supporting blocks 13. Twelve support plates 11 are in one group, each group of support plates 11 are parallel to each other and are located on the same plane, each support plate 11 is fixed with three connecting plates 12 on the same side of a supporting block 13 through screws, a supporting surface 14 is formed on one side, far away from the connecting plates 12, of the support plate 11 on the same side of the connecting plate 12, a certain gap is formed between the adjacent support plates 11 on the same side of the connecting plate 12, the friction force of the supporting surface 14 on goods is increased, and the stability of the goods transported by the tray is improved. Fork truck holes 15 are formed between two adjacent groups of supporting blocks 13 and between the supporting plates 11 on two sides, so that the connecting module 1 or the pallet fork truck can be conveniently transported.

Referring to fig. 3 and 4, the connection structure 2 is disposed on the supporting block 13 and includes a plug member 21, a plug groove 22, a first fixing member 23, a second fixing member 24, a receiving groove 25, and a clamping member 26. The insertion grooves 22 and the insertion pieces 21 are disposed at both sides of the supporting block 13 away from each other, and are disposed along the length direction of the forklift hole 15 (shown in fig. 2). The plug connector 21 comprises a cylindrical plug-in column 211 and a square column 212 which are integrally formed, and the side length of the connecting surface of the square column 212 and the plug-in column 211 is larger than the diameter of the plug-in column 211. The end of the plug column 211 far away from the square column 212 is matched with the plug slot 22 for plug connection. The storage groove 25 includes a sliding hole 251 and a placement groove 252, the square column 212 abuts against the groove side wall of the placement groove 252 and is slidably connected in the placement groove 252, and the hole wall of the sliding hole 251 abuts against the side surface of the insertion column 211. When the plug-in post 211 is plugged in the plug-in slot 22, the side of the square post 212 close to the plug-in post 211 abuts against the inner side of the slot opening of the placement slot 252. When the insertion column 211 is completely located in the storage groove 25, one end of the square column 212 remote from the insertion column 211 abuts against the groove bottom of the placement groove 252. In order to increase the stability of the plug connector 21 received in the receiving groove 25, a clamping assembly 26 is provided, the clamping assembly 26 comprises a clamping block 261 and a clamping groove 262, the clamping block 261 is integrally formed at one end of the square column 212 far away from the plug-in column 211, the clamping groove 262 matched with the clamping block 261 is formed in the wall of the groove bottom of the placing groove 252, and when the plug-in column 211 is completely located in the receiving groove 25, the clamping block 261 and the clamping groove 262 are matched and clamped.

Referring to fig. 3 and 4, the first fixing member 23 includes a first connecting hole 231, a first fixing hole 232, a first fixing groove 233, a first fixing stud 234, a first fastening nut 235 and a first operating groove 236. One end of the insertion column 211 in the insertion groove 22 is provided with a first connecting hole 231 along the width direction of the forklift hole 15, the side wall of the insertion groove 22 is provided with a first fixing hole 232 communicated with the first connecting hole 231, the side wall of the insertion groove 22, which is far away from the first fixing hole 232, is provided with a first fixing groove 233, and one end, far away from the insertion groove 22, of the first fixing hole 232 is provided with a first operating groove 236. One end of the first fixing stud 234 penetrates through the first fixing hole 232 and the first connecting hole 231 and is abutted against the groove wall of the first fixing groove 233, the other end of the first fixing stud 234 is positioned in the first operating groove 236 and is in threaded connection with the first fastening nut 235, and the first fastening nut 235 is positioned in the first operating groove 236 and is abutted against the groove bottom wall of the first operating groove 236.

Referring to fig. 3 and 4, the second fixing element 24 includes a second connecting hole 241, a second fixing hole 242, a second fixing groove 243, a second fixing stud 244, a second fastening nut 245 and a second operating groove 246. The square column 212 is provided with a second connecting hole 241 along a direction parallel to the first connecting hole 231, a second fixing hole 242 is formed on the wall of the placing groove 252, a second fixing groove 243 is formed on the wall of the placing groove 252, which is far away from the second fixing hole 242, and a second operating groove 246 is formed at one end, which is far away from the placing groove 252, of the second fixing hole 242. When the inserting column 211 is inserted into the inserting groove 22, the second fixing hole 242, the second connecting hole 241 and the second fixing groove 243 are communicated, and one end of the second fixing stud 244 passes through the second fixing hole 242 and the second connecting hole 241 and is abutted against the groove wall of the second fixing groove 243. The other end of the second fixing stud 244 is positioned in the second operating slot 246 and is in threaded connection with a second fastening nut 245, and the second fastening nut 245 is positioned in the second operating slot 246 and abuts against the bottom wall of the second operating slot 246. When the insertion post 211 is completely positioned in the receiving groove 25, the first connecting hole 231 and the second fixing hole 242 are communicated.

The implementation principle of the embodiment is as follows: the connecting modules 1 are connected and fixed through the connecting structures 2 arranged on the supporting blocks 13 at the two ends of the forklift holes 15, the operation is simple, and the connecting modules 1 with proper quantity can be selected according to actual needs to be connected to adjust the length of the tray.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. A logistics tray is characterized in that: the connecting device comprises a connecting module (1) and a connecting structure (2), wherein the connecting module (1) comprises six connecting plates (12), six supporting blocks (13) and at least four supporting plates (11), the six supporting blocks (13) are arranged on the same plane, every two supporting blocks (13) are in one group, each group of supporting blocks (13) are parallel and level, the two opposite sides of each group of supporting blocks (13) are respectively fixed with one connecting plate (12), the connecting plates (12) are parallel, every three connecting plates (12) are arranged on the plane of the same side of the supporting blocks (13), the supporting plates (11) are divided into two groups in equal halves, each group of supporting plates (11) are fixed on the side face, far away from the supporting blocks (13), of the connecting plate (12) on one side of the supporting blocks (13) and are parallel, the supporting plates (11) on the same side of the connecting plates (12) form supporting faces (14), and fork truck holes (15) are formed between the two, connection structure (2) include plug connector (21) and inserting groove (22), inserting groove (22) and plug connector (21) set up the both sides of keeping away from each other in supporting shoe (13), plug connector (21) and inserting groove (22) are pegged graft the cooperation, the length direction setting of fork truck hole (15) is followed to plug connector (21) and inserting groove (22).

2. A logistics tray, as claimed in claim 1, wherein: the connecting structure (2) comprises a first fixing component (23), the first fixing component (23) comprises a first connecting hole (231), a first fixing hole (232), a first fixing stud (234) and a first fastening nut (235), one end of the plug connector (21) in the insertion groove (22) is provided with the first connecting hole (231) along the width direction of the forklift hole (15), the groove side wall of the insertion groove (22) is provided with the first fixing hole (232) communicated with the first connecting hole (231), the first fixing stud (234) penetrates through the first fixing hole (232) and the first connecting hole (231), and one end of the first fixing stud (234) outside the first fixing hole (232) is in threaded connection with the first fastening nut (235).

3. A logistics tray, as claimed in claim 2, wherein: and a first fixing groove (233) is arranged on the side wall of the insertion groove (22) far away from the first fixing hole (232), and the first fixing stud (234) is abutted against the groove wall of the first fixing groove (233).

4. A logistics tray, as claimed in claim 2, wherein: the first fastening nut (235) is arranged in the first operating groove (236), the first fastening nut (235) is abutted against the bottom wall of the first operating groove (236), and the bottom of the first operating groove (236) is communicated with the first fixing hole (232).

5. A logistics tray, as claimed in claim 1, wherein: the connecting structure (2) comprises a containing groove (25), the containing groove (25) comprises a sliding hole (251) and a placing groove (252), the plug connector (21) comprises a plug-in column (211) and a square column (212), the diameter of the plug-in column (211) is not larger than the side length of the connecting surface of the square column (212) and the plug-in column (211), one end, far away from the square column (212), of the plug-in column (211) is plugged into the plugging groove (22), the side walls of the square column (212) and the placing groove (252) are abutted and connected in the placing groove (252) in a sliding mode, the hole wall of the sliding hole (251) is abutted with the side surface of the plug-in column (211), and when the plug-in column (211) and the plugging groove (22) are plugged, the connecting surface of the square column (212) and the plug-in column (211) is abutted with the inner side notch of the; when the inserting column (211) is completely positioned in the accommodating groove (25), one end of the square column (212) far away from the inserting column (211) is abutted against the groove bottom of the placing groove (252).

6. A logistics tray, as set forth in claim 5, wherein: the connecting structure (2) comprises a second fixing component (24), the second fixing component (24) comprises a second connecting hole (241), a second fixing hole (242), a second fixing stud (244) and a second fastening nut (245), the second connecting hole (241) is formed in the square column (212) in the direction parallel to the first connecting hole (231), the second fixing hole (242) is formed in the wall of the placing groove (252), when the inserting column (211) and the inserting groove (22) are inserted, the second fixing hole (242) is communicated with the second connecting hole (241), the second fixing stud (244) penetrates through the second fixing hole (242) and the second connecting hole (241), and one end, outside the second fixing hole (242), of the second fixing stud (244) is in threaded connection with the second fastening nut (245).

7. A logistics tray, as claimed in claim 6, wherein: when the inserting column (211) is completely positioned in the accommodating groove (25), the second fixing hole (242) is communicated with the first connecting hole (231).

8. A logistics tray, as claimed in claim 6, wherein: and a second fixing groove (243) is arranged on the groove side wall of the placing groove (252) far away from the second fixing hole (242), and the second fixing stud (244) is abutted against the groove wall of the second fixing groove (243).

9. A logistics tray, as claimed in claim 6, wherein: the second fastening nut (245) is arranged in the second operating groove (246), the second fastening nut (245) is abutted against the bottom wall of the second operating groove (246), and the bottom of the second operating groove (246) is communicated with the second fixing hole (242).

10. A logistics tray, as set forth in claim 5, wherein: connection structure (2) are including joint subassembly (26), joint subassembly (26) are including fixture block (261) and draw-in groove (262), the one end that grafting post (211) were kept away from in square column (212) is provided with fixture block (261), the tank bottom wall of standing groove (252) is provided with and fixture block (261) complex draw-in groove (262), when grafting post (211) is located completely and accomodates groove (25), fixture block (261) and draw-in groove (262) cooperation joint.