A high strength pallet

By designing receiving slots and raised ring structures on the pallet, the problem of difficulty in separating pallets after stacking is solved, realizing convenient separation and stable stacking of pallets, improving service life and transportation efficiency.

CN224349345UActive Publication Date: 2026-06-12ZHEJIANG ZHIGUANG PLASTIC PALLET CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG ZHIGUANG PLASTIC PALLET CO LTD
Filing Date
2025-08-14
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing pallets are difficult to separate after being stacked, causing inconvenience in use.

Method used

The design incorporates a receiving groove and a raised ring structure. The receiving groove is used for nesting adjacent pallets, and the gap between the raised ring and the outer wall of the pallet is designed to reduce friction and facilitate separation.

Benefits of technology

It enables convenient separation and stable stacking of pallets, improving pallet lifespan and transportation efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224349345U_ABST
    Figure CN224349345U_ABST
Patent Text Reader

Abstract

This application relates to the technical field of logistics tools. A high-strength pallet includes a pallet body with a convex ring connected to the outer periphery of the upper end. A receiving groove is provided at one end of the pallet body near the convex ring, for embedding the end of an adjacent pallet body away from the convex ring. The side of the convex ring away from the bottom of the receiving groove abuts against the side of the convex ring of the adjacent pallet body near the bottom of the receiving groove. A gap exists between the wall of the receiving groove and the outer wall of the adjacent pallet body at the end away from the convex ring. The receiving groove is provided for placing goods or for nesting adjacent pallets. When the convex rings of two adjacent pallet bodies abut, the gap between the wall of the receiving groove and the outer wall of the pallet body helps reduce friction between the two adjacent pallet bodies, facilitating pallet separation and removal.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the technical field of logistics tools, and in particular to a high-strength pallet. Background Technology

[0002] Pallets play a crucial role as an essential logistics tool in warehousing and freight transportation. With the rapid development of the modern logistics industry, the demand for pallets is increasing daily. Their load-bearing capacity, stability, and space utilization efficiency directly impact the efficiency of goods storage and transportation. High-efficiency, reliable pallets can effectively reduce logistics costs, increase cargo turnover speed, and play a key connecting role in the entire supply chain, promoting the efficient operation of the logistics industry.

[0003] In the past, methods to solve the problem of pallet stacking and positioning typically involved setting simple raised or recessed structures on the pallet surface to achieve initial positioning and stacking. However, when multiple pallets are stacked sequentially, due to the large mass of the stacked pallets, the two pallets near the bottom tend to stick together tightly, making it difficult to separate the two pallets during later use. Utility Model Content

[0004] To facilitate the separation of two pallets, this application provides a high-strength pallet.

[0005] The high-strength pallet provided in this application adopts the following technical solution:

[0006] A high-strength pallet includes a pallet body with a raised ring connected to the outer periphery of the upper end of the pallet body. A receiving groove is provided at one end of the pallet body near the raised ring. The receiving groove is used for embedding the end of an adjacent pallet body away from the raised ring. The side of the raised ring away from the bottom of the receiving groove abuts against the side of the raised ring of the adjacent pallet body near the bottom of the receiving groove. There is a gap between the groove wall of the receiving groove and the outer wall of the adjacent pallet body at the end away from the raised ring.

[0007] By adopting the above technical solution, a receiving groove is set up for placing goods or to nest adjacent pallets. When the convex rings of two adjacent pallet bodies abut each other, there is a gap between the groove wall of the receiving groove and the outer wall of the pallet body, which helps to reduce the friction between the two adjacent pallet bodies and facilitates the separation and removal of the pallets.

[0008] Preferably, the tray body is integrally molded.

[0009] By adopting the above technical solution, the pallet body is integrally molded, which helps to improve the structural strength of the pallet body, reduce the possibility of breakage of the connecting grooves of various parts of the pallet body, and improve the service life of the pallet body.

[0010] Preferably, the end of the tray body away from the convex ring is connected to a plurality of supporting protrusions, and the bottom of the receiving groove is provided with a fourth groove, the number of the fourth grooves being the same as the number of supporting protrusions and corresponding one-to-one, and the fourth grooves being used for the supporting protrusions to be embedded.

[0011] By adopting the above technical solution, the fourth groove can be used for the insertion of support protrusions of other pallet bodies, limiting the position between two adjacent pallet bodies, so that multiple pallet bodies can be stably stacked together, improving the stability of the connection between two adjacent pallet bodies, and facilitating the transportation of pallet bodies.

[0012] Preferably, the end of the support protrusion furthest from the protruding ring is tapered.

[0013] By adopting the above technical solution, the end of the support protrusion away from the protruding ring is set to taper, so that the support protrusion can be smoothly embedded in the fourth groove, which facilitates the stacking and transportation of the pallet body by personnel.

[0014] Preferably, a second protrusion is connected to the wall of the fourth groove, and a second groove is provided on the outer wall of the supporting protrusion at the end away from the protruding ring. The number of the second grooves is the same as that of the second protrusion and they correspond one-to-one. The second groove is used for the second protrusion to be embedded.

[0015] By adopting the above technical solution, the second groove allows the second protrusion of other pallet bodies to be embedded, thereby limiting the movement between two adjacent pallet bodies, enabling multiple pallet bodies to be stably stacked together, improving the stability of the connection between two adjacent pallet bodies, and facilitating the transportation of pallet bodies.

[0016] Preferably, a plurality of first protrusions are connected to the wall of the receiving groove, and the plurality of first protrusions are distributed at intervals along the circumference of the receiving groove. A first groove is provided on the outer wall of the tray body away from the protrusion ring. The number of first grooves is the same as the number of first protrusions and corresponds one-to-one. The first groove is used for the first protrusions to be embedded.

[0017] By adopting the above technical solution, the first groove allows the first protrusion of other pallet bodies to be embedded, thereby limiting the movement between two adjacent pallet bodies, enabling multiple pallet bodies to be stably stacked together, improving the stability of the connection between two adjacent pallet bodies, and facilitating the transportation of pallet bodies.

[0018] Preferably, the convex ring has a weight-reducing groove on the side near the bottom of the receiving groove.

[0019] By adopting the above technical solution and setting a weight-reducing groove, the weight of the pallet body can be reduced while meeting the strength requirements, thereby reducing the pressure on the lower convex ring when multiple pallet bodies are stacked.

[0020] Preferably, the bottom of the weight-reducing groove is connected to a plurality of reinforcing ribs, which are distributed at intervals along the circumferential direction of the convex ring, and the reinforcing ribs extend from the bottom of the weight-reducing groove to the wall of the weight-reducing groove.

[0021] By adopting the above technical solutions, the structural strength of the convex ring is improved, which helps the convex ring to withstand greater pressure and tension, reduces the possibility of deformation or breakage of the convex ring when multiple pallet bodies are stacked together or when workers separate two adjacent pallet bodies through the convex ring, and improves the service life of the pallet body.

[0022] Preferably, a gripping groove is provided on the side of the weight-reducing groove away from the receiving groove. The gripping groove passes through the convex ring on the side near the supporting protrusion. There are a plurality of gripping grooves, which are distributed at intervals along the circumference of the convex ring.

[0023] By adopting the above technical solution, the grip groove facilitates the separation of two pallet bodies by the workers when the convex rings of adjacent pallet bodies abut against each other, thus improving the convenience of the pallet bodies.

[0024] In summary, this application includes at least one of the following beneficial technical effects:

[0025] 1. A receiving groove is provided for placing goods or for nesting adjacent pallets. When the convex rings of two adjacent pallet bodies abut each other, there is a gap between the groove wall and the outer wall of the pallet body, which helps to reduce the friction between the two adjacent pallet bodies and facilitates the separation and removal of the pallets.

[0026] 2. The fourth groove allows the support protrusions of other pallet bodies to be embedded, limiting the movement between two adjacent pallet bodies, so that multiple pallet bodies can be stably stacked together, improving the stability of the connection between two adjacent pallet bodies, and facilitating the transportation of pallet bodies.

[0027] 3. The end of the support protrusion furthest from the protruding ring is tapered, allowing the support protrusion to be smoothly embedded in the fourth groove, facilitating the stacking and transportation of the pallet body by personnel. Attached Figure Description

[0028] Figure 1 This is a structural diagram of a high-strength pallet.

[0029] Figure 2 yes Figure 1 Enlarged view of point A in the middle.

[0030] Figure 3 This is a cross-sectional view of a high-strength pallet, mainly showing the support bumps and the first ridge.

[0031] Figure 4 This is a structural schematic diagram of a high-strength pallet from another perspective.

[0032] Figure 5 This is a cross-sectional view of a high-strength pallet, mainly showing the second convex strip.

[0033] Explanation of reference numerals in the attached figures:

[0034] 1. Pallet body; 11. Receiving groove; 12. Protruding ring; 121. Weight reduction groove; 122. Reinforcing rib; 123. Grip groove; 13. Supporting protrusion; 14. Fourth groove; 15. Second protruding strip; 16. Second groove; 17. First protruding strip; 18. First groove; 19. Third protrusion; 191. First strip block; 192. Second strip block; 193. T-shaped block; 110. Third groove. Detailed Implementation

[0035] The present application will be further described in detail below with reference to the accompanying drawings.

[0036] Reference Figure 1 This application discloses a high-strength pallet including a pallet body 1. A protruding ring 12 is fixedly connected to the outer wall of one end of the pallet body 1 along its thickness direction. The pallet body 1 is integrally formed. A weight-reducing groove 121 is provided on the surface of the protruding ring 12 near the other end of the pallet body 1. The weight-reducing groove 121 is annular, and a plurality of reinforcing ribs 122 are fixedly connected to the bottom of the weight-reducing groove 121. The plurality of reinforcing ribs 122 are evenly distributed around the circumference of the weight-reducing groove 121 and extend from the bottom of the weight-reducing groove 121 to the two side walls of the weight-reducing groove 121. A gripping groove 123 is provided on the outer wall of the weight-reducing groove 121. The side of the gripping groove 123 away from the bottom of the weight-reducing groove 121 passes through the protruding ring 12. The gripping groove 123 is used for inserting fingers. A plurality of gripping grooves 123 are provided and are spaced apart around the circumference of the protruding ring 12. In this embodiment, there are eight grip grooves 123, which are divided into four groups. The cross-section of the tray body 1 along the thickness direction of the tray body 1 is square. The four groups of grip grooves 123 are located around the tray body 1. Two grip grooves 123 in the same group are symmetrically distributed along the direction perpendicular to the thickness direction of the tray body 1.

[0037] Reference Figure 2 The side wall of the grip groove 123 near the bottom of the weight reduction groove 121 is wavy, and the side wall of the grip groove 123 near the bottom of the weight reduction groove 121 is used to fit the fingers.

[0038] Reference Figure 3 and Figure 4The end of the pallet body 1 away from the convex ring 12 is tapered, and the end of the pallet body 1 near the convex ring 12 is provided with a receiving groove 11, which is used for the insertion of the end of the adjacent pallet body 1 away from the convex ring 12. Several third protrusions 19 are fixedly connected to the bottom of the receiving groove 11, and the end of the third protrusions 19 away from the bottom of the receiving groove 11 is tapered. In this embodiment, the third protrusion 19 includes a first strip block 191, a second strip block 192, and a convex-shaped block 193. The distance from the two sides of the first strip block 191 along the width direction to the two sides of the receiving groove 11 along the width direction of the first strip block 191 is equal. There are two second strip blocks 192, and the length direction of the second strip blocks 192 is perpendicular to the length direction of the first strip block 191. The two second strip blocks 192 are symmetrically distributed along the length direction of the second strip block 192. There are four convex-shaped blocks 193, and the four convex-shaped blocks 193 are evenly distributed around the circumference of the receiving groove 11.

[0039] Reference Figure 1 and Figure 3 The tray body 1 has a third groove 110 at the end away from the convex ring 12. The number of third grooves 110 is the same as the number of third protrusions 19 and they correspond one-to-one. The third groove 110 is used for the third protrusions 19 to be embedded.

[0040] A plurality of supporting protrusions 13 are fixedly connected to the end of the tray body 1 away from the convex strip, and the end of the supporting protrusions 13 away from the convex ring 12 is tapered. In this embodiment, there are ten supporting protrusions 13. Eight supporting protrusions 13 are distributed at intervals along the circumference of the tray body 1, and the outer walls of the eight supporting protrusions 13 are flush with the outer wall of the tray body 1. The other two supporting protrusions 13 are symmetrically distributed along the length direction perpendicular to the first strip block 191, and the side surface of the supporting protrusion 13 closest to the other supporting protrusion 13 is flush with the groove wall of the third groove 110. The bottom of the receiving groove 11 is provided with a fourth groove 14. The number of fourth grooves 14 is the same as the number of supporting protrusions 13 and they correspond one-to-one. The fourth grooves 14 are used for the supporting protrusions 13 to be embedded.

[0041] Reference Figure 4 and Figure 5 A plurality of first protrusions 17 are fixedly connected to the wall of the receiving groove 11. The plurality of first protrusions 17 are distributed circumferentially around the receiving groove 11. One end of the first protrusion 17 near the bottom of the receiving groove 11 is flush with the bottom of the receiving groove 11, and the other end of the first protrusion 17 is flush with the end of the third protrusion 19 away from the bottom of the receiving groove 11. The end of the first protrusion 17 away from the bottom of the receiving groove 11 is tapered. In this embodiment, there are eight first protrusions 17, and a fourth groove 14 is provided between two adjacent first protrusions 17.

[0042] Reference Figure 1 and Figure 5The outer periphery of the tray body 1 away from the convex ring 12 is provided with a first groove 18. The number of first grooves 18 is the same as the number of first convex strips 17 and they correspond one-to-one. The first grooves 18 are used for the first convex strips 17 to be embedded.

[0043] Reference Figure 3 and Figure 4 A plurality of second protrusions 15 are fixedly connected to the wall of the fourth groove 14. These second protrusions 15 are spaced apart circumferentially along the receiving groove 11. One end of each second protrusion 15 near the bottom of the receiving groove 11 is flush with the bottom of the fourth groove 14, and the other end of each second protrusion 15 is flush with the end of the first protrusion 17 away from the bottom of the receiving groove 11. The end of each second protrusion 15 away from the bottom of the fourth groove 14 tapers. In this embodiment, eight second protrusions 15 are provided, and each of the eight second protrusions 15 is located within one of the eight outer fourth grooves 14.

[0044] Reference Figure 1 and Figure 3 The outer periphery of the supporting protrusion 13 away from the protruding ring 12 is provided with a second groove 16. The number of second grooves 16 is the same as the number of second protrusions 15 and they correspond one-to-one. The second groove 16 is used for the second protrusions 15 to be embedded.

[0045] Reference Figure 3 and Figure 5 In this embodiment, when the side surface of the convex ring 12 away from the bottom of the receiving groove 11 abuts against the side surface of the convex ring 12 of the adjacent tray body 1 near the bottom of the receiving groove 11, there is a gap between the outer wall of the end of the tray body 1 away from the convex ring 12 and the wall of the receiving groove 11, there is a gap between the end of the tray body 1 away from the convex ring 12 and the bottom of the receiving groove 11, there is a gap between the third protrusion 19 and the third groove 110, there is a gap between the first protrusion and the first groove 18, there is a gap between the second protrusion and the second groove 16, and there is a gap between the supporting protrusion 13 and the fourth groove 14.

[0046] The implementation principle of a high-strength pallet in this application embodiment is as follows: during storage or transportation, multiple pallet bodies 1 are stacked sequentially along the thickness direction of the pallet body 1, and the support protrusion 13 is embedded in the receiving groove 11, so that the support protrusion 13 is embedded in the fourth groove 14, the first protrusion 17 is embedded in the first groove 18, the second protrusion 15 is embedded in the second groove 16, and the third protrusion 19 is embedded in the third groove 110, so that two adjacent protrusion rings 12 abut against each other.

[0047] When it is necessary to remove it, insert your fingers into the grip groove 123 and push the tray body 1 away from the other tray body 1 so that the two tray bodies 1 separate.

[0048] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A high-strength pallet, characterized in that: The pallet includes a pallet body (1); a convex ring (12) is connected to the outer periphery of the upper end of the pallet body (1); a receiving groove (11) is provided at one end of the pallet body (1) near the convex ring (12); the receiving groove (11) is used for the insertion of the end of the adjacent pallet body (1) away from the convex ring (12); the side of the convex ring (12) away from the bottom of the receiving groove (11) abuts against the side of the convex ring (12) of the adjacent pallet body (1) near the bottom of the receiving groove (11); there is a gap between the groove wall of the receiving groove (11) and the outer wall of the end of the adjacent pallet body (1) away from the convex ring (12).

2. The high-strength pallet according to claim 1, characterized in that: The tray body (1) is integrally formed.

3. The high-strength pallet according to claim 2, characterized in that: The tray body (1) is connected to a number of supporting protrusions (13) at one end away from the protruding ring (12); the bottom of the receiving groove (11) is provided with a fourth groove (14); the number of the fourth grooves (14) is the same as the number of supporting protrusions (13) and they correspond one-to-one; the fourth groove (14) is used for the supporting protrusions (13) to be embedded.

4. The high-strength pallet according to claim 3, characterized in that: The end of the support protrusion (13) away from the protrusion ring (12) is tapered.

5. The high-strength pallet according to claim 3, characterized in that: The fourth groove (14) is connected to the groove wall with a second protrusion (15); the outer wall of the supporting protrusion (13) away from the protrusion ring (12) is provided with a second groove (16); the number of the second grooves (16) is the same as that of the second protrusions (15) and they correspond one-to-one; the second grooves (16) are used for the second protrusions (15) to be embedded.

6. The high-strength pallet according to claim 2, characterized in that: The receiving groove (11) is connected to a plurality of first protrusions (17) at the groove wall; the plurality of first protrusions (17) are distributed at intervals along the circumference of the receiving groove (11); a first groove (18) is provided on the outer wall of the tray body (1) away from the protrusion ring (12); the number of first grooves (18) is the same as the number of first protrusions (17) and corresponds one to one; the first groove (18) is used for the first protrusions (17) to be embedded.

7. The high-strength pallet according to claim 2, characterized in that: The convex ring (12) has a weight-reducing groove (121) on the side near the bottom of the receiving groove (11).

8. The high-strength pallet according to claim 7, characterized in that: The bottom of the weight-reducing groove (121) is connected to a number of reinforcing ribs (122); the number of reinforcing ribs (122) are distributed at intervals along the circumference of the convex ring (12); the reinforcing ribs (122) extend from the bottom of the weight-reducing groove (121) to the wall of the weight-reducing groove (121).

9. The high-strength pallet according to claim 7, characterized in that: The weight-reducing groove (121) has a gripping groove (123) on the side of the groove wall away from the receiving groove (11); the gripping groove (123) passes through the convex ring (12) on the side near the supporting protrusion (13); there are a plurality of gripping grooves (123); the plurality of gripping grooves (123) are distributed at intervals along the circumference of the convex ring (12).