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CN-122007027-A - Sorting system

CN122007027ACN 122007027 ACN122007027 ACN 122007027ACN-122007027-A

Abstract

The embodiment of the application provides a sorting system, and relates to the technical field of logistics. The sorting system comprises a sub-packaging module and a sowing module, wherein the sub-packaging module is used for sorting cargoes according to order information, the sowing module comprises a sowing goods shelf and an unloading device, the sowing goods shelf is provided with a plurality of sowing layers, each sowing layer is provided with a sowing position, the unloading device is used for receiving cargoes sorted by the sub-packaging module and conveying the cargoes to the corresponding sowing positions, and the sub-packaging module is configured to supply the order cargoes to one or more sowing modules, so that decoupling and flexible matching of sorting and sowing operations are realized. The sub-packaging module rapidly and accurately sorts the goods according to the order, allows the system to dynamically adjust the proportion and the working mode of the sub-packaging module and the seeding module according to the change of the order flow, is convenient to maintain and expand, and improves the overall flexibility, expandability and processing capacity of the sorting system.

Inventors

  • ZHU SHUAI

Assignees

  • 苏州极速跃迁科技有限公司

Dates

Publication Date
20260512
Application Date
20260330

Claims (15)

  1. 1. A sorting system, comprising: The sub-packaging module is used for sorting cargoes according to the order information; The sowing module comprises a sowing shelf and an unloading device, the sowing shelf is provided with a plurality of sowing layers, each sowing layer is provided with a sowing position, and the unloading device is used for receiving cargoes sorted by the sub-packaging module and conveying the cargoes to the corresponding sowing positions; Wherein the subcontracting module is configured to supply order items to one or more of the seeding modules.
  2. 2. The sorting system of claim 1, wherein a plurality of said seed layers are spaced apart in a vertical direction, each of said seed layers having a plurality of said seed stations spaced apart in a first horizontal direction, said seed rack being positioned laterally of an unloading device configured to move the seed in the vertical direction and in the first horizontal direction to deliver the seed to any of said seed stations.
  3. 3. The sorting system of claim 2, wherein the unloading device is configured to receive the sorted goods of the sub-packaging module from at least one of its two ends in the first horizontal direction.
  4. 4. The sorting system of claim 3, wherein at least one of the seeding racks is disposed on each side of the unloading device, the unloading device comprises a first guide rail, a second guide rail and a bidirectional turnover mechanism, the first guide rail extends along the first horizontal direction, the second guide rail extends along the vertical direction; Wherein the bidirectional turning mechanism is configured to be turned toward the sowing shelves on both sides of the unloading device.
  5. 5. A sorting system according to claim 3, characterised in that the sub-packaging module is arranged at one end of the unloading device in the first horizontal direction.
  6. 6. The sortation system of claim 4, further comprising a buffer disposed at one end of said unloader in said first horizontal direction; The buffer device comprises an input layer and a plurality of buffer layers which are arranged along the vertical direction, wherein the input layer is configured to move along the vertical direction, so that the input layer receives goods of the sub-packaging module and conveys the goods to any one of the buffer layers, and the bidirectional turnover mechanism can be in butt joint with the buffer layers.
  7. 7. The sorting system of claim 6, wherein the plurality of seeding modules are arranged at intervals along the first horizontal direction, the buffer devices are respectively arranged at opposite ends of two adjacent seeding modules, a conveying line is arranged between the buffer devices of the two adjacent seeding modules, the input layer of each buffer device can be in butt joint with the conveying line, and the sub-packaging module is in butt joint with the conveying line.
  8. 8. A sorting system according to claim 3, further comprising a transport module for transporting goods, the sub-packaging module and the sowing module being arranged at different positions on the peripheral side of the transport module and being in butt joint with the transport module.
  9. 9. The sortation system of claim 8, wherein said conveyor module comprises a conveyor line, said sub-packaging module is disposed at an input end of said conveyor line, and said seeding module is disposed at an output end of said conveyor line.
  10. 10. The sorting system of claim 8, wherein the transport module includes a transport platform and a moving device configured to move on the transport platform, the sub-packaging module and the sowing module respectively interfacing with side edges of the transport platform, the moving device for transporting the sorted goods of the sub-packaging module to the sowing module.
  11. 11. The sorting system of claim 10, wherein the plurality of conveyor platforms are vertically arranged, the sub-packaging module is operable to sort the goods to the mobile devices on different conveyor platforms, and each of the seeding modules is operable to receive the goods transported by the mobile devices on the plurality of conveyor platforms.
  12. 12. Sorting system according to claim 11, characterized in that the sub-packaging module comprises a lifting device, which is in abutment with a side edge of the transport platform, which lifting device is provided with a lifting mechanism movable in the vertical direction for transporting goods to the transport platforms of different heights.
  13. 13. The sortation system of claim 12, wherein said movement apparatus comprises a movement base, a drive assembly, and a carrier, said drive assembly being configured to drive said carrier relative to said movement base toward said elevation device when said movement apparatus is moved to a side of said conveyor deck adjacent said elevation device, such that said carrier receives a good.
  14. 14. The sortation system of claim 12, wherein a side of said conveyor deck adjacent said elevator apparatus is provided with a transition structure, said transition structure being disposed obliquely, said mobile apparatus receiving a load opposite a lower edge of said transition structure, said elevator mechanism moving to a height corresponding to said conveyor deck, said elevator mechanism being opposite an upper edge of said transition structure such that said elevator mechanism conveys said load to said mobile apparatus via said transition structure.
  15. 15. The sortation system of claim 12, wherein said elevator mechanism is a plurality of said elevator mechanisms spaced apart along an edge extension of said conveyor deck.

Description

Sorting system Technical Field The application relates to the technical field of logistics, in particular to a sorting system. Background In a warehouse logistics sorting system, the delivered goods need to be accurately and efficiently sorted into corresponding order boxes or collection containers, and the sorting delivery process directly determines the order processing capacity and the delivery efficiency of a logistics center. In the related art, in order to achieve sorting and delivery of outgoing cargoes to order boxes, a system is generally equipped with a conveyor line and a sorting device, such as a cross-belt sorter or a slide sorter, capable of conveying and sorting cargoes from a storage area to a preset exit position according to order information, and finally, taking down the cargoes from the exit by a manual operator, identifying the corresponding order information, and delivering the cargoes to the corresponding order boxes. However, the order flow in different application scenarios has significant difference or volatility, and the conventional order sorting delivery mode is difficult to flexibly adjust and flexibly expand according to the order flow. Disclosure of Invention The application provides a sorting system, which can realize quick sorting and delivery of cargoes in a limited space, can flexibly adjust module combination and expansion, and meets sorting requirements of different order flows in different scenes. The present application provides a sorting system comprising: The sub-packaging module is used for sorting cargoes according to the order information; The sowing module comprises a sowing shelf and an unloading device, the sowing shelf is provided with a plurality of sowing layers, each sowing layer is provided with a sowing position, and the unloading device is used for receiving cargoes sorted by the sub-packaging module and conveying the cargoes to the corresponding sowing positions; Wherein the subcontracting module is configured to supply order items to one or more of the seeding modules. The sorting system provided by the application realizes decoupling and flexible matching of sorting and seeding operations by arranging the sub-packaging module capable of supplying order goods to one or more seeding modules. The sub-packaging module rapidly and accurately sorts out cargoes according to orders, and the sowing module is responsible for storing cargoes to each sowing position in a scattered mode. The architecture allows the system to dynamically adjust the proportion and the working mode of the sub-packaging module and the seeding module according to the change of the order flow, is convenient to maintain and expand, and improves the overall flexibility, expandability and processing capacity of the sorting system. As an alternative implementation mode, a plurality of sowing layers are arranged at intervals in the vertical direction, each sowing layer is provided with a plurality of sowing positions which are arranged along the first horizontal direction, the sowing goods shelf is arranged at the side of the unloading device, and the unloading device is configured to drive goods to move along the vertical direction and the first horizontal direction so as to convey the goods to any sowing position. By the arrangement, the accurate and flexible delivery of any sowing position on the stereoscopic goods shelf is realized, and the goods collecting capacity of the system is effectively improved in a limited ground space. As an alternative embodiment, the unloading device is configured to receive the goods sorted by the sub-packaging module from at least one of its two ends in the first horizontal direction. The arrangement remarkably improves the flexibility and efficiency of the sorting system in the cargo handing-over link. As an alternative embodiment, at least one sowing shelf is respectively arranged on two sides of the unloading device; the unloading device comprises a first guide rail, a second guide rail and a bidirectional turnover mechanism, wherein the first guide rail extends along the first horizontal direction, and the second guide rail extends along the vertical direction; Wherein the bidirectional turning mechanism is configured to be turned toward the sowing shelves on both sides of the unloading device. By the arrangement, the space utilization rate is greatly improved, and the efficiency of seeding operation and the utilization rate of equipment are remarkably improved. As an alternative embodiment, the sub-packaging module is disposed at one end of the unloading device along the first horizontal direction. By the arrangement, the docking design of the unloading area is simplified, and unified management and maintenance are facilitated. As an optional embodiment, the sorting system further includes a buffer device, where the buffer device is disposed at one end of the unloading device along the first horizontal direction; The buffer device comprises an input