CN210701201U - Auxiliary assembly based on projection recognition technology - Google Patents

Abstract

An auxiliary device based on projection identification technology comprises a first-stage conveying device, a plurality of first-stage inclined plates, a second-stage conveying device and a central server; the first-stage conveying device sequentially penetrates through the first mounting frames; the first mounting frames are respectively provided with a first-stage object pushing assembly and a first-stage image acquisition module; the second-stage conveying device sequentially penetrates through the second mounting frames; the plurality of second mounting frames are respectively provided with a second-stage object pushing assembly and a second-stage image acquisition module; two ends of the first-stage inclined plates are respectively positioned above the telescopic ends of the first-stage pushing assemblies and the second-stage conveying devices; the first-stage image acquisition module and the second-stage image acquisition module are both connected with the data receiving module; the data receiving module is connected with the data processing module; the central server is connected with the data processing module, the identification module, the first-stage object pushing assembly and the second-stage object pushing assembly. The utility model is simple in operation convenient to use can improve the sorting efficiency of commodity circulation express delivery commodity.

Description

Auxiliary assembly based on projection recognition technology

Technical Field

The utility model relates to an express delivery transportation technology field especially relates to an auxiliary assembly based on projection identification technique.

Background

Express delivery is also called express delivery or express delivery, and refers to a novel transportation mode that a logistics enterprise (including a freight transport agent) delivers a file or a package entrusted by a user from a sender to a receiver quickly and safely through an independent network of the logistics enterprise or in a combined cooperation mode (namely networking); with the development of the internet of things technology, online shopping is more and more convenient, people can select and purchase various commodities required by themselves on the internet without going out, but with the development of express goods growing in an exponential manner; the express delivery commodities need to be sorted according to different cities and different regions after being transported and packaged, if the express delivery commodities with huge quantity are only sorted manually, the commodity sorting efficiency is low, and the commodities are easy to sort and make mistakes; therefore, the application provides an auxiliary device based on projection identification technology.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides an auxiliary assembly based on projection identification technology, the utility model is simple in operation convenient to use can improve the sorting efficiency of commodity circulation express delivery commodity, and can not appear sorting error.

(II) technical scheme

The utility model provides an auxiliary assembly based on projection identification technology, which comprises a first-stage conveying device, a plurality of first mounting racks, a plurality of first-stage inclined plates, a second-stage conveying device, a plurality of second mounting racks, a data receiving module, a data processing module, a central server and an identification module;

the first mounting frames are arranged on the ground side by side; the first-stage conveying device sequentially penetrates through the first mounting frames; the first mounting frames are respectively provided with a first-stage pushing assembly used for separating express goods to be sorted on the first-stage conveying device from the first-stage conveying device and a first-stage image acquisition module used for acquiring image information A of the express goods to be sorted on the first-stage conveying device;

the plurality of second mounting frames are arranged on the ground side by side; the second-stage conveying device sequentially penetrates through the plurality of second mounting racks, and the linear distance from the second-stage conveying device to the ground is smaller than that from the first-stage conveying device to the ground; the second-level pushing assemblies used for separating the express goods to be sorted on the second-level conveying device from the first-level conveying device and the second-level image acquisition modules used for acquiring image information B of the express goods to be sorted on the first-level conveying device are respectively arranged on the second mounting frames; the second mounting rack, the second-stage object pushing component and the second-stage image acquisition module correspond to each other one by one;

one end of each first-stage inclined plate is respectively positioned at the telescopic end of each first-stage pushing assembly, and the other end of each first-stage inclined plate is respectively positioned above the second-stage conveying devices; the first-stage inclined plate, the first mounting frame, the first-stage object pushing assembly and the first-stage image acquisition module correspond to one another one by one;

a plurality of signal input ends of the data receiving module are respectively connected with the signal output end of the first-stage image acquisition module and the signal output end of the second-stage image acquisition module, and the signal output end of the data receiving module is connected with the signal input end of the data processing module;

the signal input end of the central server is connected with the signal output end of the data processing module, and the signal output ends of the central server are respectively connected with the signal input end of the identification module, the signal input end of the first-stage object pushing assembly and the signal input end of the second-stage object pushing assembly.

Preferably, a plurality of second stage inclined plates are included; one end of each second-stage inclined plate is located at the telescopic end of each second-stage object pushing assembly, wherein the distance from one end, close to the second-stage conveying device, of each second-stage inclined plate to the ground is smaller than the distance from the telescopic end of each second-stage object pushing assembly to the ground.

Preferably, a commodity collection basket; the commodity collecting basket is placed at the end of the first-stage conveying device in the conveying direction.

Preferably, the first-stage pushing assembly comprises a first telescopic device and a first pushing plate;

the telescopic end of the first telescopic device is connected with the first object pushing plate.

Preferably, the second-stage object pushing assembly comprises a second telescopic device and a second object pushing plate;

the telescopic end of the second telescopic device is connected with the second object pushing plate.

Preferably, a memory module is included; the input end of the storage module is connected with the output end of the central server.

The above technical scheme of the utility model has following profitable technological effect:

in the utility model, the level of express commodity screening needs to be set before use, and express commodities are sorted according to different cities if the first-level sorting is carried out; during the second-stage sorting, sorting the quick commodities according to different urban areas, and the like;

when the sorting machine is used, express commodities to be sorted are sequentially placed on the first-stage conveying device; the first-stage conveying device conveys commodities, and the express commodities sequentially pass through the plurality of first mounting racks; the first-stage object pushing assemblies arranged on the first mounting frame are started only after specific city information is identified, and if the plurality of first-stage object pushing assemblies arranged along the conveying direction of the first-stage conveying device are sequentially used for pushing commodities belonging to cities such as Beijing, Shanghai, Guangzhou and the like down from the first-stage conveying device;

the first-level image acquisition module arranged on the first mounting frame acquires commodity image information A of commodities and sends the information to the central server through the data receiving module and the data processing module; the central server generates the received commodity image information A to the identification module; the identification module identifies city information C to which the commodity is sent through the commodity image information A, and the identification module sends the city information C to the central server; when the urban information C is Beijing, a first-stage object pushing component in the conveying direction of the first-stage conveying device operates to push and drop commodities onto a first-stage inclined plate, and when the urban information C is Shanghai, the first-stage object pushing component in the conveying direction of the first-stage conveying device does not operate; the commodity continues to move to a second first-stage image acquisition module, the second first-stage image acquisition module operates and finally obtains the city information C of the commodity as Shanghai, and then a second first-stage object pushing assembly in the conveying direction of the first-stage conveying device operates to push the commodity onto the first-stage inclined plate;

similarly, when commodity dropped to the second level conveyor on, pushed away thing subassembly and second level image acquisition module through the second level that is equipped with and select separately the commodity that belongs to different regions in different cities to improve the sorting efficiency of commodity greatly, moreover the utility model provides an auxiliary assembly is selected separately with the express delivery with the commodity with low costs easy operation convenient to use.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of auxiliary assembly based on projection identification technology.

Fig. 2 is a schematic block diagram of an auxiliary device based on projection recognition technology according to the present invention.

Reference numerals: 1. a first stage of conveying means; 2. a first mounting bracket; 3. a first stage push assembly; 31. a first telescoping device; 4. a first-stage inclined plate; 5. a second stage of conveying means; 6. a second mounting bracket; 7. a second-stage inclined plate; 8. a second stage push assembly; 81. a second telescoping device; 9. a first-stage image acquisition module; 10. a second-level image acquisition module; 11. a data receiving module; 12. a data processing module; 13. a central server; 14. and identifying the module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-2, the utility model provides an auxiliary device based on projection recognition technology, including a first-stage conveying device 1, a plurality of first mounting brackets 2, a plurality of first-stage inclined plates 4, a second-stage conveying device 5, a plurality of second mounting brackets 6, a data receiving module 11, a data processing module 12, a central server 13 and a recognition module 14;

the plurality of first mounting frames 2 are arranged on the ground side by side; the first-stage conveying device 1 sequentially penetrates through the first mounting frames 2; the first-stage conveying device 1 is used for conveying express goods to be sorted;

the first mounting frames 2 are respectively provided with a first-stage pushing assembly 3 for separating the express goods to be sorted on the first-stage conveying device 1 from the first-stage conveying device 1 and a first-stage image acquisition module 9 for acquiring image information A of the express goods to be sorted on the first-stage conveying device 1;

the second mounting frames 6 are arranged on the ground side by side; the second-stage conveying device 5 sequentially penetrates through the plurality of second mounting frames 6, and the linear distance between the second-stage conveying device 5 and the ground is smaller than the linear distance between the first-stage conveying device 1 and the ground;

the second mounting frames 6 are respectively provided with a second-stage object pushing component 8 for separating the express goods to be sorted on the second-stage conveying device 5 from the first-stage conveying device 1 and a second-stage image acquisition module 10 for acquiring image information B of the express goods to be sorted on the first-stage conveying device 1; the second mounting rack 6, the second-stage object pushing component 8 and the second-stage image acquisition module 10 are in one-to-one correspondence;

one end of each first-stage inclined plate 4 is located at the telescopic end of each first-stage pushing assembly 3, the other end of each first-stage inclined plate 4 is located above each second-stage conveying device 5, and express commodities fall onto the first-stage inclined plates 4 from the first-stage conveying devices 1 and slide onto the second-stage conveying devices 5 from the first-stage inclined plates 4; the first-stage inclined plate 4, the first mounting frame 2, the first-stage object pushing assembly 3 and the first-stage image acquisition module 9 correspond to each other one by one;

a plurality of signal input ends of the data receiving module 11 are respectively connected with a signal output end of the first-stage image acquisition module 9 and a signal output end of the second-stage image acquisition module 10, and a signal output end of the data receiving module 11 is connected with a signal input end of the data processing module 12;

the signal input end of the central server 13 is connected with the signal output end of the data processing module 12, and a plurality of signal output ends of the central server 13 are respectively connected with the signal input end of the identification module 14, the signal input end of the first-stage object pushing component 3 and the signal input end of the second-stage object pushing component 8.

In the utility model, the level of express commodity screening needs to be set before use, and express commodities are sorted according to different cities if the first-level sorting is carried out; during the second-stage sorting, sorting the quick commodities according to different urban areas, and the like;

when in use, express goods to be sorted are sequentially placed on the first-stage conveying device 1; the first-stage conveying device 1 conveys commodities, and express commodities pass through the first mounting frames 2 in sequence; the first-stage object pushing assemblies 3 arranged on the first mounting rack 2 are started only after specific city information is identified, for example, the plurality of first-stage object pushing assemblies 3 arranged along the conveying direction of the first-stage conveying device 1 are sequentially used for pushing commodities belonging to cities such as Beijing, Shanghai, Guangzhou and the like down from the first-stage conveying device 1;

the first-level image acquisition module 9 arranged on the first mounting rack 2 acquires commodity image information A of a commodity and sends the information to the central server 13 through the data receiving module 11 and the data processing module 12; the central server 13 generates the received commodity image information a to the identification module 14; the identification module 14 identifies the city information C to which the commodity is sent through the commodity image information a, and the identification module 14 sends the city information C to the central server 13; when the urban information C is Beijing, a first-stage object pushing component 3 in the conveying direction of the first-stage conveying device 1 operates to push and drop commodities onto a first-stage inclined plate 4, and when the urban information C is Shanghai, the first-stage object pushing component 3 in the conveying direction of the first-stage conveying device 1 does not operate; the commodity continues to advance to the second first-stage image acquisition module 9, the second first-stage image acquisition module 9 operates and finally obtains the city information C of the commodity as Shanghai, and the second first-stage object pushing assembly 3 in the conveying direction of the first-stage conveying device 1 operates to push the commodity onto the first-stage inclined plate 4;

similarly, when commodity dropped to second level conveyor 5 on, pushed away thing subassembly 8 and second level image acquisition module 10 through the second level that is equipped with and select separately the commodity that belongs to different city different zone to improve the sorting efficiency of commodity greatly, moreover the utility model provides an auxiliary assembly is selected separately with the express delivery to commodity circulation is with low costs easy operation convenient to use.

In an alternative embodiment, a plurality of second stage inclined plates 7 are included; one end of each second-stage inclined plate 7 is respectively positioned at the telescopic end of each second-stage object pushing assembly 8, wherein the distance from one end, close to the second-stage conveying device 5, of each second-stage inclined plate 7 to the ground is smaller than the distance from the telescopic end of each second-stage object pushing assembly 8 to the ground; the collection frame is placed at the lower end of the second-stage inclined plate 7, and express commodities belonging to different areas can be collected.

In an alternative embodiment, a merchandise collection basket is included; the commodity collecting basket is arranged at the tail end of the first-stage conveying device 1 in the conveying direction; the package of express delivery commodity may take place to damage, is used for collecting the commodity that can not discern the city through the commodity collection basket that sets up.

In an alternative embodiment, the first stage push assembly 3 comprises a first telescopic device 31 and a first push plate;

the telescopic end of the first telescopic device 31 is connected with the first object pushing plate.

In an alternative embodiment, the second stage pushing assembly 8 comprises a second telescoping device 81 and a second pushing plate;

the telescopic end of the second telescopic device 81 is connected with the second object pushing plate.

In an alternative embodiment, a memory module is included; the input end of the storage module is connected with the output end of the central server 13; the storage module that is equipped with stores the sorting record of quick commodity, conveniently looks over.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (6)

1. Auxiliary equipment based on projection identification technology is characterized by comprising a first-stage conveying device (1), a plurality of first mounting frames (2), a plurality of first-stage inclined plates (4), a second-stage conveying device (5), a plurality of second mounting frames (6), a data receiving module (11), a data processing module (12), a central server (13) and an identification module (14);

the first mounting frames (2) are arranged on the ground side by side; the first-stage conveying device (1) sequentially penetrates through the first mounting frames (2); the first mounting frames (2) are respectively provided with a first-stage pushing assembly (3) for separating express goods to be sorted on the first-stage conveying device (1) from the first-stage conveying device (1) and a first-stage image acquisition module (9) for acquiring image information A of the express goods to be sorted on the first-stage conveying device (1);

a plurality of second mounting frames (6) are arranged on the ground side by side; the second-stage conveying device (5) sequentially penetrates through the plurality of second mounting racks (6), and the linear distance from the second-stage conveying device (5) to the ground is smaller than the linear distance from the first-stage conveying device (1) to the ground; the second-stage pushing assemblies (8) used for separating express goods to be sorted on the second-stage conveying device (5) from the first-stage conveying device (1) and the second-stage image acquisition modules (10) used for acquiring image information B of the express goods to be sorted on the first-stage conveying device (1) are respectively arranged on the second mounting frames (6); the second mounting rack (6), the second-stage object pushing component (8) and the second-stage image acquisition module (10) are in one-to-one correspondence;

one ends of the first-stage inclined plates (4) are respectively positioned at the telescopic ends of the first-stage pushing assemblies (3), and the other ends of the first-stage inclined plates (4) are respectively positioned above the second-stage conveying devices (5); the first-stage inclined plate (4), the first mounting frame (2), the first-stage object pushing assembly (3) and the first-stage image acquisition modules (9) are in one-to-one correspondence;

a plurality of signal input ends of the data receiving module (11) are respectively connected with a signal output end of the first-stage image acquisition module (9) and a signal output end of the second-stage image acquisition module (10), and a signal output end of the data receiving module (11) is connected with a signal input end of the data processing module (12);

the signal input end of the central server (13) is connected with the signal output end of the data processing module (12), and a plurality of signal output ends of the central server (13) are respectively connected with the signal input end of the identification module (14), the signal input end of the first-stage object pushing assembly (3) and the signal input end of the second-stage object pushing assembly (8).

2. An auxiliary device based on projection recognition technology according to claim 1, characterized by comprising a plurality of second-stage inclined plates (7); one end of each second-stage inclined plate (7) is located at the telescopic end of each second-stage object pushing assembly (8), wherein the distance from one end, close to the second-stage conveying device (5), of each second-stage inclined plate (7) to the ground is smaller than the distance from the telescopic end of each second-stage object pushing assembly (8) to the ground.

3. The auxiliary device based on projection recognition technology as claimed in claim 1, characterized by comprising a commodity collection basket; the commodity collecting basket is arranged at the tail end of the first-stage conveying device (1) in the conveying direction.

4. The auxiliary device based on projection recognition technology of claim 1, wherein the first stage object pushing assembly (3) comprises a first telescopic device (31) and a first object pushing plate;

the telescopic end of the first telescopic device (31) is connected with the first object pushing plate.

5. The auxiliary device based on projection recognition technology of claim 1, wherein the second stage object pushing assembly (8) comprises a second telescopic device (81) and a second object pushing plate;

the telescopic end of the second telescopic device (81) is connected with the second object pushing plate.

6. The auxiliary device based on projection recognition technology as claimed in claim 1, characterized by comprising a storage module; the input end of the storage module is connected with the output end of the central server (13).

Images