CN212009586U

CN212009586U - Six yard devices of sweeping of online quick dynamic drop-out formula

Info

Publication number: CN212009586U
Application number: CN202020924235.0U
Authority: CN
Inventors: 吴剑武; 林和都
Original assignee: Jujiang Zhizao Xiamen Technology Co ltd
Current assignee: Jujiang Zhizao Xiamen Technology Co ltd
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-11-24
Anticipated expiration: 2030-05-27

Abstract

The utility model relates to an online rapid dynamic drop-out six-side code scanning device, which comprises a frame, a transmission mechanism, a material frame and a code scanning group, wherein the transmission mechanism is arranged on the frame to transmit articles; the material frame is located the lower place ahead of frame front end and is used for receiving article, be equipped with the scanning district between material frame and the frame front end, and scanning code group locates six directions about the scanning district. When article fall by the frame front end after the conveying to get into the material frame behind the scanning zone, when the scanning zone is distinguished, sweep the code group and carry out six faces to article and sweep the sign indicating number. The utility model discloses a drop-out's method utilizes article to six the yard of sweeping to article in aerial time for this device's simple structure, and improved the yard efficiency of sweeping to article, alleviate artificial working strength.

Description

Six yard devices of sweeping of online quick dynamic drop-out formula

Technical Field

The utility model relates to a sign indicating number device is swept in commodity circulation, concretely relates to sign indicating number device is swept to six of quick dynamic drop out on line.

Background

With the rapid development of the logistics industry in China, the requirements on intelligent logistics are higher and higher, and the acquisition and analysis of article information are the basis of the whole intelligent logistics. The collected information is mainly read by an industrial camera to the bar code information on the surface of the article and then fed back to the system, so that the next step of intelligent sorting is formed. However, the existing code scanning system is generally single-sided, so that the front side needs to be placed in a fixed direction with bar code information when being put in goods manually, or a person special for putting goods needs to be arranged at the back side, the working strength is high, sorting errors caused by human factors occur, and the whole system does not realize real intellectualization and informatization.

In view of this, the present disclosure is made by the designer based on the deep conception of the problems of the conventional logistics code scanning device.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the utility model aims to provide a six yard devices of sweeping of online quick dynamic drop-out, it can alleviate working strength, improves the commodity circulation and sweeps a yard efficiency.

In order to achieve the above object, the utility model adopts the following technical scheme:

an online quick dynamic drop-out six-face code scanning device comprises a rack, a conveying mechanism, a material frame and a code scanning group, wherein the rack is provided with a starting end and a terminal, and the starting end is positioned behind the terminal; the transmission mechanism is arranged on the frame and is transmitted from the starting end to the terminal; the material frame is positioned below and in front of the front end of the rack, and a scanning area is arranged between the material frame and the front end of the rack; the code scanning group comprises a first bar code camera, a second bar code camera, a third bar code camera, a fourth bar code camera, a fifth bar code camera and a sixth bar code camera, wherein the first bar code camera and the second bar code camera are respectively positioned in the front and the rear of the code scanning area, the third bar code camera and the fourth bar code camera are respectively positioned above and below the code scanning area, and the fifth bar code camera and the sixth bar code camera are respectively positioned on the left and the right of the code scanning area.

The first barcode camera is connected to the first support frame, the second barcode camera is connected to the second support frame, the third barcode camera is connected to the third support frame, the fourth barcode camera is connected to the fourth support frame, the fifth barcode camera is connected to the fifth support frame, and the sixth barcode camera is connected to the sixth support frame; the first support frame, the second support frame, the fourth support frame, the fifth support frame and the sixth support frame are all connected to the rack, and the third support frame is connected with the second support frame.

The code scanning device further comprises a light source group, wherein the light source group is arranged on the rack and is positioned below, on the left side and on the right side of the scanning area.

The conveying mechanism is a belt conveying mechanism.

After the scheme is adopted, the utility model comprises a frame, a transmission mechanism, a material frame and a code sweeping group, wherein the transmission mechanism is arranged on the frame to transmit articles; the material frame is located the lower place ahead of frame front end and is used for receiving article, be equipped with the scanning district between material frame and the frame front end, and scanning code group locates six directions about the scanning district. When article fall by the frame front end after the conveying to get into the material frame behind the scanning zone, when the scanning zone is distinguished, sweep the code group and carry out six faces to article and sweep the sign indicating number. The utility model discloses a drop-out's method utilizes article to six the yard of sweeping to article in aerial time for this device's simple structure, and improved the yard efficiency of sweeping to article, alleviate artificial working strength.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the code scanning device of the present invention;

fig. 2 is a front view of the code scanning device of the present invention.

Description of reference numerals:

a frame 10; a start end 11; a terminal 12; a transfer mechanism 20; a first barcode camera 31; a first support frame 311; a second camera 32; a second support frame 321; a third barcode camera 33; a third support frame 331; a fourth camera 34; a fourth supporting frame 341; a fifth camera 35; a fifth support frame 351; a sixth camera 36; a sixth support 361; a material frame 40; a light source 50; an article 60.

Detailed Description

The utility model discloses an online quick dynamic drop-out six-side code scanning device, which comprises a frame 10, a transmission mechanism 20, a material frame 40 and code scanning groups, wherein the frame 10 is provided with an initiating terminal 11 and a terminal 12, and the initiating terminal 11 is positioned behind the terminal 12; the transmission mechanism 20 is arranged on the frame 10 and is transmitted from the starting end 11 to the terminal 12; the material frame 40 is positioned below and in front of the front end of the rack 10, and a scanning area is arranged between the material frame 40 and the front end of the rack 10; the code scanning group comprises a first barcode camera 31, a second barcode camera 32, a third barcode camera 33, a fourth barcode camera 34, a fifth barcode camera 35 and a sixth barcode camera 36, the first barcode camera 31 and the second barcode camera 32 are respectively located in the front and the rear of the code scanning region, the third barcode camera 33 and the fourth barcode camera 34 are respectively located in the upper and the lower of the code scanning region, and the fifth barcode camera 35 and the sixth barcode camera 36 are respectively located in the left and the right of the code scanning region.

The conveyor 20 is a belt conveyor 20, and when the object 60 is placed on the conveyor 20, the conveyor 20 is activated to convey the object 60 from the beginning 11 to the end 12 of the rack 10. When the article 60 is conveyed to the terminal 12, it falls downwardly and through the code scanning area into the material frame 40. When the article 60 is in the code scanning area, the barcode cameras positioned in the upper, lower, front, rear, left and right directions of the code scanning area respectively scan the six surfaces of the article 60. Therefore, no matter which direction the bar code surface of the material turns over in the conveying process, the device can accurately and quickly complete code scanning without manual intervention.

The first barcode camera 31 is connected to the first support frame 311, the second barcode camera 32 is connected to the second support frame 321, the third barcode camera 33 is connected to the third support frame 331, the fourth barcode camera 34 is connected to the fourth support frame 341, the fifth barcode camera 35 is connected to the fifth support frame 351, and the sixth barcode camera 36 is connected to the sixth support frame 361. The first support frame 311, the second support frame 321, the fourth support frame 341, the fifth support frame 351, and the sixth support frame 361 are all connected to the rack 10, and the third support frame 331 is connected to the second support frame 321.

In order to improve the code scanning identification efficiency of the code scanning team object 60, the code scanning device further comprises a light source 50 group, and the light source 50 group is arranged on the rack 10 and is positioned below, at the left side and at the right side of the scanning area. The light source 50 group can improve the brightness of the code scanning area in all directions and ensure the code scanning accuracy.

To sum up, the utility model discloses a key lies in, the utility model discloses a drop-out's method utilizes article 60 to six the yard of sweeping to article 60 at aerial time for this device's simple structure, and improved the yard efficiency of sweeping of article 60, alleviate artificial working strength.

The above description is only an embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a sign indicating number device is swept to six of quick dynamic drop out on line which characterized in that: the automatic material sweeping machine comprises a rack, a conveying mechanism, a material frame and a material sweeping group, wherein the rack is provided with an initial end and a terminal, and the initial end is positioned behind the terminal; the transmission mechanism is arranged on the frame and is transmitted from the starting end to the terminal; the material frame is positioned below and in front of the front end of the rack, and a scanning area is arranged between the material frame and the front end of the rack; the code scanning group comprises a first bar code camera, a second bar code camera, a third bar code camera, a fourth bar code camera, a fifth bar code camera and a sixth bar code camera, wherein the first bar code camera and the second bar code camera are respectively positioned in the front and the rear of the code scanning area, the third bar code camera and the fourth bar code camera are respectively positioned above and below the code scanning area, and the fifth bar code camera and the sixth bar code camera are respectively positioned on the left and the right of the code scanning area.

2. The on-line quick dynamic drop-out six-sided code scanning device according to claim 1, characterized in that: the first barcode camera is connected to the first support frame, the second barcode camera is connected to the second support frame, the third barcode camera is connected to the third support frame, the fourth barcode camera is connected to the fourth support frame, the fifth barcode camera is connected to the fifth support frame, and the sixth barcode camera is connected to the sixth support frame; the first support frame, the second support frame, the fourth support frame, the fifth support frame and the sixth support frame are all connected to the rack, and the third support frame is connected with the second support frame.

3. The on-line quick dynamic drop-out six-sided code scanning device according to claim 1, characterized in that: the code scanning device further comprises a light source group, wherein the light source group is arranged on the rack and is positioned below, on the left side and on the right side of the scanning area.

4. The on-line quick dynamic drop-out six-sided code scanning device according to claim 1, characterized in that: the conveying mechanism is a belt conveying mechanism.