CN212100890U - Yard structure is swept to assembly line - Google Patents

Abstract

The utility model discloses a yard structure is swept to assembly line, include: a conveyor for conveying the packing cases; a first blocking unit for selectively being in a blocked transmission path state or a non-blocked transmission path state; the second blocking unit is positioned at the downstream of the first blocking unit and used for being selectively in a blocked conveying path state or a non-blocked conveying path state; the sensor is positioned at the second blocking unit and used for detecting whether a packing box exists or not; the code scanning unit is used for scanning the bar codes on the packing boxes; and the controller is electrically connected with the first blocking unit, the second blocking unit, the sensor and the code scanning unit respectively. The utility model provides a yard structure is swept to assembly line, through the first different position states that blocks the unit of unit and second of controller control to the packing box on the assembly line is intercepted in the controllable way, and sweeps yard unit work through controller control after intercepting the packing box. The utility model discloses need not artifical the participation, improve and sweep a yard efficiency.

Description

Yard structure is swept to assembly line

Technical Field

The utility model belongs to the technical field of the storage management technique and specifically relates to a yard structure is swept to assembly line.

Background

The bar code has become a large trend of market circulation along with the continuous development of information technology, so long as the commodity enters a market, a supermarket or various large sales places, various information of the commodity needs to be acquired through bar code scanning, and meanwhile, the bar code is widely applied to retail industry, logistics, food, medical health, clothing, building materials, automobile accessories and identification.

In recent years, barcode scanning is widely promoted in various industries, and in order to effectively carry out warehousing and warehousing of packing boxes, the purpose of rapidly carrying out warehousing and warehousing of goods with packing boxes can be achieved by using barcodes.

For the logistics industry, the warehousing and the delivery of goods are very important works, and each stroke needs to be recorded. For goods with a packing box, the goods can be recorded only by scanning a bar code on the packing box.

At present, the packing box on the production line is manually scanned, namely, an operator holds the scanner by hand to scan the bar code attached to the packing box, so that the labor intensity is increased, and the automation degree is also reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a sweep a yard structure on assembly line, use automation equipment to sweep the sign indicating number.

In order to solve the technical problem, the utility model provides a yard structure is swept to assembly line, include:

a conveyor for conveying the packing cases;

a first blocking unit for selectively being in a blocked transmission path state or a non-blocked transmission path state;

the second blocking unit is positioned at the downstream of the first blocking unit and used for being selectively in a blocked conveying path state or a non-blocked conveying path state;

the sensor is positioned at the second blocking unit and used for detecting whether a packing box exists or not;

the code scanning unit is used for scanning the bar codes on the packing boxes;

the controller is respectively electrically connected with the first blocking unit, the second blocking unit, the sensor and the code scanning unit and is used for controlling the second blocking unit to be in a state of blocking a conveying path and simultaneously controlling the first blocking unit to be in a state of not blocking the conveying path when the sensor does not detect the packing box; the first blocking unit is also used for controlling the first blocking unit to be in a state of blocking a conveying path and controlling the code scanning unit to work when the sensor detects the packing box; and the second blocking unit is also used for controlling the second blocking unit to be in a non-blocking transmission path state after the code scanning unit finishes working.

Further, the code scanning unit is located downstream of the second blocking unit, and the code scanning unit includes: the device comprises a lifting element fixed on the conveyor and a code scanning element fixed on the lifting element, wherein the lifting element is electrically connected with the controller and used for driving the code scanning element to move up and down under the control of the controller, and the code scanning element is electrically connected with the controller and used for scanning bar codes on a packing box under the control of the controller.

Further, the lifting element is an electric cylinder.

Further, the code scanning element is a code scanning gun.

Further, the scanning unit further includes: a mounting assembly, the mounting assembly comprising: be fixed in "door" shape frame on the conveyer, install in the track of frame top, card are located slider and retaining member on the track, the retaining member is used for fixing the slider with orbital relative position, the elevating element with slider fixed connection.

Further, the locking member is a bolt.

Further, the first blocking unit and the second blocking unit have the same structure and both comprise: the driver is electrically connected with the controller and is used for driving the baffle to move under the control of the controller.

Furthermore, a plurality of rollers are arranged on one side, facing the packing box, of the baffle, and each roller protrudes out of the surface of the baffle.

Has the advantages that:

the utility model provides a yard structure is swept to assembly line, through the first different position states that blocks the unit of unit and second of controller control to the packing box on the assembly line is intercepted in the controllable way, and sweeps a yard unit work through controller control after intercepting the packing box, accomplishes and sweeps the sign indicating number. The utility model discloses accomplish through automation equipment completely, need not artifical the participation, improved degree of automation, improve and sweep a yard efficiency.

Drawings

FIG. 1 is a schematic sectional view of the structure of the present invention;

FIG. 2 is a sectional view A-A of FIG. 1;

fig. 3 is an enlarged view of a partial view B in fig. 1.

In the figure, 100. a conveyor, 101. a main body frame, 102. a roller shaft;

200. a first blocking unit, 201, a baffle, 202, a driver;

300. a second blocking unit, 301, a baffle, 302, a driver, 303, a roller;

400. a packing box, 401, a bar code, 402, a carton;

500. a lifting element;

600. a code scanning element;

700. mounting assembly, 701, frame, 702, rail, 703, slider, 704, locking member.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

A kind of assembly line sweeps a yard structure, as shown in fig. 1-3, including:

conveyor 100 for conveying packing box 400, conveyor 100 chooses the roller conveyor for use, includes: a body frame 101 and a drum shaft 102, and the packing case 400 includes: a carton 402 and a bar code 401 attached to an outer surface of the carton 402;

a first blocking unit 200 for selectively being in a blocked conveying path state of making the packing case 400 not pass or a non-blocked conveying path state of making the packing case 400 pass;

a second blocking unit 300, located downstream of the first blocking unit 200, for selectively being in a blocked conveying path state, i.e., a state in which the packing box 400 cannot pass, or a non-blocked conveying path state, i.e., a state in which the packing box 400 can pass;

a sensor (not shown) located at the second blocking unit 300 for detecting whether there is the packing case 400, the sensor being a commercially available product;

a code scanning unit for scanning the bar code 401 on the packing box 400;

and a controller (not shown) electrically connected to the first barrier unit 200, the second barrier unit 300, the sensor, and the code scanning unit, respectively.

The working process is as follows: the sensor is constantly in a detection state, when the packaging box 400 is not detected, the controller controls the second blocking unit 300 to be in a state of blocking a transmission path, and simultaneously controls the first blocking unit 200 to be in a state of not blocking the transmission path, the packaging box 400 is conveyed to the second blocking unit 300 and is blocked by the second blocking unit 300 and does not advance any more, the sensor detects the packaging box 400, the controller controls the first blocking unit 200 to be in a state of blocking the transmission path, so that the subsequent packaging box 400 is prevented from being continuously conveyed forwards, and simultaneously controls the code scanning unit to work, after the code scanning unit works, the controller controls the second blocking unit 300 to be in a state of not blocking the transmission path, and the packaging box 400 passes over the second blocking unit 300 to be continuously conveyed forwards.

The utility model provides a yard structure is swept to assembly line, through the first different position states that blocks unit 200 and second and block unit 300 of controller control to the packing box 400 on the controlled interception assembly line, and sweep yard unit work through controller control after intercepting packing box 400, the sign indicating number is swept in the completion. The utility model discloses accomplish through automation equipment completely, need not artifical the participation, improved degree of automation, improve and sweep a yard efficiency.

The code scanning unit is disposed at a position as far as possible not to interfere with the conveying of the packing box 400, but in some special cases, as shown in fig. 1, the code scanning unit must be disposed on the conveying path, that is, the code scanning unit is located downstream of the second blocking unit 300, and the code scanning unit includes: the lifting element 500 is electrically connected with the controller and used for driving the code scanning element 600 to move up and down under the control of the controller, and the code scanning element 600 is electrically connected with the controller and used for scanning the bar code 401 on the packing box 400 under the control of the controller. When the code scanning operation starts, the controller controls the lifting element 500 to drive the code scanning element 600 to descend, the controller controls the code scanning element 600 to scan codes after the code scanning operation is finished, and after the code scanning operation is finished, the controller controls the lifting element 500 to drive the code scanning element 600 to ascend, so that the situation that the code scanning element 600 blocks a transmission path of the packaging box 400 is avoided. The lifting element 500 can be a commercially available electric cylinder, and the code scanning element 600 can be a commercially available code scanning gun.

The position of the bar code 401 of the packing box 400 with different specifications is different, the code scanning element 600 needs to be changed correspondingly, and in order to change the position of the code scanning element 600 conveniently, the scanning unit further comprises: a mounting assembly 700, the mounting assembly 700 comprising: the lifting device comprises a door-shaped frame 701 fixed on the conveyor 100, a rail 702 arranged at the top end of the frame 701, a sliding block 703 clamped on the rail 702 and a locking member 704, wherein the locking member 704 is used for fixing the relative position of the sliding block 703 and the rail 702, and the lifting element 500 is fixedly connected with the sliding block 703. When it is necessary to change the position of symbol scanning member 600, lock member 704 is loosened, slider 703 is moved to a predetermined position, and lock member 704 is tightened. The locking member 704 may be a bolt, which is threadedly connected to the sliding block 703 and extends through the sliding block 703, and the end of the bolt abuts against the rail 702.

In an optional implementation manner of this embodiment, the first blocking unit 200 includes: the baffle 201 and the driver 202, the driver 202 is electrically connected with the controller, and is used for driving the baffle 201 to move under the control of the controller. Because a gap is formed between two adjacent roller shafts 102 in this embodiment, the baffle 201 can be disposed at the gap between two adjacent roller shafts 102, the driver 202 is disposed below the conveyor 100, the driver 202 drives the baffle 201 to move up and down, when the top end of the baffle 201 is higher than the roller shafts 102, the first blocking unit 200 is in the state of blocking the conveying path, and when the top end of the baffle 201 is lower than the roller shafts 102, the first blocking unit 200 is in the state of not blocking the conveying path. Likewise, the second barrier unit 300 includes: the baffle 301 and the driver 302, the driver 302 is electrically connected with the controller, and is used for driving the baffle 301 to move under the control of the controller. Because a gap is formed between two adjacent roller shafts 102 in this embodiment, the baffle 301 can be disposed at the gap between two adjacent roller shafts 102, the driver 302 is disposed below the conveyor 100, the driver 302 drives the baffle 301 to move up and down, when the top end of the baffle 301 is higher than the roller shafts 102, the second blocking unit 300 is in the state of blocking the conveying path, and when the top end of the baffle 301 is lower than the roller shafts 102, the second blocking unit 300 is in the state of not blocking the conveying path.

In the above embodiment, the surface of the packing box 400 may be scratched when the flap 301 ascends or descends, and therefore, to avoid scratching, the flap 301 is provided with a plurality of rollers 303 facing the packing box 400, and each roller 303 protrudes from the surface of the flap 301. Thus, sliding friction between the baffle 301 and the packing box 400 is changed into rolling friction, and scraping can be effectively avoided. Similarly, the baffle 201 may also be provided with rollers, which are not described in detail herein.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (8)

1. A yard structure is swept to assembly line, its characterized in that includes:

a conveyor for conveying the packing cases;

a first blocking unit for selectively being in a blocked transmission path state or a non-blocked transmission path state;

the second blocking unit is positioned at the downstream of the first blocking unit and used for being selectively in a blocked conveying path state or a non-blocked conveying path state;

the sensor is positioned at the second blocking unit and used for detecting whether a packing box exists or not;

the code scanning unit is used for scanning the bar codes on the packing boxes;

the controller is respectively electrically connected with the first blocking unit, the second blocking unit, the sensor and the code scanning unit and is used for controlling the second blocking unit to be in a state of blocking a conveying path and simultaneously controlling the first blocking unit to be in a state of not blocking the conveying path when the sensor does not detect the packing box; the first blocking unit is also used for controlling the first blocking unit to be in a state of blocking a conveying path and controlling the code scanning unit to work when the sensor detects the packing box; and the second blocking unit is also used for controlling the second blocking unit to be in a non-blocking transmission path state after the code scanning unit finishes working.

2. The pipelined code scanning structure of claim 1 wherein said code scanning unit is located downstream of said second blocking unit, said code scanning unit comprising: the device comprises a lifting element fixed on the conveyor and a code scanning element fixed on the lifting element, wherein the lifting element is electrically connected with the controller and used for driving the code scanning element to move up and down under the control of the controller, and the code scanning element is electrically connected with the controller and used for scanning bar codes on a packing box under the control of the controller.

3. The in-line code scanning structure of claim 2, wherein the lifting element is an electric cylinder.

4. The in-line code scanning structure of claim 2, wherein the code scanning element is a code scanning gun.

5. The pipelined code scanning structure of claim 2 wherein said code scanning unit further comprises: a mounting assembly, the mounting assembly comprising: be fixed in "door" shape frame on the conveyer, install in the track of frame top, card are located slider and retaining member on the track, the retaining member is used for fixing the slider with orbital relative position, the elevating element with slider fixed connection.

6. The in-line code scanning structure of claim 5, wherein the retaining member is a bolt.

7. The pipeline code scanning structure of claim 1, wherein the first blocking unit and the second blocking unit are identical in structure and each comprises: the driver is electrically connected with the controller and is used for driving the baffle to move under the control of the controller.

8. The in-line code scanning structure of claim 7, wherein the side of the baffle facing the package box is provided with a plurality of rollers, each of which protrudes from the surface of the baffle.

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