CN215246107U - Automatic sign indicating number labeller of sweeping of battery - Google Patents

Abstract

The utility model discloses an automatic sign indicating number labeller of sweeping of battery, including: the battery placing frame is used for placing a battery to be labeled; the battery code scanning position is used for placing the battery conveyed from the battery placing frame; the battery code scanning device is used for scanning and identifying the identification code of the battery on the battery code scanning position; the label is to be pasted; the label feeding mechanism is used for conveying the labels to the upper part of the position where the labels are to be pasted; the label scanning device is used for scanning and identifying the identification code of the label above the position to be pasted with the label; the mobile labeling platform is used for receiving the battery which is scanned on the battery scanning code position and conveying the battery to the lower part of the label which is scanned; the labeling mechanism is used for attaching the scanned label to a battery of the movable labeling platform; and the industrial control computer is used for binding the identification code information scanned by the battery code scanning device and the label code scanning device together and transmitting the information to the central database. The utility model discloses can realize sweeping sign indicating number and subsides mark integrated into one piece processing.

Description

Automatic sign indicating number labeller of sweeping of battery

Technical Field

The utility model relates to a battery processing technology field specifically relates to an automatic sign indicating number labeller of sweeping of battery.

Background

Along with the rapid development of science and technology, the use of battery is more and more extensive, need carry out the processing of subsides mark in the production process of battery to conveniently trace back etc.. For example, the first method is to label the battery, but the labeling machines can only label the battery, and before labeling, the battery and the identification codes such as a graphic code or a bar code on the label cannot be scanned and identified, and the identification codes on the battery and the label cannot be bound together one to one and then stored in a database, which results in inconvenient subsequent product tracing; the second method is to manually scan the identification codes on the battery and the label respectively and then manually label the label, and the method has the advantages of extremely low production efficiency, low labeling precision and high requirement on workers.

SUMMERY OF THE UTILITY MODEL

In view of the problems existing in the prior art, the utility model aims to provide an automatic battery code scanning and labeling machine, which can respectively scan and identify the identification codes on a battery and a label before labeling the battery, and can bind the two identification codes one by one and then send the two identification codes to a central database, thereby facilitating the subsequent tracing of the product and simultaneously realizing the real-time monitoring of the identification code information of the product in the processing process; moreover, the equipment integrating code scanning and labeling can greatly improve the processing efficiency and is beneficial to reducing the production cost.

In order to realize the purpose, the technical scheme of the utility model is that:

the utility model provides an automatic sign indicating number labeller of sweeping of battery which characterized in that:

comprises the following steps:

the battery placing frame is used for placing a battery to be labeled;

the battery code scanning position is used for placing the battery conveyed from the battery placing frame;

the battery code scanning device is used for scanning and identifying the identification code of the battery on the battery code scanning position;

the label is to be pasted;

the label feeding mechanism is used for conveying labels to the position above the label sticking position;

the label scanning device is used for scanning and identifying the identification code of the label above the label to be attached;

the mobile labeling platform is used for receiving the battery which is scanned on the battery scanning code position and conveying the battery to the lower part of the label which is scanned;

the labeling mechanism is used for attaching the scanned label to the battery of the movable labeling platform;

and the industrial control computer is used for correspondingly binding the identification code information scanned by the battery code scanning device and the identification code information scanned by the label code scanning device together and transmitting the data to a central database.

For the additional structure of the above technical scheme, the following scheme is also included:

as a specific embodiment, the battery cleaning device further comprises a battery conveying mechanism for conveying the batteries on the battery placing frame to the battery cleaning position.

As a specific embodiment, the labeling device further comprises a first manipulator, wherein the first manipulator is used for placing the battery which is scanned on the battery scanning code position on the mobile labeling platform.

As a specific embodiment, a linear module for driving the moving labeling platform to move linearly is disposed at the bottom of the moving labeling platform.

As a specific embodiment, the labeling device further comprises a blanking conveyer belt for receiving and collecting the labeled batteries on the moving labeling platform.

Furthermore, the labeling device also comprises a second manipulator which is used for placing the labeling-completed batteries on the moving labeling platform on the blanking conveyor belt.

As a specific embodiment, the system further comprises an industrial computer display screen, which is used for displaying the identification code information scanned by the battery code scanning device and the label code scanning device.

As a specific embodiment, the label feeding mechanism comprises a winding disc and a tensioning mechanism.

As a specific embodiment, the labeling mechanism comprises a labeling wheel and a driving device for driving the labeling wheel to move up and down.

The utility model has the advantages that:

the utility model is provided with the battery code scanning device and the label code scanning device, and is matched with the use of an industrial personal computer, so that the battery can firstly scan and identify the identification code on the battery and the identification code on the label respectively in the labeling process, then binding the identification codes scanned by the two codes together one by one and uploading the binding codes to a central database, so as to facilitate the follow-up product tracing, for example, for tracing the battery information and the corresponding production information, and also can utilize the identification code scanning to carry out the real-time on-line monitoring of the identification code information during the production process of the product, and then, the labeling can be conveniently carried out by matching with the battery conveying mechanism, the movable labeling platform, the labeling mechanism and other mechanisms in the processing process, therefore, the product can be automatically processed on one device by scanning codes and labeling, so that the processing efficiency can be greatly improved, and the production cost can be reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic diagram of the overall structure of the present invention.

Reference numerals:

1. a battery placing rack; 2. a battery scan bit; 3. a battery code scanning device; 4. the label is to be pasted; 5. a label feeding mechanism; 51. coiling; 52. a tensioning mechanism; 6. a label code scanning device; 7. moving the labeling platform; 8. a labeling mechanism; 81. a marking wheel; 9. a battery transport mechanism; 10. a first manipulator; 11. a linear module; 12. blanking a conveying belt; 13. a second manipulator; 14. an industrial control computer display screen; 100. a battery; 200. and (4) a label.

Detailed Description

The invention will be further elucidated with reference to the drawings and the embodiments, which are exemplary only and do not limit the scope of the invention.

As shown in fig. 1 and fig. 2, an automatic code scanning labeling machine for batteries comprises a battery placing rack 1 for placing batteries 100 to be labeled; the battery scanning code position 2 is used for placing the battery 100 conveyed from the battery placing frame 1, and specifically, the battery scanning code position 2 is positioned on one side of the battery placing frame 1; the battery code scanning device 3 is used for scanning and identifying an identification code (a graphic code or a bar code) of the battery 100 on the battery code scanning position 2, and specifically, the battery code scanning device 3 is positioned above the battery code scanning position 2 and is just opposite to the battery code scanning position 2; the label waiting position 4 is positioned behind the battery code scanning position 2; the label feeding mechanism 5 is used for conveying the labels 200 to the position above the label sticking positions 4, and specifically, the label feeding mechanism 5 is positioned behind the label sticking positions 4; the label scanning device 6 is used for scanning and identifying an identification code (a graphic code or a bar code) of the label 200 above the to-be-labeled position 4, and specifically, the label scanning device 6 is positioned above the to-be-labeled position 4; the mobile labeling platform 7 is used for receiving the battery 100 which is scanned on the battery code scanning position 2 and conveying the battery 100 to the position below the label 200 which is scanned, and particularly, the mobile labeling platform 7 is movably positioned below the label code scanning device 6; the labeling mechanism 8 is used for attaching the scanned label 200 to the battery 100 of the mobile labeling platform 7, namely labeling, and specifically, the labeling mechanism 8 is located above the label scanning code position 6; and the industrial control computer (not shown) is used for correspondingly binding the identification code information scanned by the battery code scanning device 3 and the label code scanning device 6 together and transmitting data to the central database, for example, one scanned battery identification code and the other scanned label identification code are correspondingly bound one by one, and then the bound data are correspondingly transmitted to the central database, so that product tracing can be conveniently carried out later, and the identification code information can be monitored in real time in the labeling process of the battery 100 to prevent errors.

The automatic battery code scanning labeling machine further comprises a battery conveying mechanism 9, the battery conveying mechanism 9 is used for conveying the batteries 100 on the battery placing frame 1 to the battery scanning position 2, and specifically, the battery conveying mechanism 9 is located below the battery placing frame 1. As a specific embodiment, the battery conveying mechanism 9 may utilize a suction cup to suck the battery 100 on the battery rack 1, and then drive the suction cup to move horizontally and up and down through a slide rail assembly and a jacking mechanism, respectively, so as to transport the battery 100 sucked by the suction cup to the battery scanning position 2.

This automatic sign indicating number labeller of sweeping of battery is still including first manipulator 10, and it is used for sweeping the battery 100 that the scanning on code position 2 was accomplished and place on removing a mark platform 7, and is concrete, and first manipulator 10 is located the battery and sweeps code position 2 and remove the top of a mark platform 7. As a specific embodiment, the first manipulator 10 may also use a suction cup to suck the battery 100 on the battery scanning position 2, and then drive the suction cup to move horizontally and vertically through a slide rail assembly and an air cylinder, so as to transport the battery 100 sucked by the suction cup from the battery scanning position 2 to the mobile labeling platform 7.

The bottom of the movable labeling platform 7 is provided with a linear module 11 for driving the movable labeling platform 7 to move linearly, so that the movement of the movable labeling platform 7 can be stably controlled.

The automatic battery code scanning labeling machine further comprises a blanking conveyer belt 12, which is used for receiving and collecting the batteries 100 which are labeled on the movable labeling platform 7, specifically, the blanking conveyer belt 12 is positioned on one side of the movable labeling platform. For convenience of collection, a battery collection frame can be arranged at the discharge end of the blanking conveyer belt 12.

In order to conveniently convey the batteries 7 on the mobile labeling platform 7 to the blanking conveyer belt 12, the automatic battery code-scanning labeling machine further comprises a second manipulator 13, which is used for placing the batteries 100 which are completely labeled on the mobile labeling platform 7 on the blanking conveyer belt 12, and specifically, the second manipulator 13 is located between the mobile labeling platform 7 and the blanking conveyer belt 12. As a specific embodiment, the second robot 13 may also suck the labeled battery 100 on the moving labeling platform 7 by using a suction cup, and then drive the suction cup to move horizontally and vertically by using a slide rail assembly and an air cylinder, respectively, so as to transport the battery 100 sucked by the suction cup and thus the moving labeling platform 7 to the discharging conveyor 12.

This automatic sign indicating number labeller of sweeping of battery is still including industrial control computer display 14, and it can be used for showing that the battery sweeps the sign indicating number information that sign indicating number device 3 and label swept sign indicating number device 6 and scanned, can also show information such as the binding condition of battery identification code and label identification code, of course, also can show information such as work production situation, and here is no longer specifically repeated.

Preferably, the label feeding mechanism 5 includes a winding disc 51 and a tensioning mechanism 52, etc., the winding disc 51 is used for winding the label tape, and the tensioning mechanism 52 is used for guiding the label tape, so that the label tape is always in a slightly tensioned state, and the label tape is prevented from being uneven in the feeding process to affect subsequent labeling. Of course, the label feeding mechanism 5 includes other components, but since the label feeding mechanism 5 is prior art, it is not described in detail here.

The labelling mechanism 8 comprises a marking wheel 81 and a drive for driving the marking wheel 81. The label 200 after scanning can be pressed and attached to the battery 100 by the label pressing wheel 81 to complete labeling.

Of course, the automatic battery code scanning labeling machine further comprises a main body, so that the parts can be supported and fixed.

The detailed usage principle of the utility model is introduced below so as to understand the utility model:

firstly, stacking a certain number of batteries 100 to be labeled on a battery placing rack 1; the battery conveying mechanism 9 is started, and one battery 100 on the battery placing frame 1 is conveyed into the battery scanning code position 2; the battery code scanning device 3 is started, and scans and identifies the identification code attached to the battery 100; after the scanning is finished, the first mechanical arm 10 is started, the battery 100 which is scanned and identified in the battery scanning code position 2 is taken away and placed on the movable labeling platform 7, and then the movable labeling platform 7 moves towards the labeling mechanism 8; meanwhile, the label feeding mechanism 5 conveys the corresponding label to be labeled to the label to be labeled position 4 and is positioned below the label code scanning device 6; the label code scanning device 6 is started, and scans and identifies the self identification code on the label 200; after the scanning is finished, the movable labeling platform 7 also moves to the position just below the label 200 which is scanned and identified; then the labeling mechanism 8 is started, the driving device drives the labeling wheel 81 to move downwards, so that the labeling wheel 81 attaches one end of the label 200 to one end of the battery 100, and then the labeling platform 7 is moved to a direction away from the labeling mechanism 8 for a plurality of distances, so that the label 200 is completely attached to the battery 100, namely labeling is completed; after labeling is completed, the second manipulator 13 is started to take the batteries 100 which are labeled on the mobile labeling platform 7 and are placed on the blanking conveyer belt 12; finally, the labeled battery 100 is conveyed to a collection frame at the discharging end by the blanking conveyer belt 12 for collection.

The utility model discloses a set up the battery and sweep a yard device 3, the sign indicating number device 6 is swept to the label, the use of industrial control computer is deuterogamied, thereby can let battery 100 scan the identification code on battery 100 and the identification code on the label 200 respectively and discern earlier in the labeling process, then bind the identification code that both scanned together one by one, and upload to the central database, in order to facilitate the product of future to trace back, for example be used for tracing back battery information and corresponding production information, can also utilize the identification code to scan to carry out the real-time on-line monitoring of identification code information to the product in the production process, then, in the course of working deuterogamy the use of mechanisms such as battery conveying mechanism 9, remove and paste mark platform 7 and labeling mechanism 8 and can conveniently paste the mark, therefore, the sign indicating number of sweeping of product and paste and carry out automatic processing on a equipment and can improve machining efficiency greatly, is favorable for reducing the production cost.

The present invention is not limited to the above embodiment, and if various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, they are intended to be covered if they fall within the scope of the claims and the equivalent technology of the present invention.

Claims (9)

1. The utility model provides an automatic sign indicating number labeller of sweeping of battery which characterized in that:

comprises the following steps:

the battery placing frame is used for placing a battery to be labeled;

the battery code scanning position is used for placing the battery conveyed from the battery placing frame;

the battery code scanning device is used for scanning and identifying the identification code of the battery on the battery code scanning position;

the label is to be pasted;

the label feeding mechanism is used for conveying labels to the position above the label sticking position;

the label scanning device is used for scanning and identifying the identification code of the label above the label to be attached;

the mobile labeling platform is used for receiving the battery which is scanned on the battery scanning code position and conveying the battery to the lower part of the label which is scanned;

the labeling mechanism is used for attaching the scanned label to the battery of the movable labeling platform;

and the industrial control computer is used for correspondingly binding the identification code information scanned by the battery code scanning device and the identification code information scanned by the label code scanning device together and transmitting the data to a central database.

2. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

still including battery transport mechanism, it is used for with battery on the battery rack carries the sign indicating number position is swept to the battery.

3. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

still including first manipulator, it is used for with the battery that the scanning on the code position was accomplished is swept to the battery is placed remove to paste the mark platform on.

4. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

the bottom of the movable labeling platform is provided with a linear module used for driving the movable labeling platform to move linearly.

5. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

the labeling device also comprises a blanking conveying belt which is used for receiving and collecting the labeling-completed batteries on the movable labeling platform.

6. The automatic code-scanning labeling machine for batteries according to claim 5, characterized in that:

the second manipulator is used for placing the batteries which are labeled on the movable labeling platform on the blanking conveyor belt.

7. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

the label code scanning device is characterized by also comprising an industrial computer display screen which is used for displaying the identification code information scanned by the battery code scanning device and the label code scanning device.

8. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

the label feeding mechanism comprises a winding disc and a tensioning mechanism.

9. The automatic code-scanning labeling machine for batteries according to claim 1, characterized in that:

the labeling mechanism comprises a label pressing wheel and a driving device for driving the label pressing wheel to move up and down.

Images