CN217226978U - Battery piece printing device - Google Patents

Abstract

The utility model provides a battery piece printing device, it includes battery piece input mechanism, battery piece output mechanism, printing board, printing mechanism and mesa detection mechanism, wherein: the battery piece input mechanism inputs the battery piece to be printed, and the battery piece output mechanism outputs the printed battery piece. The printing machine platform comprises a printing platform, and a printing station and a table top detection station are arranged on a moving path of the printing platform. The printing table receives the battery piece to be printed when moving to the battery piece input mechanism, the printing mechanism prints the battery piece to be printed when moving to the printing station, and the printed battery piece enters the battery piece output mechanism when moving to the battery piece output mechanism. When the printing table returns to the table-board detection station from the battery plate output mechanism, the table-board detection mechanism detects the table board of the printing table. The utility model discloses an automated inspection to the printing station to control the printing station to stop removing when the printing station accords with predetermined clearance condition.

Description

Battery piece printing device

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a battery piece printing device.

Background

During the production process of the battery assembly, a conductive material is printed on the surface of the battery piece to form grid lines for collecting current.

After the printing process, the printing paste on the printing mechanism and the scraps on the battery pieces may fall onto the table top of the printing table, and therefore, in order to maintain the printing effect, the table top of the printing table needs to be cleaned in time.

The existing operation mode is to regularly clean the table top of the printing table through manual observation, has low efficiency and cannot clean the table top of the printing table in time.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a battery piece printing device, it adopts following technical scheme:

the utility model provides a battery piece printing device, its includes battery piece input mechanism, battery piece output mechanism, printing board, printing mechanism and mesa detection mechanism, wherein:

the battery piece input mechanism is used for inputting battery pieces to be printed;

the battery piece output mechanism is used for outputting the printed battery pieces;

the printing machine table comprises a mounting bracket and at least one printing table connected to the mounting bracket, the printing table is configured to move back and forth between a discharging end of the battery piece input mechanism and a feeding end of the battery piece output mechanism, and a printing station and a table top detection station are arranged on a moving path of the printing table;

the printing mechanism is arranged at the printing station, and the table-board detection mechanism is arranged at the table-board detection station;

when the printing table moves to the discharge end of the battery piece input mechanism, receiving a battery piece to be printed from the battery piece input mechanism; when the printing table carries the battery piece to be printed to move to the printing station, the printing mechanism prints the battery piece to be printed; when the printing table carries the printed battery piece to move to the feeding end of the battery piece output mechanism, the printed battery piece is fed onto the battery piece output mechanism;

when the printing table returns from the battery plate output mechanism and moves to the table top detection station, the table top detection mechanism detects the table top of the printing table, and when the table top of the printing table meets the preset cleaning condition, the printing table stops moving.

The utility model provides a battery piece printing device, it is provided with mesa detection mechanism, and unloaded printing platform returns the in-process of battery piece input mechanism from battery piece output mechanism, and mesa detection mechanism can implement the automated inspection to the mesa of printing platform to control the printing platform stop moving when the mesa of printing platform accords with predetermined clearance condition, with in time implement the clearance to the printing platform mesa.

Optionally, the table top detection mechanism is located above the printing table, the table top detection mechanism includes a camera and a control unit, and the control unit is respectively in signal connection with the camera and a control end of the printing table; when the printing table returns to move to the table top detection station, the control unit controls the camera to photograph the printing table so as to implement table top detection, and when the table top of the printing table meets the cleaning condition, the control unit controls the printing table to stop moving.

Through the signal interaction among the control unit, the camera and the printing table, the table surface of the printing table accords with the cleaning condition, and the control unit controls the printing table to stop moving in time.

In some embodiments, the table top detection mechanism further comprises an alarm component in signal connection with the control unit, and the control unit controls the alarm component to send out an alarm signal when the table top of the printing table meets the cleaning condition.

Through setting up the alarm assembly, when the mesa of printing platform accords with the clearance condition, the alarm assembly can produce alarm signal to remind operating personnel in time to implement the mesa clearance.

In some embodiments, the camera is disposed on an adjustable stand for effecting height and angle adjustments of the camera.

The adjustable support realizes the height adjustment and the angle adjustment of the camera, thereby ensuring the detection effect of the camera on the table surface of the printing table.

In some embodiments, when the camera takes a picture of the printing table, the included angle between the central axis of the lens of the camera and the horizontal plane is 40-60 degrees, and the distance between the central axis of the lens of the camera and the printing table is 270-300 mm.

Through the optimized setting of the height and the angle of the camera, the detection effect of the camera on the table top of the printing table is further improved.

In some embodiments, the top of the printing table is made of transparent or semitransparent material, and a light source is arranged in the printing table.

The table board of the printing table is made of transparent or semitransparent materials, and a light source is arranged in the printing table, so that light supplement of the camera can be implemented, and the detection effect of the camera on the table board of the printing table is further improved.

In some embodiments, the table detection station is near the feeding end of the cell output mechanism.

The table top detection station is arranged close to the feeding end of the battery piece output mechanism, and the table top detection can be received and the table top cleaning can be completed in time at the moment that the printing table returns from the battery piece output mechanism.

In some embodiments, a battery plate translation mechanism is disposed on the table top of the printing table, wherein: when the printing table moves to the discharging end of the battery piece input mechanism, the battery piece translation mechanism translates the battery piece to be printed on the battery piece input mechanism to the table top of the printing table; when the printing table carries the printed battery piece to move to the feeding end of the battery piece output mechanism, the battery piece translation mechanism translates the printed battery piece to the battery piece output mechanism.

Through set up battery piece translation mechanism on the mesa of printing platform for the printing platform can obtain the battery piece of treating the printing automatically from the discharge end of battery piece input mechanism, and push the battery piece that the printing is accomplished to battery piece output mechanism on automatically.

In some embodiments, the cell translation mechanism includes a paper discharge roller, a paper delivery roller, a roll paper, and a roll paper drive mechanism, wherein: the paper releasing roller is arranged at the first end of the printing table, and the paper collecting roller is arranged at the second end of the printing table; the roll paper is arranged on the paper releasing roller, and the roll paper bypasses the table top of the printing table after being released by the paper releasing roller and moves close to the table top of the printing table to be wound on the paper collecting roller; the roll paper driving mechanism is used for driving the paper releasing roller and the paper collecting roller to rotate so as to drive the roll paper to be tightly attached to the table top of the printing table to move horizontally.

The battery piece translation mechanism is simple and compact in structure, and the roll paper is driven to be rolled through the roller, so that the battery borne on the printing table is driven to translate. In addition, when the table top of the printing table meets the preset cleaning condition, the roll paper is wound by the roller driving device, so that the automatic paper changing of the table top of the printing table can be realized, namely, the automatic cleaning of the table top of the printing table is realized.

In some embodiments, the battery piece printing device further comprises a discharging detection mechanism arranged on the upper side of the feeding end of the battery piece output mechanism, and the discharging detection mechanism is used for detecting the quality of the printed battery pieces.

Through setting up ejection of compact detection mechanism, realized the printing quality detection to the battery piece that has printed.

Drawings

Fig. 1 is a schematic structural diagram of a battery sheet printing apparatus provided in an embodiment of the present invention at a viewing angle;

fig. 2 is a schematic structural diagram of a battery sheet printing apparatus provided in an embodiment of the present invention at another viewing angle;

fig. 1 to 2 include: the device comprises a battery piece input mechanism 10, a printing machine table 20, a printing mechanism 30, a battery piece output mechanism 40, a table top detection mechanism 50, a discharging detection mechanism 60, a mounting support 21, a printing table 22, an adjustable support 51 and a camera 52.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description.

The regular cleaning of the table top of the printing table is carried out through manual observation, the efficiency is low, and the cleaning of the table top of the printing table cannot be carried out in time.

In view of this, the utility model provides a battery piece printing device, it can realize the automated inspection to the mesa of printing table to control the printing table and stop moving when the mesa of printing table accords with predetermined clearance condition, thereby guarantee in time to implement the clearance to the printing table mesa.

As shown in fig. 1 to fig. 2, the utility model provides a battery piece printing device includes battery piece input mechanism 10, battery piece output mechanism 40, printing board 20, printing mechanism 30 and mesa detection mechanism 50, wherein:

the cell input mechanism 10 is used for inputting the cell to be printed, and the cell output mechanism 40 is used for outputting the printed cell.

The printing machine 20 comprises a mounting bracket 21 and at least one printing table 22 connected to the mounting bracket 21, the printing table 22 is configured to move back and forth between a discharging end of the battery piece input mechanism 10 and a feeding end of the battery piece output mechanism 40, and a printing station and a table top detection station are arranged on a moving path of the printing table.

The printing mechanism 30 is disposed at the printing station and the mesa detecting mechanism 50 is disposed at the mesa detecting station.

When the printing table 22 moves to the discharging end of the cell input mechanism 10, the printing table 22 receives the cell to be printed from the cell input mechanism 10. When the printing table 22 carries the battery piece to be printed to the printing station, the printing mechanism 30 prints the battery piece to be printed.

When the printing table 22 carries the printed battery pieces to move to the feeding end of the battery piece output mechanism 40, the printing table 22 feeds the printed battery pieces to the battery piece output mechanism 40, and the printed battery pieces are output to a subsequent station by the battery piece output mechanism 40.

When the printing table 22 returns from the battery plate output mechanism 40 and moves to the table top detection station, the table top detection mechanism 50 detects the table top of the printing table, and when the table top of the printing table meets the preset cleaning condition, the printing table 22 stops moving, so that the table top of the printing table 22 is cleaned in time. The cleaning conditions mentioned herein can be selected according to actual conditions, such as the area or thickness of the printing paste deposited on the table surface reaches a predetermined value, the amount or particle size of the battery piece fragments scattered on the table surface reaches a predetermined value, and the like.

Optionally, the table top detection mechanism 50 is located above the printing table, and the table top detection mechanism includes a camera 52 and a control unit, and the control unit is in signal connection with the camera 52 and the control end of the printing table 22 respectively.

When the printing table 22 moves back to the table top detection station, the control unit controls the camera 52 to photograph the printing table 22 so as to perform table top detection on the printing table 22. When the table top of the printing table 22 meets a predetermined cleaning condition, the control unit controls the printing table 22 to stop moving.

Optionally, the table top detection mechanism 50 further includes an alarm component in signal connection with the control unit, and when the table top of the printing table 22 meets a predetermined cleaning condition, the control unit controls the alarm component to send an alarm signal at the same time, so as to remind an operator to clean the table top of the printing table 22 in time.

Optionally, the camera 52 is disposed on the adjustable bracket 51, and the adjustable bracket 51 can implement height adjustment and angle adjustment of the camera 52, so as to ensure the detection effect of the camera 52 on the top surface of the printing table 22.

The included angle between the central axis of the lens of the camera and the horizontal plane is adjusted to 40-60 degrees (more specifically, the included angle can be set to 44 degrees, 45 degrees and 46 degrees, so that a better observation effect is obtained), and when the distance between the center of the lens of the camera and the printing table is adjusted to 270-300 mm (more specifically, the distance can be set to 283mm, 285mm and 286mm, so that a better observation effect is obtained), a better detection effect can be obtained.

Optionally, the top of the printing table 22 is made of a transparent or translucent material, and a light source is disposed in the printing table 22. Light emitted by the light source can penetrate through the table top of the printing table 22 and enter the camera 52, so that light supplement for the camera 52 is implemented, and finally, the detection effect of the camera 52 on the table top of the printing table 22 is further improved.

With continued reference to fig. 1, optionally, a tabletop detection station is disposed proximate to the feeding end of the cell output mechanism 40. With the arrangement, the table top detection of the table top detection mechanism 50 can be received at the moment that the printing table returns from the battery piece output mechanism 40, so that the table top which meets the cleaning condition can be cleaned in time.

Optionally, a battery plate translation mechanism is arranged on the table top of the printing table 22, wherein: when the printing table 22 moves to the discharging end of the battery piece input mechanism, the battery piece translation mechanism translates the battery piece to be printed on the battery piece input mechanism to the table surface of the printing table 22. When the printing table 22 carries the printed battery plate to move to the feeding end of the battery plate output mechanism 40, the battery plate translation mechanism translates the printed battery plate to the battery plate output mechanism 40.

It can be seen that, by providing the cell translation mechanism on the table top of the printing table 22, the printing table 22 can automatically acquire the cell to be printed from the discharging end of the cell input mechanism 10, and automatically push the printed cell onto the cell output mechanism 40.

Optionally, cell translation mechanism is including putting paper running roller, collection running roller, stock form and stock form actuating mechanism, wherein: the paper discharge roller is arranged at a first end of the printing table 22, the paper delivery roller is arranged at a second end of the printing table 22, the first end of the printing table 22 is close to a discharge end of the battery piece input mechanism 10, and the second end of the printing table 22 is close to a feeding end of the battery piece output mechanism 40.

The roll paper is mounted on the paper-releasing roller, and the roll paper is released by the paper-releasing roller, bypasses the table top of the printing table 22, and moves close to the table top of the printing table 22 to be wound onto the paper-receiving roller. The roll paper driving mechanism is used for driving the paper releasing roller and the paper collecting roller to rotate, so that the roll paper is driven to be close to the table top of the printing table 22 to move horizontally.

Because the translation direction of the roll paper is the same as the conveying direction of the cell input mechanism 10 and the cell output mechanism 40, the roll paper can drive the cell to move on the table top of the printing table 22, so that the cell to be printed can be automatically acquired from the discharge end of the cell input mechanism 10, and the printed cell can be automatically pushed into the cell output mechanism 40.

In addition, since the roll paper is discharged by the discharge roller and then tensioned on the surface of the printing table 22, the printing paste and the battery piece are scattered on the roll paper during the printing process. Therefore, the top detection performed by the top detection mechanism 50 is a detection of the degree of contamination of the roll paper currently tensioned on the top of the printing table 22.

When the table top of the printing table meets the preset cleaning condition, the roll paper is driven by the roller to be rolled, namely, the currently polluted roll paper tensioned on the table top of the printing table 22 can be rolled to the paper collecting roller, and the clean roll paper is tensioned on the table top of the printing table 22, so that the automatic cleaning of the table top of the printing table 22 is completed.

As shown in fig. 1, optionally, the battery plate printing apparatus in the embodiment of the present invention further includes a discharging detection mechanism disposed on the upper side of the feeding end of the battery plate output mechanism 40, and the discharging detection mechanism 60 is configured to detect the printing quality of the printed battery plate.

Optionally, the surface of the printing table 22 is not provided with a cell translation mechanism, but is provided with a structure having two grooves, and the discharging end of the cell input mechanism and the charging end of the cell output mechanism 40 are both provided with a pair of thin belts matched with the two grooves, and the cell can be transferred between the cell input mechanism and the printing table 22 and between the printing table 22 and the cell output mechanism 40 through the matching of the thin belts and the grooves.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the descriptions of the embodiments are merely exemplary and that all changes and modifications made without departing from the true spirit and scope of the present invention are intended to be covered by the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (10)

1. The utility model provides a battery piece printing device, its characterized in that, battery piece printing device includes battery piece input mechanism, battery piece output mechanism, printing board, printing mechanism and mesa detection mechanism, wherein:

the battery piece input mechanism is used for inputting battery pieces to be printed;

the battery piece output mechanism is used for outputting the printed battery pieces;

the printing machine table comprises a mounting bracket and at least one printing table connected to the mounting bracket, the printing table is configured to move back and forth between a discharging end of the battery piece input mechanism and a feeding end of the battery piece output mechanism, and a printing station and a table top detection station are arranged on a moving path of the printing table;

the printing mechanism is arranged at the printing station, and the table top detection mechanism is arranged at the table top detection station;

when the printing table moves to the discharge end of the battery piece input mechanism, the battery piece to be printed is received from the battery piece input mechanism; when the printing table carries the battery piece to be printed to move to the printing station, the printing mechanism prints the battery piece to be printed; when the printed battery piece is carried by the printing table and moved to the feeding end of the battery piece output mechanism, feeding the printed battery piece to the battery piece output mechanism;

when the printing table returns from the battery piece output mechanism to move to the table top detection station, the table top detection mechanism detects the table top of the printing table, and when the table top of the printing table meets the preset cleaning condition, the printing table stops moving.

2. The battery piece printing device of claim 1, wherein the table top detection mechanism is located above the printing table, the table top detection mechanism comprises a camera and a control unit, and the control unit is in signal connection with the camera and a control end of the printing table respectively;

when the printing table returns to move to the table top detection station, the control unit controls the camera to photograph the printing table to implement the detection of the table top, and when the table top of the printing table meets the cleaning condition, the control unit controls the printing table to stop moving.

3. The battery piece printing device of claim 2, wherein the table top detection mechanism further comprises an alarm component in signal connection with a control unit, and when the table top of the printing table meets the cleaning condition, the control unit controls the alarm component to send out an alarm signal.

4. The battery piece printing apparatus of claim 2, wherein the camera is disposed on an adjustable bracket, the adjustable bracket being configured to perform height adjustment and angle adjustment of the camera.

5. The battery piece printing device of claim 2, wherein when the camera photographs the printing table, an included angle between a central axis of a lens of the camera and a horizontal plane is 40-60 degrees, and a distance between the center of the lens of the camera and the printing table is 270-300 mm.

6. The battery plate printing device of claim 2, wherein the table top of the printing table is made of transparent or semitransparent material, and a light source is arranged in the printing table.

7. The battery piece printing apparatus of claim 1, wherein the stage detection station is proximate to the feeding end of the battery piece output mechanism.

8. The battery plate printing apparatus of claim 1, wherein a battery plate translation mechanism is disposed on the table top of the printing table, wherein:

when the printing table moves to the discharge end of the battery piece input mechanism, the battery piece translation mechanism translates the battery piece to be printed on the battery piece input mechanism to the table top of the printing table;

when the printed battery piece is carried by the printing table and moved to the feeding end of the battery piece output mechanism, the battery piece translation mechanism translates the printed battery piece to the battery piece output mechanism.

9. The battery printing apparatus of claim 8, wherein the battery translation mechanism comprises a paper delivery roll, a paper roll, and a paper roll drive mechanism, wherein:

the paper releasing roller is arranged at the first end of the printing table, and the paper collecting roller is arranged at the second end of the printing table;

the roll paper is arranged on the paper releasing roller, and after being released by the paper releasing roller, the roll paper bypasses the table top of the printing table and moves close to the table top of the printing table to be wound on the paper collecting roller;

the roll paper driving mechanism is used for driving the paper releasing roller and the paper collecting roller to rotate so as to drive the roll paper to be tightly attached to the table top of the printing table to translate.

10. The battery piece printing device according to claim 1, further comprising a discharging detection mechanism disposed above the feeding end of the battery piece output mechanism, wherein the discharging detection mechanism is configured to perform quality detection on the printed battery pieces.

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