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CN219601811U - Battery labeling equipment - Google Patents

Battery labeling equipment Download PDF

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Publication number
CN219601811U
CN219601811U CN202223593217.7U CN202223593217U CN219601811U CN 219601811 U CN219601811 U CN 219601811U CN 202223593217 U CN202223593217 U CN 202223593217U CN 219601811 U CN219601811 U CN 219601811U
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CN
China
Prior art keywords
label
machine table
labeling
piece
battery
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Active
Application number
CN202223593217.7U
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Chinese (zh)
Inventor
文景仙
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huizhou Xinyao Precision Parts Co ltd
Original Assignee
Huizhou Xinyao Precision Parts Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Huizhou Xinyao Precision Parts Co ltd filed Critical Huizhou Xinyao Precision Parts Co ltd
Priority to CN202223593217.7U priority Critical patent/CN219601811U/en
Application granted granted Critical
Publication of CN219601811U publication Critical patent/CN219601811U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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Abstract

The utility model discloses battery labeling equipment, which comprises a machine table, a feeding assembly and a labeling assembly, wherein the feeding assembly comprises a blanking box, a discharging wheel and a transferring rail, the transferring rail is rotatably arranged on the machine table, the blanking box is arranged on the machine table, a storage cavity is formed in the blanking box, the discharging wheel is rotatably arranged in the storage cavity, the labeling assembly comprises a label peeling piece, a label peeling plate, a label labeling driving piece and a label labeling piece, the label labeling driving piece is arranged on the machine table, the label peeling piece is arranged on an output shaft of the label labeling driving piece, the label peeling plate is arranged on the machine table, a sharp corner part is arranged on one side of the label peeling plate, close to the label labeling piece, the label peeling piece is arranged on the machine table, when the label tape is driven to pass through the sharp corner part, label paper is peeled from the label tape, and the label labeling driving piece is used for adsorbing label paper when the label labeling driving piece is driven to descend, so that the label paper is attached to a cylindrical battery of the transferring rail. Therefore, automatic feeding and automatic labeling paper for the cylindrical batteries are realized, and labeling efficiency and labeling quality can be effectively improved.

Description

Battery labeling equipment
Technical Field
The utility model relates to the field of cylindrical battery processing, in particular to battery labeling equipment.
Background
Generally, a cylindrical battery is a lithium battery having a cylindrical external structure, and is widely used in various electronic devices and electric vehicles.
In the production process of the cylindrical battery, a layer of label paper is required to be attached to the outer side wall of the cylindrical battery, the current label attaching work mainly depends on manual operation of workers, specifically, the label paper is peeled off from a label tape by the workers, and then the label paper is attached to the cylindrical battery, so that the production efficiency is too low, a plurality of workers are required to be arranged for production in order to meet the productivity, and the labor cost is too high; secondly, the problem of difference in attaching quality occurs due to high proficiency of workers in manual labeling, so in order to solve the technical problem, a battery labeling device for automatically propping up a cylinder for labeling is provided.
Disclosure of Invention
The utility model aims to overcome the defects in the prior art and provides a battery labeling device which can automatically label, thereby improving the labeling efficiency and labeling quality.
The aim of the utility model is realized by the following technical scheme:
a battery labeling apparatus comprising:
a machine table;
the feeding assembly comprises a blanking box, a discharging wheel and a transferring rail, the transferring rail is rotatably arranged on the machine table, the blanking box is arranged on the machine table, a storage cavity for storing cylindrical batteries is formed in the blanking box, the discharging wheel is rotatably arranged in the storage cavity, and the discharging wheel is used for discharging the cylindrical batteries in the storage cavity onto the transferring rail one by one when being rotated; and
The label pasting component comprises a label peeling piece, a label peeling plate, a label pasting driving piece and a label pasting piece, wherein the label pasting driving piece is arranged on the machine table, the label pasting piece is arranged on an output shaft of the label pasting driving piece, the label peeling plate is arranged on the machine table, the label peeling plate and the label pasting piece are adjacently arranged, a sharp corner part is arranged on one side, close to the label pasting piece, of the label peeling plate, the label peeling piece is arranged on the machine table, when the label peeling piece is used for driving a label tape to pass through the sharp corner part, label paper is peeled from the label tape, and the label pasting piece is used for adsorbing the label paper, and when the label pasting piece descends, the label pasting piece is used for attaching the label paper on a cylindrical battery of the transfer rail.
In one embodiment, a plurality of clamping grooves are formed in the outer side wall of the discharging wheel at intervals.
In one embodiment, the transfer rail includes a chain and a plurality of loading blocks, the chain is rotatably disposed on the machine table, and each loading block is disposed on the chain at equal intervals.
In one embodiment, the battery labeling device further comprises a testing component, the testing component comprises a testing cylinder and two testing blocks, the testing cylinder is arranged on the machine table, the testing cylinder is located above the transfer rail, the two testing blocks are respectively arranged on an output shaft of the testing cylinder, and testing needles are arranged on the testing blocks, and the testing cylinder is used for driving the two testing blocks to be close to each other so that the two testing needles of the testing blocks are respectively abutted to the two electrodes of the cylindrical battery.
In one embodiment, the battery labeling device further comprises a discharging assembly, the discharging assembly is arranged adjacent to the testing assembly, the discharging assembly comprises a discharging cylinder, a pushing rod and a discharging slide way, the discharging cylinder and the discharging slide way are both arranged on the machine table, the discharging cylinder and the discharging slide way are respectively located at two sides of the transferring rail transferring direction, the pushing rod is arranged on an output shaft of the discharging cylinder, and the discharging cylinder is used for driving the pushing rod to push the cylindrical battery into the discharging slide way.
In one embodiment, the label stripping part comprises a discharging roll, a collecting roll and a collecting motor, the discharging roll and the collecting roll are all rotationally arranged on the machine table, the discharging roll is used for releasing the label strip, the collecting roll is used for recovering the label strip, the collecting motor is arranged on the machine table, the collecting motor is connected with the collecting roll, and the collecting motor is used for driving the collecting roll to rotate so that the label strip passes through the label stripping plate.
In one embodiment, the label stripping piece further comprises a driving roller and a pressing roller, the driving roller is rotatably arranged on the machine table, the driving roller is connected with the material receiving motor, the pressing roller is rotatably arranged on the machine table, the pressing roller is abutted to the driving roller, and the pressing roller is used for jointly pressing the label strip with the driving roller.
In one embodiment, the label stripping piece further comprises a swing arm, a top pressure spring and a pressure regulating screw, one end of the swing arm is rotationally arranged on the machine table, the press roller is rotationally arranged on the other end of the swing arm, the pressure regulating screw is in threaded connection with the machine table, the top pressure spring is respectively in butt joint with the pressure regulating screw and the swing arm, and the pressure regulating screw is used for regulating the pressure clamping force between the press roller and the driving roller.
In one embodiment, the label stripping member further includes a plurality of guide wheels, and each guide wheel is rotatably disposed on the machine table, so that the label strip passes through each guide wheel sequentially after being released from the unreeling roll.
In one embodiment, the labeling piece comprises a labeling block and a labeling block, the labeling block is adjacent to the labeling block, the labeling block is used for sucking label paper, and the labeling driving piece is used for driving the labeling block to synchronously descend with the labeling block so that the labeling block can transfer the label paper to the outer side wall of the cylindrical battery, so that the labeling block can attach the label paper to the outer side wall of the cylindrical battery.
Compared with the prior art, the utility model has at least the following advantages:
the utility model discloses battery labeling equipment, which comprises a machine table, a feeding component and a labeling component, wherein the feeding component comprises a blanking box, a discharging wheel and a transferring rail, the transferring rail is rotatably arranged on the machine table, the blanking box is arranged on the machine table, a storage cavity for storing cylindrical batteries is formed in the blanking box, the discharging wheel is rotatably arranged in the storage cavity, when the discharging wheel is used for rotating, the cylindrical batteries in the storage cavity are discharged to the transferring rail one by one, the labeling component comprises a label peeling part, a label peeling plate, a label sticking driving part and a label sticking part, the label sticking driving part is arranged on the machine table, the label peeling part is arranged on an output shaft of the label sticking driving part, the label peeling plate is arranged on the machine table, and the label peeling plate is adjacent to the label sticking part, one side of the label peeling plate, which is close to the label sticking part, is arranged on the machine table, and when the label peeling part is used for driving a label tape to pass through the sharp corner part, label paper is peeled off from the label tape, and when the label sticking driving part is used for driving the label to descend, the label sticking driving part is used for transferring the label on the label rail. Therefore, automatic feeding and automatic labeling paper for the cylindrical battery are realized, and compared with the traditional manual operation, the labeling efficiency and labeling quality can be effectively improved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic structural view of a battery labeling apparatus according to an embodiment of the present utility model;
FIG. 2 is a schematic view of a partial front view of the battery labeling apparatus of FIG. 1;
FIG. 3 is a schematic view of a portion of a transfer rail according to an embodiment of the present utility model;
FIG. 4 is a schematic structural diagram of a testing assembly according to an embodiment of the present utility model;
fig. 5 is a schematic view of a part of a label stripper according to an embodiment of the utility model.
Detailed Description
In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model.
Referring to fig. 1, a battery labeling apparatus 10 includes a machine 100, a feeding assembly 200 and a labeling assembly 300, wherein the feeding assembly 200 is used for feeding a cylindrical battery, and the labeling assembly 300 is used for attaching a label paper on an outer sidewall of the cylindrical battery.
Referring to fig. 1, the feeding assembly 200 includes a blanking box 210, a discharging wheel 220 and a transferring rail 230, the transferring rail 230 is rotatably disposed on the machine 100, the blanking box 210 is disposed on the machine 100, a storage cavity 211 for storing cylindrical batteries is formed in the blanking box 210, the discharging wheel 220 is rotatably disposed in the storage cavity 211, and when the discharging wheel 220 is used for rotating, the cylindrical batteries in the storage cavity 211 are discharged one by one onto the transferring rail 230.
It should be noted that, when the cylindrical battery is placed at one end of the transfer rail 230, the transfer rail 230 is rotatably installed on the machine 100, so that the cylindrical battery is driven to move to the other end of the transfer rail 230 by the transfer rail 230. The blanking box 210 is fixedly installed on the machine 100, and a storage cavity 211 is formed in the blanking box 210, wherein an outlet of the storage cavity 211 is arranged towards one end of the transfer rail 230. The discharge wheel 220 is rotatably installed in the storage chamber 211, and the discharge wheel 220 is located at an outlet position of the storage chamber 211. In this way, as the discharge wheel 220 rotates, the cylindrical batteries in the storage chamber 211 can be discharged onto the transfer rail 230 one by one, so that the placement interval of the cylindrical batteries on the transfer rail 230 can be determined by controlling the rotation speed of the discharge wheel 220. In one embodiment, in order to make the rotation rate of the discharge wheel 220 unchanged, a motor is mounted on the blanking box 210, and the discharge wheel 220 is driven to rotate by the motor.
In an embodiment, the front baffle of the blanking box 210 is set to be an acrylic plate, so that the blanking condition of the cylindrical battery can be conveniently observed.
Referring to fig. 1 and 2, the labeling assembly 300 includes a label peeling member 310, a label peeling plate 320, a label peeling driving member 330 and a label peeling member 340, wherein the label peeling driving member 330 is disposed on the machine 100, the label peeling member 340 is disposed on an output shaft of the label peeling driving member 330, the label peeling plate 320 is disposed on the machine 100, the label peeling plate 320 is disposed adjacent to the label peeling member 340, a sharp angle 321 is disposed on a side of the label peeling plate 320 near the label peeling member 340, the label peeling member 310 is disposed on the machine 100, the label peeling member 310 is used for driving a label tape to pass through the sharp angle 321, so that the label paper is peeled from the label tape, and the label peeling member 340 adsorbs the label paper, and the label peeling driving member 330 is used for driving the label peeling member 340 to descend, so that the label paper is adhered to a cylindrical battery of the transfer rail 230 by the label peeling member 340.
It should be noted that, the label peeling member 310 and the label peeling plate 320 are both installed on the machine 100, the label peeling plate 320 is provided with a sharp corner 321, and the label peeling member 310 is used for driving a label tape to pass through the sharp corner 321, so that the label tape is peeled from the label tape under the action of the sharp corner 321. The labeling driving piece 330 is installed on the machine 100, the labeling piece 340 is installed on an output shaft of the labeling driving piece 330, and the labeling driving piece 330 drives the labeling piece 340 to perform lifting motion, so that the labeling piece 340 is far away from or near to the transfer rail 230. When the label 340 rises to be far away from the transfer rail 230, the label 340 will be close to the label peeling plate 320, so, as the label peeling plate 310 drives the label tape to move, the label tape will peel off a label paper under the action of the sharp corner 321 of the label peeling plate 320, and as the label tape continues to move, the label paper will move to the lower surface of the label 340, so, by introducing negative pressure to the label 340, the label 340 can adsorb the label paper. The label paper is then attached to the cylindrical battery of the transfer rail 230 as the label 340 is lowered by the label drive 330.
Therefore, automatic feeding and automatic labeling paper for the cylindrical battery are realized, and compared with the traditional manual operation, the labeling efficiency and labeling quality can be effectively improved. The label paper is printed with a bar code for recording performance information for each cylindrical battery in the subsequent production process.
Referring to fig. 1, in an embodiment, a plurality of clamping grooves 221 are spaced apart on an outer sidewall of the discharging wheel 220.
It should be noted that, each clamping groove 221 is equally distributed on the discharging wheel 220, when the discharging wheel 220 rotates, the cylindrical battery in the storage cavity 211 slides into each clamping groove 221, and is moved onto the transfer rail 230 along with the rotation of the discharging wheel 220.
Referring to fig. 3, in an embodiment, the transfer rail 230 includes a chain 231 and a plurality of loading blocks 232, the chain 231 is rotatably disposed on the machine 100, and the loading blocks 232 are respectively disposed on the chain 231 at equal intervals.
The chain 231 is mounted on the machine 100 by a sprocket, so that the chain 231 continuously rotates with respect to the machine 100. Each load block 232 is mounted on the chain 231, for example, one load block 232 is mounted on each link of the chain 231 such that each load block 232 is mounted equidistantly. In this way, the chain 231 drives each of the loading blocks 232 to sequentially pass through the discharging wheel 220, so that the discharging wheel 220 places the cylindrical batteries on each of the loading blocks 232 one by one. In one embodiment, the loading block 232 is provided with a semicircular groove 232a for accommodating the cylindrical battery, so that the cylindrical battery is stably placed in the semicircular groove 232 a. Further, in an embodiment, the machine 100 is further provided with a sensor 233, the sensor 233 is located below the discharging wheel 220, and the sensor 233 is disposed towards the semicircular groove 232a, so that whether the cylindrical battery falls into the semicircular groove 232a is detected by the sensor 233.
Referring to fig. 1 and 4, in an embodiment, the battery labeling apparatus 10 further includes a testing assembly 400, the testing assembly 400 includes a testing cylinder 410 and two testing blocks 420, the testing cylinder 410 is disposed on the machine 100, the testing cylinder 410 is located above the transfer rail 230, the two testing blocks 420 are respectively disposed on output shafts of the testing cylinder 410, and the testing blocks 420 are provided with testing pins 430, and the testing cylinder 410 is used for driving the two testing blocks 420 to approach each other, so that the testing pins 430 of the two testing blocks 420 are respectively abutted against two electrodes of the cylindrical battery.
It should be noted that, in order to pick out the defective cylindrical battery, the defective battery is prevented from being labeled, and waste is avoided, so the test assembly 400 is configured to test the cylindrical battery, for example, to test the open circuit voltage of the cylindrical battery. Specifically, the test cylinder 410 is mounted above the transfer rail 230, two test blocks 420 are mounted on the output shaft of the test cylinder 410, two test blocks 420 are located at two sides of the transfer rail 230, test pins 430 are mounted on the test blocks 420, and when the test blocks 420 are driven by the test cylinder 410 to approach, the test pins 430 are abutted against the electrodes of the cylindrical battery, and then the battery is tested.
Further, referring to fig. 1 and 4, in an embodiment, the test block 420 is further provided with a positioning gel 440, and when the two test blocks 420 are close to each other, the positioning gel 440 of the two test blocks 420 clamps the cylindrical battery together. It should be noted that the distance between the positioning gel 440 and the test needle 430 is equal to the distance between any two adjacent cylindrical batteries on the transfer rail 230. Thus, the positioning colloid 440 can enable the test needle 430 to be accurately abutted against the electrode of the cylindrical battery to be tested. In one embodiment, two positioning colloids 440 are disposed on the test block 420, and the two positioning colloids 440 are respectively disposed on two sides of the test needle 430.
Referring to fig. 1, in an embodiment, the battery labeling apparatus 10 further includes a discharging assembly 500, the discharging assembly 500 is disposed adjacent to the testing assembly 400, the discharging assembly 500 includes a discharging cylinder 510, a push rod 520, and a discharging slide 530, the discharging cylinder 510 and the discharging slide 530 are both disposed on the machine 100, the discharging cylinder 510 and the discharging slide 530 are respectively disposed at two sides of the transferring direction of the transferring rail 230, the push rod 520 is disposed on an output shaft of the discharging cylinder 510, and the discharging cylinder 510 is used for driving the push rod 520 to push the cylindrical battery into the discharging slide 530.
The discharging assembly 500 is used to eject and discharge the defective battery on the transfer rail 230. Specifically, the discharging cylinder 510 and the discharging slide 530 are respectively located at two sides of the transferring rail 230, and the push rod 520 is installed on the output shaft of the discharging cylinder 510, so that when the push rod 520 is driven by the discharging cylinder 510 to approach the discharging slide 530, the defective battery on the transferring rail 230 is pushed into the discharging slide 530.
Referring to fig. 1 and 2, in an embodiment, the label stripping member 310 includes a discharging roll 311, a receiving roll 312 and a receiving motor 313, the discharging roll 311 and the receiving roll 312 are both rotatably disposed on the machine 100, the discharging roll 311 is used for releasing a label, the receiving roll 312 is used for recovering the label, the receiving motor 313 is disposed on the machine 100, and the receiving motor 313 is connected with the receiving roll 312, and the receiving motor 313 is used for driving the receiving roll 312 to rotate so that the label passes through the label stripping plate 320.
It should be noted that, the discharging roll 311 and the receiving roll 312 are mounted on the machine 100 through bearings, so that the discharging roll 311 and the receiving roll 312 can rotate relative to the machine 100. The discharging roll 311 is used for releasing the label, the receiving roll 312 is used for recovering the label, the receiving motor 313 is mounted on the machine 100, an output shaft of the receiving motor 313 is connected with the receiving roll 312, so that the receiving motor 313 drives the receiving roll 312 to rotate, and after the label is released from the discharging roll 311, the label is peeled off by the label peeling plate 320, and then the label is recovered by the receiving roll 312.
Referring to fig. 1 and 2, in an embodiment, the label stripping member 310 further includes a driving roller 314 and a pressing roller 315, the driving roller 314 is rotatably disposed on the machine 100, the driving roller 314 is connected to a receiving motor 313, the pressing roller 315 is rotatably disposed on the machine 100, the pressing roller 315 abuts against the driving roller 314, and the pressing roller 315 is used for jointly pressing the label with the driving roller 314.
It should be noted that, in order to drive the label tape stably through the label peeling plate 320, a driving roller 314 and a pressing roller 315 are provided to cooperate to drive the label tape to move. Specifically, the driving roller 314 is mounted on the machine 100 through a bearing, the driving roller 314 is connected with the material receiving motor 313, the material receiving motor 313 drives the driving roller 314 to rotate, the pressing roller 315 is mounted on the machine 100 through a bearing, and the outer side wall of the pressing roller 315 is abutted against the outer side wall of the driving roller 314 to jointly clamp the label tape, so that when the driving roller 314 rotates, the label tape can be driven to continuously rotate. In one embodiment, the driving roller 314 is connected with the material receiving motor 313 through a belt.
Referring to fig. 5, in an embodiment, the label peeling member 310 further includes a swing arm 316, a pressing spring 316a, and a pressure adjusting screw 317, one end of the swing arm 316 is rotatably disposed on the machine 100, the pressing roller 315 is rotatably disposed on the other end of the swing arm 316, the pressure adjusting screw 317 is in screwed connection with the machine 100, the pressing spring 316a is respectively abutted against the pressure adjusting screw 317 and the swing arm 316, and the pressure adjusting screw 317 is used for adjusting a clamping force between the pressing roller 315 and the driving roller 314.
It should be noted that, one end of the swing arm 316 is rotatably mounted on the machine 100, for example, the swing arm 316 is connected to the machine 100 through a pin, so that the swing arm 316 can rotate relative to the machine 100. The pressing roller 315 is mounted on the other end of the swing arm 316 through a bearing, so that the pressing roller 315 can be driven to approach or separate from the driving roller 314 when the swing arm 316 rotates. The pressure regulating screw 317 is in threaded connection with the machine 100, and the end of the pressure regulating screw 317 pushes against the swing arm 316 through the pushing spring 316a, and the feeding distance of the pressure regulating screw 317 is rotated to regulate the clamping force between the pressing roller 315 and the driving roller 314, so that the pressing roller 315 and the driving roller 314 can better clamp the label tape.
Referring to fig. 1 and 2, in an embodiment, the label peeling member 310 further includes a plurality of guide wheels 318, and each guide wheel 318 is rotatably disposed on the machine 100, so that the label tape passes through each guide wheel 318 after being released from the unreeling roll 311. In order to facilitate unwinding of the label and guiding the label to the label peeling plate 320, a plurality of guide wheels 318 are installed between the unwinding reel 311 and the label peeling plate 320, and the advancing direction of the label is changed by the guide wheels 318. For example, the stripper plate 320 is fixedly mounted to the machine 100 by bearings.
Further, referring to fig. 2, in an embodiment, the label stripping member 310 further includes a spring 319, one end of the spring 319 is fixedly disposed on the machine 100, and the other end of the spring 319 abuts against an outer side wall of one of the guide wheels 318, so that the spring 319 compresses the label strip. In this way, the elastic sheet 319 is used to compress the label, so that the back-up of the label is avoided, and the non-return function of the label is realized.
Referring to fig. 2, in an embodiment, the label stripping member 310 further includes an air blowing block 3191, the air blowing block 3191 is disposed on the machine 100, and the air blowing block 3191 is provided with an air outlet hole, and the air outlet hole is disposed towards the sharp corner 321. It should be noted that, when the label tape is driven to peel the label from the pointed portion 321, the label paper is separated from the surface of the label tape, so as to avoid the label paper from descending along with the label tape, and therefore, the air blowing block 3191 is provided to blow the label paper, so as to ensure that the part of the label paper separated from the label tape is tilted upwards under the action of wind force, and is abutted against the label pasting piece 340. That is, ensures that the label paper is reliably absorbed by the label 340 when peeled off.
Referring to fig. 2, in an embodiment, the labeling piece 340 includes a label sucking block 341 and a label sticking block 342, the label sucking block 341 is disposed adjacent to the label sticking block 342, and the label sucking block 341 is used for sucking label paper, and the label sticking driving piece 330 is used for driving the label sucking block 341 and the label sticking block 342 to synchronously descend, so that the label sucking block 341 transfers the label paper to the outer side wall of the cylindrical battery, so that the label sticking block 342 sticks the label paper to the outer side wall of the cylindrical battery.
It should be noted that, since the label paper is in a planar structure in a natural state, the label sucking block 341 is provided to suck the label paper and transfer the label paper to the surface of the cylindrical battery, and the label sticking block 342 is provided to stick the label paper with a planar structure to the outer side wall of the cylindrical battery, so that the label paper is closely attached to the curved outer side wall of the cylindrical battery. In one embodiment, the labeling drive 330 is a pneumatic cylinder. Further, in one embodiment, the bottom surface of the labeling block 342 is provided with an arc-shaped groove 342a adapted to the outer side wall of the cylindrical battery. Further, in one embodiment, the bottom surface of the label absorbing block 341 is provided with a plurality of absorbing holes, and the label absorbing block 341 is communicated with the vacuum generator, so that each absorbing hole forms negative pressure, and the label paper can be absorbed.
The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A battery labeling apparatus, comprising:
a machine table;
the feeding assembly comprises a blanking box, a discharging wheel and a transferring rail, the transferring rail is rotatably arranged on the machine table, the blanking box is arranged on the machine table, a storage cavity for storing cylindrical batteries is formed in the blanking box, the discharging wheel is rotatably arranged in the storage cavity, and the discharging wheel is used for discharging the cylindrical batteries in the storage cavity onto the transferring rail one by one when being rotated; and
The label pasting component comprises a label peeling piece, a label peeling plate, a label pasting driving piece and a label pasting piece, wherein the label pasting driving piece is arranged on the machine table, the label pasting piece is arranged on an output shaft of the label pasting driving piece, the label peeling plate is arranged on the machine table, the label peeling plate and the label pasting piece are adjacently arranged, a sharp corner part is arranged on one side, close to the label pasting piece, of the label peeling plate, the label peeling piece is arranged on the machine table, when the label peeling piece is used for driving a label tape to pass through the sharp corner part, label paper is peeled from the label tape, and the label pasting piece is used for adsorbing the label paper, and when the label pasting piece descends, the label pasting piece is used for attaching the label paper on a cylindrical battery of the transfer rail.
2. The battery labeling apparatus of claim 1, wherein a plurality of clamping grooves are spaced apart on the outer sidewall of the discharge wheel.
3. The battery labeling apparatus of claim 1, wherein the transfer rail comprises a chain and a plurality of loading blocks, the chain is rotatably disposed on the machine table, and each loading block is disposed on the chain at equal intervals.
4. The battery labeling apparatus of claim 1, further comprising a test assembly, wherein the test assembly comprises a test cylinder and two test blocks, the test cylinder is arranged on the machine table, the test cylinder is positioned above the transfer rail, the two test blocks are respectively arranged on output shafts of the test cylinder, and test pins are arranged on the test blocks, and the test cylinder is used for enabling the test pins of the two test blocks to respectively abut against two electrodes of the cylindrical battery when the two test blocks are driven to approach each other.
5. The battery labeling apparatus of claim 4, further comprising a discharge assembly, wherein the discharge assembly is disposed adjacent to the test assembly, the discharge assembly comprises a discharge cylinder, a push rod and a discharge slide, the discharge cylinder and the discharge slide are both disposed on the machine, the discharge cylinder and the discharge slide are respectively disposed on two sides of the transfer rail in the transfer direction, the push rod is disposed on an output shaft of the discharge cylinder, and the discharge cylinder is used for driving the push rod to push the cylindrical battery into the discharge slide.
6. The battery labeling apparatus of claim 1, wherein the label stripping member comprises an unreeling roll, a material collecting roll and a material collecting motor, the unreeling roll and the material collecting roll are both rotatably arranged on the machine table, the unreeling roll is used for releasing a label tape, the material collecting roll is used for recovering the label tape, the material collecting motor is arranged on the machine table, the material collecting motor is connected with the material collecting roll, and the material collecting motor is used for driving the label tape to pass through the label stripping plate when the material collecting roll rotates.
7. The battery labeling apparatus of claim 6, wherein the label peeling member further comprises a driving roller and a pressing roller, the driving roller is rotatably arranged on the machine table, the driving roller is connected with the material receiving motor, the pressing roller is rotatably arranged on the machine table, the pressing roller is abutted to the driving roller, and the pressing roller is used for jointly pressing the label tape with the driving roller.
8. The battery labeling apparatus of claim 7, wherein the label peeling member further comprises a swing arm, a pressing spring and a pressure regulating screw, one end of the swing arm is rotatably arranged on the machine table, the pressing roller is rotatably arranged on the other end of the swing arm, the pressure regulating screw is in threaded connection with the machine table, the pressing spring is respectively abutted to the pressure regulating screw and the swing arm, and the pressure regulating screw is used for regulating a pressing clamping force between the pressing roller and the driving roller.
9. The battery labeling apparatus of claim 6, wherein the label stripping member further comprises a plurality of guide wheels, each of the guide wheels being rotatably disposed on the machine table, respectively, such that the label tape passes through each of the guide wheels in sequence after being released from the discharge reel.
10. The battery labeling apparatus of claim 1, wherein the labeling member comprises a label sucking block and a labeling block, the label sucking block is disposed adjacent to the label sucking block, the label sucking block is used for sucking label paper, and the labeling driving member is used for driving the label sucking block and the labeling block to synchronously descend so that the label sucking block moves the label paper to the outer side wall of the cylindrical battery, and the label sucking block makes the label paper adhere to the outer side wall of the cylindrical battery.
CN202223593217.7U 2022-12-28 2022-12-28 Battery labeling equipment Active CN219601811U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223593217.7U CN219601811U (en) 2022-12-28 2022-12-28 Battery labeling equipment

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Application Number Priority Date Filing Date Title
CN202223593217.7U CN219601811U (en) 2022-12-28 2022-12-28 Battery labeling equipment

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Publication Number Publication Date
CN219601811U true CN219601811U (en) 2023-08-29

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN118062384A (en) * 2024-04-18 2024-05-24 兴化市顺杰高温合金制品有限公司 High temperature alloy spare label posting device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN118062384A (en) * 2024-04-18 2024-05-24 兴化市顺杰高温合金制品有限公司 High temperature alloy spare label posting device
CN118062384B (en) * 2024-04-18 2024-06-25 兴化市顺杰高温合金制品有限公司 High temperature alloy spare label posting device

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