CN215401650U - Button cell unloader - Google Patents

Abstract

The utility model discloses a button cell blanking device which comprises a double-station feeding mechanism, a four-station blanking mechanism, a first short circuit testing mechanism, a second short circuit testing mechanism, a CCD (charge coupled device) detecting mechanism and a blanking transfer manipulator, wherein the double-station feeding mechanism is provided with a first feeding station and a second feeding station, the four-station blanking mechanism is provided with a first short circuit testing station, a second short circuit testing station, a CCD detecting station and a blanking station, the first short circuit testing mechanism corresponds to the first short circuit testing station, the second short circuit testing mechanism corresponds to the second short circuit testing station, the CCD detecting mechanism corresponds to the CCD detecting station, and the blanking transfer manipulator corresponds to the blanking station. The utility model has the advantages of automation of the whole process, high production efficiency and less transfer times, and the manipulator replaces hands to ensure the alignment degree of the battery cell.

Description

Button cell unloader

Technical Field

The utility model relates to the field of battery cell detection equipment, in particular to a button battery blanking device.

Background

In order to ensure the quality of the button cell, the short circuit detection and the inner and outer diameter detection are carried out on the cell core one by one in the cell production process, the poor cell core is picked, the input of subsequent resources is avoided, and the credit of an enterprise is ensured. The short circuit of battery trade electricity core detects and interior external diameter detects need to accomplish on the equipment of difference now, is promptly by artifical material loading to short circuit detection equipment, and the short circuit detects qualified back, shifts to interior external diameter detection equipment by the manual work again and detects, and interior external diameter detects qualified back, carries out the unloading transport by the manual work again, because manual operation's transfer number of times is more, leads to electric core alignment degree bad easily, and influences work efficiency greatly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, and provides the button cell blanking device which is automatic in the whole process, high in production efficiency and less in transfer times, and the manipulator replaces hands, so that the alignment degree of a cell is ensured.

The technical scheme of the utility model is as follows:

a button cell blanking device comprises a double-station feeding mechanism, a four-station blanking mechanism, a first short circuit testing mechanism, a second short circuit testing mechanism, a CCD (charge coupled device) detecting mechanism and a blanking transfer manipulator, wherein the double-station feeding mechanism is provided with a first feeding station and a second feeding station, the four-station blanking mechanism is provided with a first short circuit testing station, a second short circuit testing station, a CCD detecting station and a blanking station, the first short circuit testing mechanism corresponds to the first short circuit testing station, the second short circuit testing mechanism corresponds to the second short circuit testing station, the CCD detecting mechanism corresponds to the CCD detecting station, and the blanking transfer manipulator corresponds to the blanking station; the battery cell on the first feeding station and the battery cell on the second feeding station are respectively transferred to the first short circuit testing station and the second short circuit testing station through the double-station feeding mechanism to carry out short circuit testing, the inside and outside diameter of the battery cell is detected at the CCD detecting station after the short circuit testing is qualified, and the blanking is completed at the blanking station after the inside and outside diameter of the battery cell is detected to be qualified.

Furthermore, the double-station feeding mechanism comprises a first rotary driving motor, a first rotary disc, a first electromagnetic valve, a first amplifier, a first electric slip ring, an angle positioning cylinder, a material taking extending cylinder and a double-station feeding clamping claw, wherein a motor shaft of the first rotary driving motor is connected with the first rotary disc, the first electromagnetic valve and the first amplifier are integrated on the first rotary disc, wiring is conducted through the first electric slip ring, the angle positioning cylinder is arranged on one side of the first rotary disc, the material taking extending cylinder is arranged on the first rotary disc, and the double-station feeding clamping claw is connected with a cylinder shaft of the material taking extending cylinder.

Furthermore, the four-station blanking mechanism comprises a second rotary driving motor, a second rotating disc, a second electromagnetic valve, a second amplifier and a second electric slip ring, wherein a motor shaft of the second rotary driving motor is connected with the second rotating disc, the second electromagnetic valve and the second amplifier are integrated on the second rotating disc, and the wires are routed through the second electric slip ring.

Furthermore, the first short circuit testing mechanism and the second short circuit testing mechanism respectively comprise a short circuit testing machine, a short circuit testing probe, a probe extending cylinder and a short circuit testing rotating motor, the probe extending cylinder is arranged on the short circuit testing machine, the short circuit testing rotating motor is arranged on a cylinder shaft of the probe extending cylinder, and the short circuit testing probe is connected with a motor shaft of the short circuit testing rotating motor.

Furthermore, a first NG waste material box is arranged between the first short circuit testing mechanism and the second short circuit testing mechanism.

Furthermore, unloading shifts manipulator and includes that the transfer clamp stretches out module, clamping jaw rotating electrical machines, unloading cylinder and unloading clamping jaw, clamping jaw rotating electrical machines activity sets up on the transfer clamp stretches out the module, the unloading cylinder sets up on the motor shaft of clamping jaw rotating electrical machines, the unloading clamping jaw is connected with the cylinder hub connection of unloading cylinder.

Furthermore, one side of unloading transfer manipulator is provided with second NG waste material box.

Furthermore, this button cell unloader still includes the unloading conveyer belt, the unloading conveyer belt is close to unloading transfer manipulator.

Compared with the prior art, the utility model has the beneficial effects that:

(1) according to the utility model, the feeding mechanism, the short circuit testing mechanism, the battery cell inner and outer diameter detecting mechanism and the blanking mechanism are integrated on the same equipment, and the feeding → the short circuit testing → the battery cell inner and outer diameter detecting → the blanking are realized, so that the whole process is automatic, and the production efficiency is high;

(2) short circuit test → electric core inside and outside footpath detect, between shift through the rolling disc to electric core transfer number of times has been reduced, and all adopt the manipulator to replace the staff to shift between material loading → short circuit test and electric core inside and outside footpath detect → the unloading, can guarantee electric core alignment degree.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a button cell blanking device provided by the utility model;

FIG. 2 is a schematic structural diagram of the double-station feeding mechanism of the present invention;

FIG. 3 is a schematic structural view of a four-station blanking mechanism according to the present invention;

FIG. 4 is a second schematic structural view of the four-station blanking mechanism of the present invention;

FIG. 5 is a schematic structural diagram of a first short circuit testing mechanism and a second short circuit testing mechanism according to the present invention;

FIG. 6 is a schematic structural view of a feeding transfer manipulator according to the present invention;

fig. 7 is a second schematic structural view of the blanking transfer robot of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

Examples

Referring to fig. 1, an embodiment of the utility model provides a button cell blanking device, which includes a double-station feeding mechanism 1, a four-station blanking mechanism 2, a first short circuit testing mechanism 3, a second short circuit testing mechanism 4, a CCD detecting mechanism 5, a blanking transfer manipulator 6, and a blanking conveyor belt 7.

The double-station feeding mechanism 1 comprises a first feeding station and a second feeding station, and as shown in fig. 2, the double-station feeding mechanism 1 specifically comprises a first rotary driving motor 11, a first rotary disc 12, a first electromagnetic valve 13, a first amplifier 14, a first electric slip ring 15, an angle positioning cylinder 16, a material taking extending cylinder 17 and a double-station feeding clamping jaw 18. A motor shaft of the first rotary driving motor 11 is connected with the first rotary disc 12, and the first rotary driving motor 11 drives the first rotary disc 12 to rotate; the first electromagnetic valve 13 and the first amplifier 14 are integrated on the first rotating disc 12, and wires are routed through the first electric slip ring 15, so that the number of the wires is reduced, the structure is miniaturized, and the equipment is miniaturized; the angle positioning cylinder 16 is arranged on one side of the first rotating disk 12 to realize the positioning of the first rotating disk 12; the material taking and extending cylinder 17 is arranged on the first rotating disc 12, the double-station material feeding clamping jaw 18 is connected with a cylinder shaft of the material taking and extending cylinder 17, and the double-station material feeding clamping jaw 18 is driven by the material taking and extending cylinder 17, so that double-station material feeding is completed, and the efficiency is doubled compared with that of single-station material feeding.

The four-station blanking mechanism 2 has a first short circuit testing station, a second short circuit testing station, a CCD detecting station, and a blanking station, as shown in fig. 3 and 4, the four-station blanking mechanism 2 specifically includes a second rotary driving motor 21, a second rotating disc 22, a second electromagnetic valve 23, a second amplifier 24, and a second electrical slip ring 25. A motor shaft of the second rotary driving motor 21 is connected with the second rotating disc 22, and the second rotary driving motor 21 drives the second rotating disc 22 to rotate so as to reach a first short circuit testing station, a second short circuit testing station, a CCD (charge coupled device) detecting station and a blanking station; the second solenoid valve 23 and the second amplifier 24 are integrated on the second rotating disk 22, and the second electrical slip ring 25 is used for wiring, so that the wiring quantity is reduced, the structure is miniaturized, and the equipment is miniaturized. Through the integration of the double-station short circuit test, the test efficiency can be doubled, and the number of times of one-time transfer can be reduced from the short circuit test to the detection of the inner diameter and the outer diameter of the battery core.

The first short circuit testing mechanism 3 corresponds to a first short circuit testing station, the second short circuit testing mechanism 4 corresponds to a second short circuit testing station, the CCD detecting mechanism 5 corresponds to a CCD detecting station, the blanking transfer manipulator 6 corresponds to a blanking station, and the blanking conveying belt 7 is close to the blanking transfer manipulator 6.

As shown in fig. 5, each of the first short circuit testing mechanism 3 and the second short circuit testing mechanism 4 includes a short circuit testing machine 31, a short circuit testing probe 32, a probe extension cylinder 33 and a short circuit testing rotating electrical machine 34, the probe extension cylinder 33 is disposed on the short circuit testing machine 31, the short circuit testing rotating electrical machine 34 is disposed on a cylinder shaft of the probe extension cylinder 33, the probe extension cylinder 33 can be used for driving the probe to move, the short circuit testing probe 32 is connected with a motor shaft of the short circuit testing rotating electrical machine 34, the short circuit testing rotating electrical machine 34 can be used for driving the short circuit testing probe to rotate, and the short circuit testing probe 32 is tested by the short circuit testing machine 31 after contacting with the electric core.

Preferably, a first NG waste box 8 is arranged between the first short circuit testing mechanism 3 and the second short circuit testing mechanism 4 and used for collecting short circuit testing NG products.

As shown in fig. 6 and 7, the blanking transfer manipulator 6 comprises a transfer clamp extending module 61, a clamping jaw rotating motor 62, a blanking cylinder 63 and a blanking clamping jaw 64, the clamping jaw rotating motor 62 is movably arranged on the transfer clamp extending module 61, the module 61 can be extended through the transfer clamp to drive the blanking cylinder 63 to move, the blanking cylinder 63 is arranged on a motor shaft of the clamping jaw rotating motor 62, the blanking clamping jaw 64 is connected with a cylinder shaft of the blanking cylinder 63, and blanking is completed through the blanking cylinder 63.

Preferably, one side of the blanking transfer manipulator 6 is provided with a second NG waste box 9 for collecting NG products for detecting the inner and outer diameters of the battery core.

The working process is as follows: the battery cell on the first feeding station and the battery cell on the second feeding station are respectively transferred to the first short circuit testing station and the second short circuit testing station through the double-station feeding mechanism 1 to carry out short circuit testing, the inside and outside diameter of the battery cell is detected at the CCD detection station after the short circuit testing is qualified, the discharging is completed at the discharging station after the inside and outside diameter of the battery cell is detected to be qualified, and the battery cell is transferred to the discharging conveyer belt 7 by the discharging transfer manipulator 6 to be output.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a button cell unloader which characterized in that: the device comprises a double-station feeding mechanism, a four-station blanking mechanism, a first short circuit testing mechanism, a second short circuit testing mechanism, a CCD (charge coupled device) detecting mechanism and a blanking transfer manipulator, wherein the double-station feeding mechanism is provided with a first feeding station and a second feeding station, the four-station blanking mechanism is provided with a first short circuit testing station, a second short circuit testing station, a CCD detecting station and a blanking station, the first short circuit testing mechanism corresponds to the first short circuit testing station, the second short circuit testing mechanism corresponds to the second short circuit testing station, the CCD detecting mechanism corresponds to the CCD detecting station, and the blanking transfer manipulator corresponds to the blanking station;

the battery cell on the first feeding station and the battery cell on the second feeding station are respectively transferred to the first short circuit testing station and the second short circuit testing station through the double-station feeding mechanism to carry out short circuit testing, the inside and outside diameter of the battery cell is detected at the CCD detecting station after the short circuit testing is qualified, and the blanking is completed at the blanking station after the inside and outside diameter of the battery cell is detected to be qualified.

2. The button cell blanking device of claim 1, characterized in that: the double-station feeding mechanism comprises a first rotary driving motor, a first rotary disc, a first electromagnetic valve, a first amplifier, a first electric slip ring, an angle positioning cylinder, a material taking extension cylinder and a double-station feeding clamping claw, wherein a motor shaft of the first rotary driving motor is connected with the first rotary disc, the first electromagnetic valve and the first amplifier are integrated on the first rotary disc, wiring is conducted through the first electric slip ring, the angle positioning cylinder is arranged on one side of the first rotary disc, the material taking extension cylinder is arranged on the first rotary disc, and the double-station feeding clamping claw is connected with a cylinder shaft of the material taking extension cylinder.

3. The button cell blanking device of claim 1, characterized in that: the four-station blanking mechanism comprises a second rotary driving motor, a second rotating disc, a second electromagnetic valve, a second amplifier and a second electric slip ring, a motor shaft of the second rotary driving motor is connected with the second rotating disc, the second electromagnetic valve and the second amplifier are integrated on the second rotating disc, and wires are arranged through the second electric slip ring.

4. The button cell blanking device of claim 1, characterized in that: the first short circuit testing mechanism and the second short circuit testing mechanism respectively comprise a short circuit testing machine, a short circuit testing probe, a probe extending cylinder and a short circuit testing rotating motor, the probe extending cylinder is arranged on the short circuit testing machine, the short circuit testing rotating motor is arranged on a cylinder shaft of the probe extending cylinder, and the short circuit testing probe is connected with a motor shaft of the short circuit testing rotating motor.

5. The button cell blanking device of claim 4, wherein: and a first NG waste material box is arranged between the first short circuit testing mechanism and the second short circuit testing mechanism.

6. The button cell blanking device of claim 1, characterized in that: the blanking transfer manipulator comprises a transfer clamp extending module, a clamping jaw rotating motor, a blanking cylinder and a blanking clamping jaw, wherein the clamping jaw rotating motor is movably arranged on the transfer clamp extending module, the blanking cylinder is arranged on a motor shaft of the clamping jaw rotating motor, and the blanking clamping jaw is connected with a cylinder shaft of the blanking cylinder.

7. The button cell blanking device of claim 6, wherein: and a second NG waste material box is arranged on one side of the blanking transfer manipulator.

8. The button cell blanking device of claim 1, characterized in that: the button cell blanking device further comprises a blanking conveying belt, and the blanking conveying belt is close to the blanking transfer manipulator.

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