CN111403795A - Edge voltage detection mechanism - Google Patents

Abstract

The invention provides a side voltage detection mechanism which comprises a third vertical frame, a second polar ear supporting assembly, a pressing assembly and a top cutting and edge sealing assembly, wherein the third vertical frame is provided with a first polar ear supporting assembly; the second pole ear supporting component is arranged at the lower part of the third vertical frame and is used for supporting one pole ear of the battery; the downward pressing assembly comprises a third pressing block correspondingly arranged above the second polar ear supporting assembly and a third pressing block driving device arranged on a third vertical frame and used for driving the third pressing block to move up and down; the top cutting and edge sealing component comprises a Y-axis pushing component, a Z-axis pushing component and two groups of cutter components with the same structure; the two groups of cutter assemblies are arranged between the second polar ear supporting assembly and the pressing assembly and are arranged symmetrically left and right; the Y-axis pushing assembly is arranged on the third vertical frame and drives the Z-axis driving assembly to move back and forth; the Z-axis driving assembly drives the two cutter assemblies to move up and down; the design can be used as a station on the turntable to automatically detect the side voltage of the battery, so that the working efficiency is improved, and the labor consumption is reduced.

Description

Edge voltage detection mechanism

Technical Field

The invention relates to the field of battery processing equipment, in particular to an edge voltage detection mechanism.

Background

When the battery is produced, the side voltage of the battery needs to be detected, when the side voltage of the battery is detected, the two sides of the top sealing edge of the battery need to be punctured firstly, whether the battery is electrified or not is tested, if the circuit is conducted, the side voltage of the battery is detected by virtue of the testing jig, the testing efficiency is low, labor is wasted, the production trend of the battery is the full-automatic production of multi-station processing, and the semi-automatic testing mode cannot be applied to the battery.

Disclosure of Invention

It is an object of the present invention to provide an edge voltage detection mechanism to solve the problems mentioned in the background art.

In order to achieve the above purpose, the invention provides the following technical scheme:

a side voltage detection mechanism comprises a third vertical frame, a second polar ear supporting assembly, a pressing assembly and a top cutting and edge sealing assembly; the second pole ear supporting component is arranged at the lower part of the third vertical frame and is used for supporting one pole ear of the battery; the downward pressing assembly comprises a third pressing block correspondingly arranged above the second polar ear supporting assembly and a third pressing block driving device arranged on a third vertical frame and used for driving the third pressing block to move up and down; the top cutting and edge sealing component comprises a Y-axis pushing component, a Z-axis pushing component and two groups of cutter components with the same structure; the two groups of cutter assemblies are arranged between the second polar ear supporting assembly and the pressing assembly and are arranged symmetrically left and right; the Y-axis pushing assembly is arranged on the third vertical frame and drives the Z-axis driving assembly to move back and forth; and the Z-axis driving component drives the two cutter components to move up and down.

For further description of the present invention, the second pole ear supporting assembly includes a second seat, a second supporting block and a second supporting block driving cylinder; the second supporting block driving cylinder is fixed on the third vertical frame through a second base body; the second supporting block is arranged at the power output end of the second supporting block driving cylinder;

further describing the invention, the third pressing block driving device comprises a third pressing block driving cylinder, a mounting block, a sliding block, an upper limiting block, a fourth spring and a second mounting seat; the third pressing block driving cylinder is fixed above the third vertical frame; the mounting block is fixed at the power output end of the third pressing block driving cylinder; the bottom of the mounting block is provided with a limiting boss; the sliding block is connected to the mounting block in a sliding manner; the second mounting seat is fixed on the front side of the sliding block; the upper limiting block is fixed at the upper end of the mounting block; the upper limiting block corresponds to all the screws above the second mounting seat; the fourth spring is sleeved on the screw, the upper end of the fourth spring is pressed against the bottom of the upper limiting block, and the lower end of the fourth spring is pressed against the upper end of the second mounting seat; and the third pressing block is fixed at the bottom of the second mounting seat.

For further description of the present invention, the Y-axis pushing assembly includes a second mounting plate, a mounting bracket, and a mounting bracket driving cylinder; the second mounting plate is horizontally fixed at the rear side of the third vertical frame; the mounting rack is arranged on the second mounting plate in a front-back sliding manner; the mounting frame driving cylinder is arranged on the second mounting plate, and the power output end is fixedly connected with the mounting frame; the Z-axis pushing assembly comprises a third Z-axis driving device and a movable frame; the movable frame is arranged on the mounting frame in a vertically sliding manner; the third Z-axis driving device is arranged on the mounting frame, and the power output end of the third Z-axis driving device is fixedly connected with the movable frame; the two groups of cutter assemblies are arranged on the movable frame and comprise adjusting seats, cutter seats and cutters; the adjusting seat can be arranged on the movable frame in a left-right position adjusting manner; the cutter holder is arranged on the adjusting seat in a way that the position can be adjusted back and forth; the cutter is vertically arranged on the cutter holder.

The invention has the beneficial effects that:

the edge voltage testing mechanism is set to be of a full-automatic type, the top cutting edge sealing component is used for cutting the top sealing edge, the second pole lug supporting component and the pressing component are used for pressing the positive pole lug of the battery, the edge voltage can be detected only by controlling the connection and disconnection of the cutter and the third pressing block circuit through the relay, and the edge voltage testing mechanism can be used as one of processing stations of the turntable and works synchronously with other working procedures, so that the working efficiency is effectively improved, and the labor loss is reduced.

Drawings

FIG. 1 is a structural view of a battery of the present invention;

FIG. 2 is an overall block diagram of the present invention;

FIG. 3 is a block diagram of the hold-down assembly of the present invention;

fig. 4 is a block diagram of the cut top edge banding assembly of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1, the battery 100 has a top sealing edge 102 and two tabs 101 at the front end.

As shown in fig. 2 to 4, an edge voltage detecting mechanism includes a third stand 71, a second pole ear supporting assembly 72, a pressing-down assembly 73, and a top-cutting edge-sealing assembly 74; the second tab support assembly 72 is mounted at the lower part of the third stand 71 for supporting a tab of the battery; the second pole ear supporting assembly 72 comprises a second base 721, a second supporting block 722 and a second supporting block driving cylinder 723; the second supporting block driving cylinder 723 is fixed on the third vertical frame 71 through the second seat body 721; the second supporting block 722 is arranged at the power output end of the second supporting block driving cylinder 723; the pressing assembly 73 comprises a third pressing block 731 correspondingly arranged above the second polar ear supporting assembly 72 and a third pressing block driving device 732 which is arranged on the third vertical frame 71 and drives the third pressing block 731 to move up and down; the top-cutting edge sealing component 74 comprises a Y-axis pushing component 741, a Z-axis pushing component 742 and two groups of cutter components 743 with the same structure; the two groups of cutter assemblies 743 are arranged between the second polar ear supporting assembly 72 and the pressing assembly 73 and are arranged symmetrically left and right; the Y-axis pushing component 741 is arranged on the third vertical frame 71 and drives the Z-axis driving component to move back and forth; the Z-axis driving component drives the two cutter components 743 to move up and down; the side voltage detection mechanism is used as a processing station on a multi-station turntable for carrying out side voltage detection on a battery, two groups of cutter assemblies 743 are provided with cutters 7433, two cutters 7433 and a third pressing block 731 control the connection and disconnection of a circuit through a relay, the two cutters 7433 are connected with a current detection element through wires and are used for detecting whether the circuit of the battery is communicated, the cutter 7433 and the third pressing block 731 which are far away from one side of a positive lug are connected with the voltage detection element through wires and are used for detecting side voltage, during processing, the positive lug of the battery is supported through a second lug supporting assembly 72, a third pressing block driving cylinder 7321 drives the pressing block to press downwards above the positive lug, a Y-axis pushing assembly 741 drives a Z-axis driving assembly to move forwards, so that the cutter 7433 on the cutter assembly 743 is contacted with the front end of a top sealing edge, and then the cutter assembly 743 is driven to move downwards through the Z-axis pushing assembly 742, cutting the top sealing edge, controlling the two cutters 7433 to be electrified by the relay, detecting whether the circuit is conducted or not, if so, controlling the cutter 7433 close to one side of the positive electrode tab to be powered off by the relay, controlling the third pressing block 731 to be electrified, detecting the side voltage of the battery, wherein the detection of the side voltage is that the side voltage OK is within a set range value, the side voltage NG is not within the range value, and the battery with the side voltage NG is not processed subsequently; if the detected circuit is not conducted, the top cutting and edge sealing assembly 74 resets, the cutting is repeated, the edge voltage is detected after the cutting is conducted, if the cutting is not conducted for three times continuously, the edge voltage is judged to be NG, the battery is not processed any more, and the battery is subjected to blanking and classification through the blanking classification mechanism.

The third pressing block driving device 732 comprises a third pressing block driving cylinder 7321, a mounting block 7322, a sliding block 7323, an upper limiting block 7324, a fourth spring 7325 and a second mounting seat 7326; the third pressing block driving cylinder 7321 is fixed above the third vertical frame 71; the mounting block 7322 is fixed at the power output end of the third pressing block driving cylinder 7321; the bottom of the mounting block 7322 is provided with a limiting boss 7322-1; the sliding block 7323 is slidably connected to the mounting block 7322; the second mounting seat 7326 is fixed to the front side of the sliding block 7323; the upper limiting block 7324 is fixed at the upper end of the mounting block 7322; the upper limiting block 7324 corresponds to all the screws 7324-1 above the second mounting seat 7326; the fourth spring 7325 is sleeved on the screw 7324-1, and has an upper end pressing against the bottom of the upper limit block 7324 and a lower end pressing against the upper end of the second mounting seat 7326; the third pressing block 731 is fixed at the bottom of the second mounting seat 7326; the lower limit position of the sliding block 7323 is limited by the limiting boss 7322-1, the upper limit position is limited by the upper limiting block 7324, in the original state, the sliding block 7323 contacts with the limiting boss 7322-1, the third pressing block drives the cylinder 7321 to drive the mounting block 7322 to move downwards, when the third pressing block 731 contacts with the positive electrode tab of the battery, the second mounting seat 7326 moves upwards, the sliding block 7323 slides upwards, and the fourth spring 7325 compresses, thereby playing a role of buffering and preventing the electrode tab from being crushed.

The Y-axis pushing assembly 741 comprises a second mounting plate 7411, a mounting frame 7412 and a mounting frame driving cylinder 7413; the second mounting plate 7411 is horizontally fixed at the rear side of the third vertical frame 71; the mounting bracket 7412 is mounted on the second mounting plate 7411 to be capable of sliding back and forth; the mounting bracket driving cylinder 7413 is mounted on the second mounting plate 7411, and the power output end is fixedly connected with the mounting bracket 7412; the Z-axis pushing assembly 742 comprises a third Z-axis drive 7421 and a movable frame 7422; the movable frame 7422 is mounted on the mounting frame 7412 in a vertically sliding manner; the third Z-axis driving device 7421 is mounted on the mounting frame 7412, and the power output end is fixedly connected with the movable frame 7422; the two groups of cutter assemblies 743 are arranged on the movable frame 7422 and comprise an adjusting seat 743, a cutter seat 7432 and a cutter 7433; the adjusting seat 743 is arranged on the movable frame 7422 with the position being adjustable left and right; the tool holder 7432 is mounted on the adjusting seat 743 in a position adjustable back and forth; the cutting knife 7433 is vertically arranged on the knife holder 7432; adjust and be connected through the slide rail pair between seat 743 and adjustable shelf 7422, and through screw locking, also be connected through the slide rail pair and pass through screw locking before blade holder 7432 and the seat 743 of regulation, when needing the adjusting position, loosen the screw and can carry out position control, in operation, the mounting bracket drives actuating cylinder 7413 drive mounting bracket 7412 and moves forward, drive Z axle drive assembly and move forward, two cutters 7433 roof pressure respectively are on battery top seal edge this moment, third Z axle drive device 7421 drives adjustable shelf 7422 and moves down again, cutter 7433 then cuts the opposite vertex seal edge, then can switch on after the cutting and carry out the conduction test of circuit.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention are still within the technical scope of the present invention.

Claims (4)

1. An edge voltage detection mechanism, its characterized in that: the device comprises a third vertical frame, a second polar ear supporting assembly, a pressing assembly and a top cutting and edge sealing assembly; the second pole ear supporting component is arranged at the lower part of the third vertical frame and is used for supporting one pole ear of the battery; the downward pressing assembly comprises a third pressing block correspondingly arranged above the second polar ear supporting assembly and a third pressing block driving device arranged on a third vertical frame and used for driving the third pressing block to move up and down; the top cutting and edge sealing component comprises a Y-axis pushing component, a Z-axis pushing component and two groups of cutter components with the same structure; the two groups of cutter assemblies are arranged between the second polar ear supporting assembly and the pressing assembly and are arranged symmetrically left and right; the Y-axis pushing assembly is arranged on the third vertical frame and drives the Z-axis driving assembly to move back and forth; and the Z-axis driving component drives the two cutter components to move up and down.

2. A side voltage detection mechanism according to claim 1, wherein: the second lug supporting assembly comprises a second base body, a second supporting block and a second supporting block driving cylinder; the second supporting block driving cylinder is fixed on the third vertical frame through a second base body; the second supporting block is arranged at the power output end of the second supporting block driving cylinder.

3. A side voltage detection mechanism according to claim 1, wherein: the third pressing block driving device comprises a third pressing block driving cylinder, a mounting block, a sliding block, an upper limiting block, a fourth spring and a second mounting seat; the third pressing block driving cylinder is fixed above the third vertical frame; the mounting block is fixed at the power output end of the third pressing block driving cylinder; the bottom of the mounting block is provided with a limiting boss; the sliding block is connected to the mounting block in a sliding manner; the second mounting seat is fixed on the front side of the sliding block; the upper limiting block is fixed at the upper end of the mounting block; the upper limiting block corresponds to all the screws above the second mounting seat; the fourth spring is sleeved on the screw, the upper end of the fourth spring is pressed against the bottom of the upper limiting block, and the lower end of the fourth spring is pressed against the upper end of the second mounting seat; and the third pressing block is fixed at the bottom of the second mounting seat.

4. A side voltage detection mechanism according to claim 1, wherein: the Y-axis pushing assembly comprises a second mounting plate, a mounting frame and a mounting frame driving cylinder; the second mounting plate is horizontally fixed at the rear side of the third vertical frame; the mounting rack is arranged on the second mounting plate in a front-back sliding manner; the mounting frame driving cylinder is arranged on the second mounting plate, and the power output end is fixedly connected with the mounting frame; the Z-axis pushing assembly comprises a third Z-axis driving device and a movable frame; the movable frame is arranged on the mounting frame in a vertically sliding manner; the third Z-axis driving device is arranged on the mounting frame, and the power output end of the third Z-axis driving device is fixedly connected with the movable frame; the two groups of cutter assemblies are arranged on the movable frame and comprise adjusting seats, cutter seats and cutters; the adjusting seat can be arranged on the movable frame in a left-right position adjusting manner; the cutter holder is arranged on the adjusting seat in a way that the position can be adjusted back and forth; the cutter is vertically arranged on the cutter holder.

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