CN214022094U - Take electric core sorting machine of electric core collecting device - Google Patents

Abstract

The utility model discloses an electric core sorting machine with electric core collecting equipment, which comprises a bottom plate, a shunt assembly and a probe assembly; a bottom plate: the upper surface of the first electric conveyor belt is provided with a first electric conveyor belt, the upper ends of the left end and the right end of the first electric conveyor belt are respectively provided with a side plate, the outer surface of the belt of the first electric conveyor belt is provided with holding tanks distributed in an array manner, the middle part of the upper surface of each side plate is fixedly connected with the lower surface of the second electric conveyor belt, the left end of the upper surface of the bottom plate is provided with two collecting tanks, and the rear ends of the upper surfaces of the side plates are fixedly connected with the side wall of the feed hopper through supports; a flow distribution assembly: the shunting assembly is arranged at the left end of the first electric conveyor belt through a bracket and respectively corresponds to the two collecting boxes; the probe assembly is as follows: set up respectively in the medial surface middle part of two curb plates, this take electric core sorting machine of electric core collecting device, the modern design, simple structure detects accurately, and is efficient, has reduced the hand labor volume, and application scope is wide.

Description

Take electric core sorting machine of electric core collecting device

Technical Field

The utility model relates to an electricity core sorter technical field specifically is an electricity core sorter of taking electric core collecting device.

Background

In the production process of the battery core, the materials are mixed, coated, rolled, cut, welded with tabs, wound or padded, pasted with adhesive paper, put into a core shell, welded, sealed and formed into mature products. The most core technology for producing battery cells mainly focuses on three procedures of material mixing, coating and formation. In the formation procedure, the battery cell needs to be formed, the internal resistance voltage is detected and the battery cell needs to be stood; and then detecting, sorting, forming, standing, detecting and sorting. The current common situation is that: detect internal resistance voltage, select separately, and even dress box of electric core all accomplishes through manual operation to people's sea tactics is leading to, can't realize assembly line automatic production, consequently, expect to provide one kind be used for battery electric core automated inspection, the equipment that can realize automated production of separation technology, and current sorting facilities stability is not good, lead to the yield low, lead to the operator to use convenient inadequately, the maintenance personal is inconvenient, for this reason, we provide a take electric core sorter of electric core collection equipment to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a take electric core sorter of electric core collecting device, the modern design, simple structure can be in batches continuous detect electric core, detect accurately, efficient, reduced the amount of hand labor, application scope is wide, and the problem in the background art can effectively be solved in the facilitate promotion and application.

In order to achieve the above object, the utility model provides a following technical scheme: a battery cell sorting machine with battery cell collecting equipment comprises a bottom plate, a shunt assembly and a probe assembly;

a bottom plate: the upper surface of the first electric conveyor belt is provided with a first electric conveyor belt, the upper ends of the left end and the right end of the first electric conveyor belt are respectively provided with a side plate, the outer surface of the belt of the first electric conveyor belt is provided with holding tanks distributed in an array manner, the middle part of the upper surface of each side plate is fixedly connected with the lower surface of the second electric conveyor belt, the left end of the upper surface of the bottom plate is provided with two collecting tanks, and the rear ends of the upper surfaces of the side plates are fixedly connected with the side wall of the feed hopper through supports;

a flow distribution assembly: the shunting assembly is arranged at the left end of the first electric conveyor belt through a bracket and respectively corresponds to the two collecting boxes;

the probe assembly is as follows: are respectively arranged in the middle of the inner side surfaces of the two side plates;

wherein: still include gauge table and PLC controller, the equal fixed connection of gauge table and PLC controller is in the curb plate surface on right side, and external power source is connected to the input electricity of PLC controller, and the input of PLC controller is connected to the output electricity of gauge table, and the input of gauge table is connected with two probe assembly electricity respectively, and the modern design, simple structure can be in batches continuous detect electric core, and it is accurate to detect, and is efficient, has reduced the hand labor volume, and application scope is wide, and convenient to popularize and apply.

Further, the reposition of redundant personnel subassembly includes the arc piece, the arc piece passes through support fixed connection in the front end of first electric conveyor, and the intrados face of arc piece corresponds with the belt front end of first electric conveyor, and the inside lower extreme of arc piece is equipped with logical groove, and the inboard front end that leads to the groove is connected with the deflector through the round pin rotation, and the rear side end of deflector corresponds with the belt front end of first electric conveyor, and the lower surface of deflector is equipped with first spring and metal block respectively, the bottom of first spring and the bottom surface fixed connection who leads to the groove, the bottom surface fixedly connected with electro-magnet that leads to the groove, electro-magnet and metal block position correspond, and the output of PLC controller is connected to the input electricity of electro-magnet, sorts the classified storage.

Further, the intrados of arc piece and the front end that leads to the groove all are equipped with the guide plate, and the guide plate extends to the inside of two collecting boxes respectively, reduces the collision to electric core, improves barrier propterty.

Further, probe assembly is including supporting a section of thick bamboo, and the inner wall sliding connection of supporting a section of thick bamboo has the slide, and the left and right sides facial symmetry of slide is equipped with the second spring, two second springs respectively with the inside left and right sides two wall contacts of supporting a section of thick bamboo, the equal fixedly connected with traveller of the relative medial surface of slide, the opening inner wall sliding connection that traveller and the inboard end of supporting a section of thick bamboo set up, the inboard end of traveller all is equipped with the current conducting plate, the current conducting plate passes through the wire electricity with the positive and negative pole of the input of gauge respectively and is connected, measure the parameter of electricity core, be convenient for detect.

Furthermore, the measuring meter is one of an ammeter or a voltmeter, different parameter types are selected according to actual measuring requirements, and the application range is widened.

Compared with the prior art, the beneficial effects of the utility model are that: this electric core sorter with electric core collecting device has following benefit:

the electric core is placed in the feed hopper in order, the electric core automatically falls due to gravity, the bottom end of the outer cambered surface of the electric core is in contact with the upper surface of a belt of a first electric conveyor belt, the first electric conveyor belt and a second electric conveyor belt are started through a PLC controller, the first electric conveyor belt and the second electric conveyor belt rotate at the same speed, the belt of the first electric conveyor belt moves, when the electric core corresponds to the position of the accommodating tank of the first electric conveyor belt, the electric core falls into the accommodating tank, the outer cambered surface of the lowermost electric core is separated from the bottom end of the inner wall of the feed hopper at the moment, the belt of the first electric conveyor belt drives the electric core to move forwards, when the electric core moves to the second electric conveyor belt, the belt of the second electric conveyor belt and the belt of the first electric conveyor belt compress and fix the electric core and convey the electric core forwards, when the electric core passes through two current-conducting plates, the positive pole and the negative pole of the electric core are in frictional contact with the corresponding current-conducting plates respectively, the measuring meter measures the parameters of the battery core through the current conducting plate and transmits the parameters to the PLC controller, the PLC controller judges whether the battery core is qualified or not according to the set parameters, when the battery core is qualified, the PLC controller controls the electromagnet to be powered off, the elastic force of the first spring pushes the guide plate to move upwards, the qualified battery core enters the collecting box at the rear side under the guiding action of the inner cambered surface of the arc-shaped block, on the contrary, when the battery core is unqualified, the PLC controller controls the electromagnet to be powered on, the electromagnet is powered on and has magnetism to adsorb the metal block, the metal block drives the guide plate to rotate along the pin shaft at the front end of the guide plate, the unqualified battery core rolls to the inside of the collecting box at the front side under the guiding action of the guide plate to realize classified storage, and the battery core sorting machine with the battery core collecting equipment has novel design and simple structure, can continuously detect the battery cores in batches, is accurate in detection, has high efficiency and reduces the amount of manual labor, wide application range and convenient popularization and application.

Drawings

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

FIG. 2 is a schematic diagram of the right-side cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a partial top view of the present invention;

fig. 4 is a schematic structural view of the probe assembly of the present invention.

In the figure: 1 bottom plate, 2 first electronic conveyer belt, 201 curb plate, 202 holding tank, 3 gauges, 4PLC controllers, 5 feeder hoppers, 6 electronic conveyer belts of second, 7 collecting box, 8 reposition of redundant personnel subassemblies, 81 arc piece, 82 logical groove, 83 deflector, 84 first spring, 85 metal block, 86 electro-magnet, 9 probe subassembly, 91 support section of thick bamboo, 92 slide, 93 second spring, 94 travellers, 95 current conducting plate, 10 guide plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a battery cell sorting machine with battery cell collecting equipment comprises a bottom plate 1, a shunt assembly 8 and a probe assembly 9;

bottom plate 1: the upper surface of the electric core is provided with a first electric conveyor belt 2, the upper ends of the left end and the right end of the first electric conveyor belt 2 are respectively provided with a side plate 201, the outer surface of a belt of the first electric conveyor belt 2 is provided with holding tanks 202 distributed in an array manner, the middle part of the upper surface of each side plate 201 is fixedly connected with the lower surface of a second electric conveyor belt 6, the left end of the upper surface of a bottom plate 1 is provided with a collecting tank 7, the number of the collecting tanks 7 is two, the rear end of the upper surface of each side plate 201 is fixedly connected with the side wall of a feeding hopper 5 through a bracket, the electric core automatically falls due to gravity, the bottom end of the outer cambered surface of the electric core is contacted with the upper surface of the belt of the first electric conveyor belt 2, the first electric conveyor belt 2 and the second electric conveyor belt 6 are started through a PLC (programmable logic controller) 4, the first electric conveyor belt 2 and the second electric conveyor belt 6 rotate at the same speed, the belt of the first electric conveyor belt 2 moves, when the electric core corresponds to the holding tanks 202 of the first electric conveyor belt, the battery core falls into the accommodating groove 202, the outer arc surface of the lowest battery core is separated from the bottom end of the inner wall of the feed hopper 5, and the belt of the first electric conveyor belt 2 drives the battery core to move forwards;

the flow dividing assembly 8: the device is arranged at the left end of the first electric conveyor belt 2 through a bracket, the shunt assembly 8 corresponds to the two collecting boxes 7 respectively, the shunt assembly 8 comprises an arc-shaped block 81, the arc-shaped block 81 is fixedly connected to the front end of the first electric conveyor belt 2 through the bracket, the inner arc surface of the arc-shaped block 81 corresponds to the front end of the belt of the first electric conveyor belt 2, the lower end of the inside of the arc-shaped block 81 is provided with a through groove 82, the front end of the inner side surface of the through groove 82 is rotatably connected with a guide plate 83 through a pin shaft, the rear end of the guide plate 83 corresponds to the front end of the belt of the first electric conveyor belt 2, the lower surface of the guide plate 83 is respectively provided with a first spring 84 and a metal block 85, the bottom end of the first spring 84 is fixedly connected with the bottom surface of the through groove 82, the bottom surface of the through groove 82 is fixedly connected with an electromagnet 86, the electromagnet 86 corresponds to the position of the metal block 85, the input end PLC of the electromagnet 86 is electrically connected with the output end of the controller 4, when the battery cell is qualified, the PLC 4 controls the electromagnet 86 to be powered off, the elastic force of the first spring 84 pushes the guide plate 83 to move upwards, the qualified battery cell enters the collecting box 7 on the rear side under the guiding action of the inner arc surface of the arc-shaped block 81, on the contrary, when the battery cell is unqualified, the PLC 4 controls the electromagnet 86 to be powered on, the electromagnet 86 is powered on and has magnetism, the metal block 85 is adsorbed, the metal block 85 drives the guide plate 83 to rotate along the pin shaft at the front end of the guide plate, the unqualified battery cell rolls to the inside of the collecting box 7 on the front side under the guiding action of the guide plate 83, classified storage is realized, the inner arc surface of the arc-shaped block 81 and the front end of the through groove 82 are respectively provided with the guide plates 10, the guide plates 10 respectively extend to the insides of the two collecting boxes 7, collision to the battery cell is reduced, and the protective performance is improved;

the probe assembly 9: the probe assembly 9 comprises a supporting cylinder 91, sliding plates 92 are connected to the inner wall of the supporting cylinder 91 in a sliding manner, second springs 93 are symmetrically arranged on the left side and the right side of each sliding plate 92, the two second springs 93 are respectively contacted with the left side and the right side of the inside of the supporting cylinder 91, sliding columns 94 are fixedly connected to the opposite inner side of each sliding plate 92, the sliding columns 94 are connected with the inner wall of an opening arranged at the inner end of the supporting cylinder 91 in a sliding manner, current-conducting plates 95 are arranged at the inner ends of the sliding columns 94, the current-conducting plates 95 are respectively electrically connected with the positive electrode and the negative electrode of the input end of the measuring meter 3 through conducting wires, parameters of the battery cell are measured and are convenient to detect, when the battery cell moves to the second electric conveyor belt 6, the belt of the second electric conveyor belt 6 and the belt of the first electric conveyor belt 2 compress and convey the battery cell forwards, when the battery cell passes through the two current-conducting plates 95, the positive electrode and the negative electrode of the battery cell are in frictional contact with the corresponding conductive plates 95 respectively, the parameter of the battery cell is measured by the measuring meter 3 through the conductive plates 95 and is transmitted to the PLC 4, and the PLC 4 judges whether the battery cell is qualified or not according to the set parameter;

wherein: still include measurement meter 3 and PLC controller 4, the equal fixed connection in curb plate 201 surface on right side of measurement meter 3 and PLC controller 4, external power source is connected to PLC controller 4's input electricity, PLC controller 4's input is connected to measurement meter 3's output electricity, measurement meter 3's input is connected with two probe subassembly 9 electricity respectively, measurement meter 3 is one kind in ampere meter or the voltmeter, carry out different parameter type according to the actual measurement demand and select, application scope has been improved.

When in use: the electric core is placed in the feed hopper 5 in order, the electric core automatically falls due to gravity, the bottom end of the outer arc surface of the electric core is in contact with the upper surface of a belt of the first electric conveyor belt 2, the first electric conveyor belt 2 and the second electric conveyor belt 6 are started through the PLC 4, the first electric conveyor belt 2 and the second electric conveyor belt 6 rotate at the same speed, the belt of the first electric conveyor belt 2 moves, when the electric core corresponds to the position of the accommodating tank 202 of the first electric conveyor belt 2, the electric core falls into the accommodating tank 202, the outer arc surface of the lowermost electric core is separated from the bottom end of the inner wall of the feed hopper 5 at the moment, the belt of the first electric conveyor belt 2 drives the electric core to move forwards, when the electric core moves to the second electric conveyor belt 6, the belt of the second electric conveyor belt 6 and the belt of the first electric conveyor belt 2 compress and fix the electric core and convey the electric core, the positive pole and the negative pole of electric core respectively with the current conducting plate 95 frictional contact that corresponds, the measurement table 3 measures and sends PLC controller 4 to the parameter of electric core through current conducting plate 95, PLC controller 4 judges whether electric core is qualified according to the settlement parameter, when electric core is qualified, PLC controller 4 control electro-magnet 86 cuts off the power supply, the elasticity of first spring 84 promotes deflector 83 rebound, qualified electric core gets into inside collecting box 7 of rear side under the interior cambered surface guide effect of arc piece 81, it is opposite, when electric core is unqualified, PLC controller 4 control electro-magnet 86 circular telegram, electro-magnet 86 circular telegram has magnetism, adsorb metal block 85, metal block 85 drives the round pin axle rotation of deflector 83 along its front end, unqualified electric core rolls inside collecting box 7 of front side under the guide effect of deflector 83, realize categorised the depositing.

It should be noted that the specific model of the PLC controller 4 disclosed in this embodiment is siemens S7-200, the first electric conveyor belt 2, the second electric conveyor belt 6, and the measurement meter 3 may be freely configured according to an actual application scenario, the polyester conveyor belt produced by kunaite mining technology ltd in Qingdao is suggested to be used as the first electric conveyor belt 2, and the PLC controller 4 controls the first electric conveyor belt 2, the second electric conveyor belt 6, and the measurement meter 3 to work by a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a take electric core sorter of electricity core collection equipment which characterized in that: comprises a bottom plate (1), a shunt assembly (8) and a probe assembly (9);

base plate (1): the upper surface of the conveying device is provided with a first electric conveyor belt (2), the upper ends of the left end and the right end of the first electric conveyor belt (2) are respectively provided with a side plate (201), the outer surface of a belt of the first electric conveyor belt (2) is provided with containing grooves (202) distributed in an array manner, the middle parts of the upper surfaces of the side plates (201) are respectively fixedly connected with the lower surface of a second electric conveyor belt (6), the left end of the upper surface of the bottom plate (1) is provided with a collecting box (7), the number of the collecting boxes (7) is two, and the rear ends of the upper surfaces of the side plates (201) are respectively fixedly connected with the side wall of the feeding hopper (5) through a support;

flow diversion assembly (8): the shunting assembly (8) is arranged at the left end of the first electric conveyor belt (2) through a bracket and corresponds to the two collecting boxes (7) respectively;

probe assembly (9): are respectively arranged in the middle of the inner side surfaces of the two side plates (201);

wherein: still include gauge (3) and PLC controller (4), equal fixed connection in curb plate (201) surface on right side of gauge (3) and PLC controller (4), external power source is connected to the input electricity of PLC controller (4), and the input of PLC controller (4) is connected to the output electricity of gauge (3), and the input of gauge (3) is connected with two probe subassembly (9) electricity respectively.

2. The battery cell sorting machine with the battery cell collecting equipment according to claim 1, characterized in that: the shunt assembly (8) comprises an arc-shaped block (81), the arc-shaped block (81) is fixedly connected to the front end of the first electric conveyor belt (2) through a support, the inner arc surface of the arc-shaped block (81) corresponds to the front end of the belt of the first electric conveyor belt (2), a through groove (82) is formed in the lower end of the interior of the arc-shaped block (81), the front end of the inner side surface of the through groove (82) is rotatably connected with a guide plate (83) through a pin shaft, the end of the rear side of the guide plate (83) corresponds to the front end of the belt of the first electric conveyor belt (2), a first spring (84) and a metal block (85) are respectively arranged on the lower surface of the guide plate (83), the bottom end of the first spring (84) is fixedly connected with the bottom surface of the through groove (82), the bottom surface of the through groove (82) is fixedly connected with an electromagnet (86), the electromagnet (86) corresponds to the metal block (85) in position, and the input end of the electromagnet (86) is electrically connected with the output end of the PLC (4).

3. The battery cell sorting machine with the battery cell collecting equipment according to claim 2, characterized in that: the intrados of arc piece (81) and the front end that leads to groove (82) all are equipped with guide plate (10), and guide plate (10) extend to the inside of two collecting boxes (7) respectively.

4. The battery cell sorting machine with the battery cell collecting equipment according to claim 1, characterized in that: probe subassembly (9) are including supporting a section of thick bamboo (91), the inner wall sliding connection of supporting a section of thick bamboo (91) has slide (92), the left and right sides facial symmetry of slide (92) is equipped with second spring (93), two second springs (93) respectively with the inside left and right sides two wall contacts of supporting a section of thick bamboo (91), the equal fixedly connected with traveller (94) of relative medial surface of slide (92), opening inner wall sliding connection that traveller (94) and supporting a section of thick bamboo (91) inboard end set up, the inboard end of traveller (94) all is equipped with current conducting plate (95), current conducting plate (95) pass through the wire electricity with the input positive pole and the negative pole of measuring meter (3) respectively and are connected.

5. The battery cell sorting machine with the battery cell collecting equipment according to claim 1, characterized in that: the measuring meter (3) is one of an ammeter or a voltmeter.

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