CN218945680U - Pole piece detection device - Google Patents

Abstract

The utility model provides a pole piece detection device which comprises a first conveying mechanism, a second conveying mechanism, a first detection mechanism and a second detection mechanism, wherein the first detection mechanism is used for detecting the front information of a pole piece, and the second detection mechanism is used for detecting the back information of the pole piece; the top of second transport mechanism is equipped with the rejection mechanism, and the rejection mechanism includes drive division, drive division and beat material portion, accepts in the detection information of first detection mechanism and second detection mechanism, drive division drive rotation by drive division, and drive beat material portion reciprocal sliding from top to bottom to beat bad pole piece on the second transport mechanism. According to the pole piece detection device, the rejecting mechanism is arranged on the second conveying mechanism, and the driving part in the rejecting mechanism drives the driving part to rotate so as to drive the material beating part to slide up and down, so that bad pole pieces on the second conveying mechanism can be beaten down, the structure is simple, the production cost is low, and the space occupied by the whole device can be well saved.

Description

Pole piece detection device

Technical Field

The utility model relates to the technical field of pole piece detection, in particular to a pole piece detection device.

Background

In recent years, lithium ion batteries are widely used with excellent performances such as high energy, density and high voltage, but in the actual battery production process, some fine dust adheres to the surfaces of positive and negative electrodes, especially the dust amount of the tabs and the tail ends is too large, so that hidden danger is caused to the battery safety.

The existing lamination technology has higher and higher requirements on pole piece buffering and defective pole piece removing after slicing, lamination equipment develops towards the direction of high integration, a vacuum belt wire body becomes more and more standard of a lamination machine, in the use process, the abrasion loss of a vacuum belt is larger, the whole of a common vacuum belt wire body device is complex, assembly is difficult, in the pole piece detection process, dust in the device is larger, the belt is deviated and the like, the detection effect on the pole piece is easily affected, and the cost of the detection process of the whole device on the pole piece is higher.

Disclosure of Invention

In view of the above, the present utility model aims to provide a pole piece detection device, so as to reduce the overall production cost of the pole piece detection device.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

a pole piece detection device, the detection device comprising:

the device comprises a first conveying mechanism, a second conveying mechanism and a first detection mechanism, wherein the first conveying mechanism and the second conveying mechanism are sequentially arranged along a conveying path, the first detection mechanism is arranged above the first conveying mechanism, the second detection mechanism is arranged below the second conveying mechanism, the first detection mechanism is used for detecting the front information of a pole piece supported by the first conveying mechanism, and the second detection mechanism is used for detecting the back information of the pole piece hung on the second conveying mechanism;

the upper part of the second conveying mechanism is provided with a removing mechanism, the removing mechanism comprises a driving part, a driving part which is driven by the driving part and can rotate around a center, a material beating part connected with the driving part, the driving part drives the rotation by the driving part to drive the material beating part to slide up and down in a reciprocating manner so as to beat off the defective pole piece on the second conveying mechanism.

Further, the first and second transfer mechanisms each include two end belt rollers, and a plurality of vacuum belts drivingly connected between the two end belt rollers;

the vacuum belts are arranged at intervals along the direction orthogonal to the conveying direction of the pole piece.

Further, the dimension of the lower surface of the vacuum belt of the second conveying mechanism higher than the upper surface of the vacuum belt of the first conveying mechanism is the thickness dimension of one pole piece.

Further, the driving part comprises a first rotating wheel which is connected with the power output end of the driving part in a transmission way, and a second rotating wheel which is arranged on the first rotating wheel;

the material beating part comprises a connecting body and a material beating split body, a through groove extending along the horizontal direction is formed in the connecting body, and the second rotating wheel is arranged in the through groove; the plurality of the material beating split bodies are connected to one side of the connecting body side by side, and each material beating split body is arranged corresponding to a gap between every two adjacent vacuum belts respectively so as to enter the gap when descending and beat and fall the pole pieces.

Further, the rejecting mechanism further comprises a transmission part in transmission connection between the driving part and the first rotating wheel.

Further, the transmission part comprises two belt wheels and a transmission belt in transmission connection with the two belt wheels, one belt wheel is connected with the power output end of the driving part, and the other belt wheel and the first rotating wheel are arranged on the same rotating shaft so that the other belt wheel drives the first rotating wheel to rotate through the rotating shaft.

Further, the pole piece detection device further comprises a third conveying mechanism, the third conveying mechanism and the first conveying mechanism are respectively arranged on two sides of the second conveying mechanism, and a vacuum belt of the third conveying mechanism and a vacuum belt of the first conveying mechanism are located on the same horizontal plane.

Further, a dust removing mechanism for removing dust from the vacuum belt is arranged below the first conveying mechanism, above the second conveying mechanism and above the third conveying mechanism.

Furthermore, a good product collecting box is arranged at one end, far away from the second conveying mechanism, of the third conveying mechanism, and a waste product collecting box is arranged at the lower side of the rejecting mechanism.

Further, the pole piece detection device further comprises a static eliminating mechanism, wherein the static eliminating mechanism is arranged above the first conveying mechanism, and the static eliminating mechanism is positioned at the upstream of the first detection mechanism.

Compared with the prior art, the utility model has the following advantages:

according to the pole piece detection device, the rejecting mechanism is arranged on the second conveying mechanism, and the driving part in the rejecting mechanism drives the driving part to rotate so as to drive the material beating part to slide up and down, so that bad pole pieces on the second conveying mechanism can be beaten down, the structure is simple, the production cost is low, and the space occupied by the whole device can be well saved.

In addition, set up first transport mechanism and second transport mechanism into belt roller and vacuum belt, its product is ripe, and the setting of being convenient for, and a plurality of vacuum belts set up along quadrature pole piece direction of delivery interval, are favorable to improving the adsorption effect to the pole piece. The driving part is arranged as the first rotating wheel and the second rotating wheel, the structure is simple, the setting is convenient, the material beating part comprises a connecting body and a material beating split body, the connecting body is provided with a through groove, the second rotating wheel is convenient to set, the second rotating wheel is driven to slide up and down along with the second rotating wheel, and the pole pieces are convenient to beat and fall off in the split bodies. The transmission part is provided with the belt wheel and the transmission belt, so that the structure is simple, and the setting cost is low.

In addition, still be equipped with third transport mechanism on detection device to all be equipped with dust removal mechanism simultaneously on first transport mechanism, second transport mechanism and third transport mechanism, be favorable to removing dust to the vacuum belt on each transport mechanism, effectually avoid the dust on the vacuum belt to adsorb on the pole piece, and cause the influence to the detection of pole piece.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 is a schematic diagram of the overall structure of a pole piece detection device according to an embodiment of the present utility model;

FIG. 2 is a left side view of the FIG. 1 state;

FIG. 3 is a top view of the FIG. 1 state;

fig. 4 is a schematic structural diagram of a rejecting mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a partial structure of a rejecting mechanism according to an embodiment of the present utility model;

fig. 6 is a schematic partial structure of another part of the rejecting mechanism according to the embodiment of the utility model.

Reference numerals illustrate:

1. a first conveying mechanism; 101. a first support frame; 102. a first vacuum belt; 2. a second conveying mechanism; 201. a second support frame; 202. a second vacuum belt; 3. a rejecting mechanism; 301. a driving section; 302. a first wheel; 303. a second wheel; 304. a drive belt; 305. a belt wheel; 306. a connecting body; 307. separating the materials; 4. a support plate; 5. a tensioning mechanism; 6. a first detection mechanism; 7. a second detection mechanism; 8. a dust removing mechanism; 9. an adjusting mechanism; 10. a third conveying mechanism; 11. a waste collection box; 12. good product collecting boxes; 13. a pole piece size detection mechanism; 14. and a static electricity removing mechanism.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", "inner", "back", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, in the description of the present utility model, the terms "mounted," "connected," and "connected," are to be construed broadly, unless otherwise specifically defined. For example, the connection can be fixed connection, detachable connection or integrated connection; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in combination with specific cases.

The utility model will be described in detail below with reference to the drawings in connection with embodiments.

The present embodiment relates to a pole piece detecting device, as shown in fig. 1, which includes a first conveying mechanism 1 and a second conveying mechanism 2 that are disposed in order along a conveying path, a first detecting mechanism 6 that is disposed above the first conveying mechanism 1, and a second detecting mechanism 7 that is disposed below the second conveying mechanism 2.

The first detection mechanism 6 is used for detecting the front information of the pole piece held by the first conveying mechanism 1, and the second detection mechanism 7 is used for detecting the back information of the pole piece hung on the second conveying mechanism 2. In addition, a rejecting mechanism 3 is arranged above the second conveying mechanism 2, the rejecting mechanism 3 comprises a driving part 301, a driving part which is driven by the driving part 301 and can rotate around a center, a material beating part connected with the driving part, detection information received by the first detecting mechanism 6 and the second detecting mechanism 7, and the driving part is driven by the driving part 301 to rotate so as to drive the material beating part to slide up and down in a reciprocating manner, so that bad pole pieces on the second conveying mechanism 2 are beaten.

According to the pole piece detection device, the rejecting mechanism 3 is arranged on the second conveying mechanism 2, the driving part 301 in the rejecting mechanism 3 drives the driving part to rotate so as to drive the material beating part to slide up and down, so that bad pole pieces on the second conveying mechanism 2 can be beaten down, the structure is simple, the production cost is low, and the space occupied by the whole device can be well saved.

Based on the above design concept, an exemplary structure of the pole piece detecting device of the present embodiment is shown in fig. 1 to 3, the first conveying mechanism 1 and the second conveying mechanism 2 each include two end belt rollers, and a plurality of vacuum belts connected between the two end belt rollers, and the plurality of vacuum belts are arranged at intervals in a direction orthogonal to the pole piece conveying direction.

Specifically, in the present embodiment, the description is based on the first view angle in which the first conveying mechanism 1 is located on the front side of the second conveying mechanism 2, and the following description is made with reference to this direction. And the support frame in the first transfer mechanism 1 is referred to as a first support frame 101, and the support frame in the second transfer mechanism 2 is referred to as a second support frame 201. Two end belt rollers in the first conveying mechanism 1 are provided at both front and rear end portions of the first supporting frame 101, and a plurality of first vacuum belts 102 are drivingly connected to the two end belt rollers. Meanwhile, two end belt rollers in the second conveying mechanism 2 are also arranged at the front end and the rear end of the second supporting frame 201, and the second vacuum belt 202 is in transmission connection with the two end belt rollers and is used for conveying pole pieces. The vacuum belts always maintain constant-pitch output. And as the preferable choice of the vacuum belt is a dust-free nylon steel wire belt, the quality of the pole piece can be effectively prevented from being influenced by dust generated by the vacuum belt. And the vacuum cavity of each vacuum belt is connected with a high-power dust remover, so that the sufficient vacuum suction force in the vacuum belt is ensured.

In addition, as a preferred embodiment, an encapsulation process is provided on each end belt roller to facilitate increasing friction between the belt roller and the drive belt 304 and preventing belt slippage. And the two ends of the belt roller are respectively provided with an adjusting mechanism 9 for preventing the vacuum belt from deviating, wherein the adjusting mechanism 9 can refer to the prior art and is not described in detail herein.

It should be noted that the dimension of the lower surface of the second vacuum belt 202 in the second conveying mechanism 2 higher than the upper surface of the first vacuum belt 102 in the first conveying mechanism 1 is the thickness dimension of one pole piece. When the pole piece is absorbed on the lower surface by the first conveying mechanism 1, and conveyed to the rear end from the front end through the first vacuum belt 102 in the first conveying mechanism 1 and is positioned below the front end of the second conveying mechanism 2, the second vacuum belt 202 in the second conveying mechanism 2 can absorb the upper surface of the pole piece, and drives the pole piece to be separated from the first conveying mechanism 1.

In order to facilitate replacement of each vacuum belt, the legs of the first support frame 101 and the second support frame 201 in this embodiment are preferably arranged in the middle, so as to increase the suspension degree of the support frame to the greatest extent possible, and replace each vacuum belt when worn. It will be appreciated that a small number of legs may be provided at the edge of the support frame to ensure stability of the support frame support.

In the process of conveying the pole piece by the second conveying mechanism 2, the removing mechanism 3 is arranged at the middle position of the second supporting frame 201, the supporting plates 4 in the removing mechanism 3 are arranged at the left side and the right side of the second supporting frame 201 across each vacuum belt at the middle, the driving part 301 and the driving part are arranged at the middle of the supporting plates 4, and meanwhile, the material beating part penetrates through one side of the supporting plates 4 from top to bottom, so that the pole piece can be beaten.

As a preferred embodiment, the driving part comprises a first wheel 302 drivingly connected to the power output end of the driving part 301, and a second wheel 303 provided on the first wheel 302. Referring to fig. 4 to 6, the driving part 301 is provided on the support plate 4, and a first rotating wheel 302 is provided on a power output end of the driving part 301, the driving part 301 can drive the first rotating wheel 302 to rotate along its own central axis, a second rotating wheel 303 is provided on a side of the first rotating wheel 302 away from the driving part 301, the second rotating wheel 303 can rotate relative to the center of the first rotating wheel 302 along with the rotation of the first rotating wheel 302, and the feeding part is driven to slide up and down by a rotation track of the second rotating wheel 303.

As a preferred embodiment, the rejecting mechanism 3 further comprises a transmission part drivingly connected between the driving part 301 and the first wheel 302. Referring specifically to fig. 6, the transmission part includes two pulleys 305, and a transmission belt drivingly connected to the two pulleys 305, wherein one pulley 305 is connected to the power output end of the driving part 301, and the other pulley 305 and the first pulley 302 are disposed on the same shaft, so that the other pulley 305 drives the first pulley 302 to rotate through a rotation shaft.

The driving portion 301 is preferably a driving motor, one pulley 305 is connected to a power output end of the driving motor, the other pulley 305 is disposed on one side of the pulley 305 and is rotatably connected to a flat plate on one side of the driving motor through a rotating shaft, the two pulleys 305 transmit power of the driving motor to the rotating shaft through a driving belt 304, the other end of the rotating shaft penetrates through the flat plate and is connected with the first rotating wheel 302 to drive the first rotating wheel 302 to rotate, and the second rotating wheel 303 connected to the first rotating wheel 302 rotates along with rotation of the first rotating wheel 302 and moves around the rotating shaft, so that the feeding portion is conveniently driven to slide.

As a preferred embodiment, the above-mentioned material beating part includes a connecting body 306 and a material beating split 307, the connecting body 306 is provided with a through groove extending along the horizontal direction, the second rotating wheel 303 is arranged in the through groove, and the plurality of material beating split 307 are connected to one side of the connecting body 306 side by side, and each material beating split 307 is respectively corresponding to a gap between two adjacent vacuum belts, so as to enter the gap when descending, and beat and fall the pole piece.

Referring to fig. 4, a guide groove is formed at the rear side of the support plate 4, a horizontal through groove is formed in the vertical plate in the connection body 306, and a second rotating wheel 303 is connected to the through groove, and the second rotating wheel 303 slides along the guide groove, so that the vertical plate slides up and down along the guide groove. The lower extreme at the longitudinal plate is connected with the diaphragm, and the bottom interval connection of diaphragm is each beat material components of a whole that can function independently 307, and when longitudinal plate and diaphragm drove each beat material components of a whole that can function independently 307 and slide down, each beat material components of a whole that can function independently 307 can enter into the clearance between each vacuum belt to beat the pole piece.

In addition, in this embodiment, the running stability of each vacuum belt is ensured, as shown in fig. 1 to 3, two belt tensioning mechanisms 5 are provided on the second supporting frame 201, and the main mechanisms of the two belt tensioning mechanisms 5 are all provided on the same side of the second supporting frame 201, so that the replacement of the vacuum belt is facilitated. Wherein, this belt tensioning mechanism 5 is preferable to set up as cylinder tensioning mechanism 5, conveniently sets up. Of course, other configurations may be provided without specific limitation herein. It will be appreciated that the cylinder tensioning mechanism 5 is also arranged on the first support frame 101, and the cylinder tensioning mechanism 5 on the first support frame 101 is arranged on the same side as the cylinder tensioning mechanism 5 of the second support frame 201, so that the structure of the whole device is positioned on the same side, and the replacement of the vacuum belt is facilitated.

In addition, in order to avoid the deviation of each vacuum belt in the process of conveying the pole piece, in this embodiment, as a preferred implementation manner, limiting pieces are respectively arranged at two ends of each end belt roller so as to limit the relative sliding of each end belt roller, thereby causing the excessive loosening or the excessive tightening of the vacuum belt and affecting the conveying effect on the pole piece.

In addition, the pole piece detection device further comprises a third conveying mechanism 10, the third conveying mechanism 10 and the first conveying mechanism 1 are respectively arranged on two sides of the second conveying mechanism 2, and the vacuum belts of the third conveying mechanism 10 are positioned on the same horizontal plane with the vacuum belts of the first conveying mechanism 1. The remaining good pole pieces on the second conveying belt are conveyed to the vacuum belt in the third conveying mechanism 10 for continuous conveying.

In a preferred embodiment, a good product collecting box 12 is provided at one end of the third conveying mechanism 10 away from the conveying mechanism, and a reject collecting box 11 is provided at the lower side of the rejecting mechanism 3. The defective pole pieces discharged through the rejecting mechanism 3 fall into the reject collecting box 11 to be collected, and the remaining good pole pieces are output by the third conveying mechanism 10 into the good collecting box 12 positioned at the rear end of the third conveying mechanism 10 to be collected.

The pole pieces on the third conveying mechanism 10 can be conveyed directly through the vacuum belt in the third conveying mechanism 10, and can be linked with an external lamination sucker structure to suck the pole pieces into the good product collecting box 12 for collection, so that the pole pieces are not particularly limited, and the pole pieces can be arranged according to actual conditions.

In this example, a dust removing mechanism 8 for removing dust by a vacuum belt is provided below the first conveying mechanism 1, above the second conveying mechanism 2, and above the third conveying mechanism 10, as a preferred embodiment. Wherein the dust removing mechanism 8 can adopt a brush and a negative pressure dust collecting structure to suck out dust on the vacuum belt. The vacuum suction mechanism is referred to in the prior art and will not be described in detail herein.

The first detecting mechanism 6 is disposed on the first supporting frame 101 in the first conveying mechanism 1, and the first detecting mechanism 6 is disposed above the vacuum belt and is used for detecting the image information of the front surface of the pole piece on the vacuum belt, while the second detecting mechanism 7 is disposed below the second supporting frame 201 in the second conveying mechanism 2 and is used for detecting the image information of the back surface of the pole piece on the vacuum belt. The detected image information of the surface of the pole piece can be surface defects such as pits and foreign matters on the surface of the pole piece or other image information, and information can be acquired according to actual conditions.

As a preferred embodiment, the pole piece detecting device in this embodiment further includes a static electricity removing mechanism 14, where the static electricity removing mechanism 14 is disposed above the first conveying mechanism 1, and the static electricity removing mechanism 14 is located upstream of the first detecting mechanism 6. Specifically, as shown in fig. 1, the static electricity removing mechanism 14 is provided on the first supporting frame 101, and the static electricity removing mechanism 14 is located at the front side of the first detecting mechanism 6. In addition, in this embodiment, a pole piece size detecting mechanism 13 is further disposed at the rear side of the first conveying mechanism 1, so as to detect the size of the pole piece.

When the pole piece detection device in the embodiment is used, after the positive pole piece and the negative pole piece are sliced, the positive pole piece and the negative pole piece are conveyed to the first vacuum belt 102 in the first conveying mechanism 1, the positive pole piece is subjected to static electricity removal and iron tapping treatment through the static electricity removal mechanism 14, then defect information on the front face of the pole piece is detected by the first detection mechanism 6, and whether the pole piece has defects such as pits and white spots or not is detected. Then, the size of the pole piece is detected whether to be within the specification requirement range by a pole piece size detection mechanism 13.

Then, the pole piece is conveyed to the second conveying mechanism 2, the second vacuum belt 202 in the second conveying mechanism 2 adsorbs the front surface of the pole piece, so that the back surface of the pole piece is exposed outside, and the second detecting mechanism 7 positioned below the second conveying mechanism 2 detects the back surface of the pole piece. The surface information of the pole pieces detected by the first detection mechanism 6 and the second detection mechanism 7 is conveyed into an external control program, and the external controller controls the rejecting mechanism 3 to beat and fall the pole pieces on the second vacuum belt 202 of the second conveying mechanism 2 into the waste collecting box 11 for collecting after identifying the information. And the rest pole pieces are transmitted from the second conveying mechanism 2 to the third conveying mechanism 10 along the second vacuum belt 202, the vacuum belt in the third conveying mechanism 10 adsorbs the reverse side of the pole pieces, the front side of the pole pieces is exposed outside, and the pole pieces are conveyed into the good product collecting box 12 for collection along with the conveying of the vacuum belt.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. A pole piece detection device, characterized in that the detection device comprises:

the device comprises a first conveying mechanism (1), a second conveying mechanism (2), a first detection mechanism (6) and a second detection mechanism (7), wherein the first conveying mechanism (1) and the second conveying mechanism (2) are sequentially arranged along a conveying path, the first detection mechanism (6) is used for detecting the front information of a pole piece supported by the first conveying mechanism (1), and the second detection mechanism (7) is used for detecting the back information of the pole piece hung on the second conveying mechanism (2);

the device is characterized in that a removing mechanism (3) is arranged above the second conveying mechanism (2), the removing mechanism (3) comprises a driving part (301), a driving part which is driven by the driving part (301) and can rotate around a center, a material beating part which is connected with the driving part, detection information of the first detection mechanism (6) and the second detection mechanism (7) is received, and the driving part is driven by the driving part (301) to rotate and is driven by the material beating part to slide up and down in a reciprocating manner so as to beat the bad pole pieces on the second conveying mechanism (2).

2. The pole piece detection device of claim 1, wherein:

the first conveying mechanism (1) and the second conveying mechanism (2) comprise two end belt rollers and a plurality of vacuum belts connected between the two end belt rollers in a transmission manner;

the vacuum belts are arranged at intervals along the direction orthogonal to the conveying direction of the pole piece.

3. The pole piece detection device of claim 2, wherein:

the dimension of the lower surface of the vacuum belt of the second conveying mechanism (2) higher than the upper surface of the vacuum belt of the first conveying mechanism (1) is the thickness dimension of one pole piece.

4. A pole piece detection device according to claim 3, characterized in that:

the driving part comprises a first rotating wheel (302) which is connected with the power output end of the driving part (301) in a transmission way, and a second rotating wheel (303) which is arranged on the first rotating wheel (302);

the material beating part comprises a connecting body (306) and a material beating split body (307), a through groove extending along the horizontal direction is formed in the connecting body (306), and the second rotating wheel (303) is arranged in the through groove; the plurality of the material beating split bodies (307) are connected to one side of the connecting body (306) side by side, and each material beating split body (307) is arranged corresponding to a gap between every two adjacent vacuum belts respectively so as to enter the gap when descending and beat and fall the pole pieces.

5. The pole piece detection device of claim 4, wherein:

the rejecting mechanism (3) further comprises a transmission part which is connected between the driving part (301) and the first rotating wheel (302) in a transmission way.

6. The pole piece detection device of claim 5, wherein:

the transmission part comprises two belt wheels (305) and a transmission belt in transmission connection with the two belt wheels (305), one belt wheel (305) is connected with the power output end of the driving part (301), and the other belt wheel (305) and the first rotating wheel (302) are arranged on the same rotating shaft so that the other belt wheel (305) drives the first rotating wheel (302) to rotate through the rotating shaft.

7. The pole piece detection device according to any one of claims 3 to 6, characterized in that:

the pole piece detection device further comprises a third conveying mechanism (10), the third conveying mechanism (10) and the first conveying mechanism (1) are respectively arranged on two sides of the second conveying mechanism (2), and a vacuum belt of the third conveying mechanism (10) and a vacuum belt of the first conveying mechanism (1) are located on the same horizontal plane.

8. The pole piece detection device of claim 7, wherein:

the lower part of the first conveying mechanism (1), the upper part of the second conveying mechanism (2) and the upper part of the third conveying mechanism (10) are respectively provided with a dust removing mechanism (8) for removing dust on the vacuum belt.

9. The pole piece detection device of claim 7, wherein:

and a good product collecting box (12) is arranged at one end, far away from the second conveying mechanism (2), of the third conveying mechanism (10), and a waste product collecting box (11) is arranged at the lower side of the rejecting mechanism (3).

10. The pole piece detection device of claim 1, wherein:

the pole piece detection device further comprises a static eliminating mechanism (14), wherein the static eliminating mechanism (14) is arranged above the first conveying mechanism (1), and the static eliminating mechanism (14) is located at the upstream of the first detection mechanism (6).

Images