CN214953119U - Online pole piece burr selective inspection equipment - Google Patents
Online pole piece burr selective inspection equipment Download PDFInfo
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- CN214953119U CN214953119U CN202120500515.3U CN202120500515U CN214953119U CN 214953119 U CN214953119 U CN 214953119U CN 202120500515 U CN202120500515 U CN 202120500515U CN 214953119 U CN214953119 U CN 214953119U
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- 238000007689 inspection Methods 0.000 title claims description 24
- 238000001514 detection method Methods 0.000 claims abstract description 120
- 230000000007 visual effect Effects 0.000 claims abstract description 37
- 230000005611 electricity Effects 0.000 claims abstract description 3
- 230000007246 mechanism Effects 0.000 claims description 113
- 239000000428 dust Substances 0.000 claims description 41
- 238000003860 storage Methods 0.000 claims description 15
- 239000000463 material Substances 0.000 claims description 6
- 238000004140 cleaning Methods 0.000 claims description 5
- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 abstract description 8
- HBBGRARXTFLTSG-UHFFFAOYSA-N Lithium ion Chemical compound [Li+] HBBGRARXTFLTSG-UHFFFAOYSA-N 0.000 abstract description 8
- 229910052744 lithium Inorganic materials 0.000 abstract description 8
- 229910001416 lithium ion Inorganic materials 0.000 abstract description 8
- 238000000034 method Methods 0.000 abstract description 8
- 238000004519 manufacturing process Methods 0.000 abstract description 3
- 238000005070 sampling Methods 0.000 description 22
- 230000002349 favourable effect Effects 0.000 description 3
- 238000004806 packaging method and process Methods 0.000 description 3
- 230000002093 peripheral effect Effects 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 238000005520 cutting process Methods 0.000 description 2
- 230000007547 defect Effects 0.000 description 2
- 238000005086 pumping Methods 0.000 description 2
- 239000003638 chemical reducing agent Substances 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
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Abstract
The utility model belongs to the technical field of the lithium cell production technique and specifically relates to indicate an online pole piece burr selective examination equipment, including pole piece selective examination loading attachment, pole piece conveyor, visual positioning device, pole piece transfer device, detect adjustment workstation and burr detection device, pole piece selective examination loading attachment is used for supplying the pole piece to pole piece conveyor, visual positioning device is used for carrying out the visual positioning to the pole piece that pole piece conveyor carried, visual positioning device is connected with detection adjustment workstation electricity, pole piece transfer device is used for shifting the pole piece after the visual positioning to detecting adjustment workstation, burr detection device is used for carrying out the burr detection to the pole piece that detects adjustment workstation and bear. The utility model discloses can carry out the selective examination to the pole piece that lithium-ion battery pole piece former exported on-line, can not disturb lithium-ion battery pole piece former normal work during the selective examination, degree of automation is high, and burr detection efficiency is high, of high quality, and has reduced operating personnel's intensity of labour and cost of labor.
Description
Technical Field
The utility model belongs to the technical field of lithium cell production technique and specifically relates to indicate an online pole piece burr selective examination equipment.
Background
In the production process of the lithium battery, the pole pieces may generate burr defects in the die cutting forming and cutting processes, if burrs puncture the diaphragms for separating the positive and negative pole pieces, serious consequences can be caused, battery leakage can be caused when the burrs are light, and battery explosion can be caused when the burrs are heavy. The detection of pole piece burr at present generally adopts artifical selective examination, and detection efficiency is lower, and in addition, the selective examination probably leads to some burr defects to miss to examine and cause serious consequence, and detection quality is poor. Therefore, the drawbacks are obvious, and a solution is needed.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, an object of the utility model is to provide an online pole piece burr selective examination equipment.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides an online pole piece burr selective examination equipment, its includes pole piece selective examination loading attachment, pole piece conveyor, visual positioning device, pole piece transfer device, detection adjustment workstation and burr detection device, pole piece selective examination loading attachment is used for supplying the pole piece to pole piece conveyor, visual positioning device is used for carrying out the visual positioning to the pole piece that pole piece conveyor carried, visual positioning device is connected with detection adjustment workstation electricity, pole piece transfer device is used for shifting the pole piece after the visual positioning to detection adjustment workstation, burr detection device is used for carrying out the burr detection to the pole piece that detection adjustment workstation bore.
Further, pole piece selective examination loading attachment includes the frame, installs in the positive plate selective examination feed mechanism of frame and installs in the negative pole piece selective examination feed mechanism of frame, positive plate selective examination feed mechanism and negative pole piece selective examination feed mechanism all are located pole piece conveyor's top.
Further, the pole piece conveying device comprises a conveying mechanism and a conveying carrier connected with the output end of the conveying mechanism, and one or more material sucking holes are formed in the bearing surface of the conveying carrier.
Furthermore, the detection and adjustment worktable comprises a longitudinal movement driving mechanism, a rotation driving mechanism connected to the output end of the longitudinal movement driving mechanism and a detection carrier connected to the output end of the rotation driving mechanism, wherein the bearing surface of the detection carrier is provided with one or more vacuum suction holes.
Furthermore, online electrode piece burr selective examination equipment still includes the storage case, the storage case is located the one side that detects the adjustment workstation.
Further, the storage box is provided with a positive plate cavity and a negative plate cavity.
Furthermore, the burr detection device comprises a transverse moving driving mechanism arranged at an included angle with the longitudinal moving driving mechanism, a detection moving seat connected with the output end of the transverse moving driving mechanism, and a first shooting detector and a second shooting detector which are arranged on the detection moving seat, wherein the included angle between the first shooting detector and the second shooting detector is arranged, and the shooting end of the first shooting detector and the shooting end of the second shooting detector are arranged close to each other.
Further, the detection moving seat is provided with a dust removal mechanism, the dust removal mechanism comprises a dust removal cavity connected to the detection moving seat, a brush rotatably arranged in the dust removal cavity and a cleaning motor arranged in the dust removal cavity and used for driving the brush to rotate, the dust removal cavity is provided with a vacuum interface and a through groove, the brush can protrude into the through groove, and the through groove is used for the pole piece to pass through.
Furthermore, the number of the dust removing mechanisms is two, and the two dust removing mechanisms are respectively positioned on two sides of the second shooting detector.
Further, the rotation actuating mechanism includes the base of being connected with the output that indulges the actuating mechanism that moves, rotates and sets up in the cavity pivot of base and install in the base and be used for driving cavity pivot pivoted rotation driver, detect the carrier and install the cavity pivot, the bottom of detecting the carrier is provided with the vacuum adapter, the vacuum adapter is located the cavity pivot, the hole intercommunication is inhaled with the vacuum to the one end and the vacuum of vacuum adapter, the other end of vacuum adapter communicates with evacuating device via the pipeline.
The utility model has the advantages that: in practical application, a lithium battery pole piece forming device continuously processes and forms a pole piece, and conveys the formed pole piece to the next processing station, when the pole piece needs to be subjected to selective inspection, a pole piece selective inspection feeding device picks up the formed pole piece output by the lithium battery pole piece forming device and places the pole piece on a pole piece conveying device, the pole piece conveying device conveys the pole piece to a preset position, meanwhile, a visual positioning device performs visual positioning on the pole piece, and feeds a result after the visual positioning back to a detection adjusting workbench, so that the detection adjusting workbench automatically adjusts a proper angle and position, then a pole piece transfer device picks up the pole piece conveyed by the pole piece conveying device and subjected to the visual positioning onto the adjusted detection adjusting workbench, the edge of the pole piece protrudes out of the detection adjusting workbench, and a burr detection device performs burr detection on the peripheral edge of the pole piece, in the process of carrying out burr detection on the peripheral edge of the pole piece, the detection and adjustment workbench can automatically adjust the angle and the position, so that the burr detection device can carry out burr detection on the peripheral edge of the pole piece in sequence, finally, the pole piece transfer device conveys the pole piece subjected to burr detection to a preset position or returns the pole piece to the pole piece conveying device through the pole piece conveying device, and the pole piece conveyed by the pole piece conveying device and subjected to burr detection is picked up to the next processing station through the pole piece sampling and feeding device. The utility model discloses can carry out the selective examination to the pole piece that lithium-ion battery pole piece former exported on-line, need not shut down lithium-ion battery pole piece former during the selective examination, also can not disturb lithium-ion battery pole piece former normal work, degree of automation is high, and burr detection efficiency is high, of high quality, and has reduced operating personnel's intensity of labour and cost of labor.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of another perspective of the present invention.
Fig. 3 is a schematic view of the three-dimensional structure of the detection adjustment table of the present invention.
Fig. 4 is the utility model discloses a spatial structure sketch behind dust removal mechanism and the burr detection device hidden sideslip actuating mechanism.
Description of reference numerals:
10. a pole piece sampling inspection feeding device; 101. a frame; 102. the positive plate sampling inspection feeding mechanism; 103. a negative plate sampling inspection feeding mechanism; 104. a via hole; 20. a pole piece conveying device; 201. a conveying mechanism; 202. a transport vehicle; 203. a suction hole; 30. a visual positioning device; 40. a pole piece transfer device; 50. detecting and adjusting the workbench; 501. a longitudinal movement driving mechanism; 502. a rotation driving mechanism; 503. detecting a carrier; 504. vacuum suction holes; 505. a base; 506. a hollow rotating shaft; 507. a rotation driver; 508. a vacuum adapter; 60. a burr detection device; 601. a traverse driving mechanism; 602. detecting the movable seat; 603. a first photographing detector; 604. a second photographing detector; 70. a material storage box; 80. a dust removal mechanism; 801. a dust removal cavity; 802. a brush; 803. cleaning a motor; 804. a vacuum interface; 805. passing through a groove; 806. a lifting driver.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.
As shown in fig. 1 to 4, the utility model provides an online spot inspection device for pole piece burrs, which comprises a pole piece sampling and feeding device 10, a pole piece conveying device 20, a visual positioning device 30, a pole piece transferring device 40, a detection and adjustment workbench 50 and a burr detection device 60, the pole piece sampling and feeding device 10 is used for supplying pole pieces to the pole piece conveying device 20, the visual positioning device 30 is used for visually positioning the pole pieces conveyed by the pole piece conveying device 20, the visual positioning device 30 is electrically connected with the detection and adjustment workbench 50, the pole piece transferring device 40 is used for transferring the visually positioned pole piece to the detection and adjustment workbench 50, the burr detecting device 60 is used for detecting burrs of the pole pieces carried by the detection and adjustment worktable 50, the pole piece sampling and feeding device 10 is located at the feeding end of the pole piece conveying device 20, and the pole piece transferring device 40 and the visual positioning device 30 are both located at the discharging end of the pole piece conveying device 20.
In practical application, the lithium battery pole piece forming equipment continuously processes and forms the pole piece, and conveys the formed pole piece to the next processing station, when the pole piece needs to be checked, the pole piece sampling feeding device 10 picks up the formed pole piece output by the lithium battery pole piece forming equipment and places the pole piece on the pole piece conveying device 20, the pole piece conveying device 20 conveys the pole piece to a preset position, meanwhile, the visual positioning device 30 visually positions the pole piece, and feeds back the result after the visual positioning to the detection adjusting workbench 50, so that the detection adjusting workbench 50 automatically adjusts a proper angle and position, then the pole piece transferring device 40 picks up the pole piece after the visual positioning conveyed by the pole piece conveying device 20 to the adjusted detection adjusting workbench 50, the edge of the pole piece protrudes out of the detection adjusting workbench 50, burr detection device 60 carries out burr detection to the edge all around of pole piece, in the in-process of carrying out burr detection to the edge all around of pole piece, detection adjustment workstation 50 can carry out the adjustment of angle and position automatically for burr detection device 60 can carry out burr detection to the edge all around of pole piece in proper order, and pole piece transfer device 40 carries the pole piece after the burr detection to predetermined position or via pole piece conveyor 20 loopback to pole piece conveyor 20, and pick up the pole piece after the burr detection that pole piece conveyor 20 carried to next processing station via pole piece selective examination loading attachment 10. The utility model discloses can carry out the selective examination to the pole piece that lithium-ion battery pole piece former exported on-line, need not shut down lithium-ion battery pole piece former during the selective examination, also can not disturb lithium-ion battery pole piece former normal work, degree of automation is high, and burr detection efficiency is high, of high quality, and has reduced operating personnel's intensity of labour and cost of labor.
In this embodiment, the pole piece sampling and feeding device 10 includes a frame 101, a positive pole piece sampling and feeding mechanism 102 installed in the frame 101, and a negative pole piece sampling and feeding mechanism 103 installed in the frame 101, where the positive pole piece sampling and feeding mechanism 102 and the negative pole piece sampling and feeding mechanism 103 are both located above the pole piece conveying device 20, and the positive pole piece sampling and feeding mechanism 102 and the negative pole piece sampling and feeding mechanism 103 are respectively arranged corresponding to the positive pole piece processing flow line and the negative pole piece processing flow line of the lithium battery pole piece forming device.
In practical application, according to the actual required sampling inspection condition, when the positive plate needs to be sampled and inspected, the positive plate sampling inspection feeding mechanism 102 picks up the positive plate onto the positive plate conveying device 20, and the positive plate conveying device 20 conveys the positive plate to a preset position, so that the positive plate completes edge burr detection; when the negative pole piece needs to be subjected to spot inspection, the negative pole piece spot inspection feeding mechanism 103 picks up the negative pole piece to the pole piece conveying device 20, and the pole piece conveying device 20 conveys the negative pole piece to a preset position, so that the negative pole piece completes the burr detection of the edge. This structural design can carry out the selective examination to positive pole piece and negative pole piece respectively on line, and a equipment corresponds two pole piece flow direction of packaging line and carries out the selective examination work, compact structure, uses and with low costs, and the efficient of selective examination.
In this embodiment, the pole piece conveying device 20 includes a conveying mechanism 201 and a conveying carrier 202 connected to an output end of the conveying mechanism 201, a carrying surface of the conveying carrier 202 is provided with one or more material suction holes 203, and the material suction holes 203 are communicated with a vacuum pumping device. In practical application, when the positive plate needs to be inspected, the conveying carrier 202 is located below the positive plate inspection feeding mechanism 102, the positive plate inspection feeding mechanism 102 picks up the positive plate output by the positive plate processing line onto the conveying carrier 202, the suction hole 203 on the conveying carrier 202 sucks the positive plate tightly on the bearing surface of the conveying carrier 202, and then the conveying carrier 202 together with the positive plate is conveyed to a preset position by the conveying mechanism 201. When the negative plate needs to be checked, the operation steps are the same as those of the positive plate, and are not described in detail herein. The pole piece is tightly sucked on the conveying carrier 202 through the material sucking hole 203, so that the position precision and the stability of the pole piece on the conveying carrier 202 are ensured, and the subsequent burr detection on the pole piece is facilitated.
Specifically, a via hole 104 is formed in the middle of the rack 101, the conveying mechanism 201 penetrates through the via hole 104, the positive plate sampling and detecting feeding mechanism 102 and the negative plate sampling and detecting feeding mechanism 103 are respectively located on two sides of the via hole 104, and the positive plate sampling and detecting feeding mechanism 102 and the negative plate sampling and detecting feeding mechanism 103 are both located above the conveying carrier 202. This structural design not only is favorable to positive plate selective examination feed mechanism 102 and negative pole piece selective examination feed mechanism 103 to share a conveying mechanism 201, and is energy-concerving and environment-protective, has reduced the cost of making and using, still is favorable to positive plate selective examination feed mechanism 102 and negative pole piece selective examination feed mechanism 103 to correspond with positive plate flow direction of packaging line and negative pole piece flow direction of packaging line respectively. In addition, the via hole 104 provides an avoiding space for the conveying mechanism 201, so that the conveying mechanism 201 and the rack 101 are compact in structure, and the conveying mechanism 201 is convenient to output the pole pieces.
In this embodiment, the detection and adjustment worktable 50 includes a longitudinal movement driving mechanism 501, a rotation driving mechanism 502 connected to an output end of the longitudinal movement driving mechanism 501, and a detection carrier 503 connected to an output end of the rotation driving mechanism 502, a bearing surface of the detection carrier 503 is provided with one or more vacuum suction holes 504, the plurality of vacuum suction holes 504 are arranged in the detection carrier 503 in a rectangular array, and the vacuum suction holes 504 are communicated with a vacuum pumping device. After the visual positioning device 30 performs visual positioning on the pole pieces carried by the transport carrier 202, the visual positioning device 30 feeds back a signal to the detection adjustment workbench 50, so that the longitudinal movement driving mechanism 501 and the rotation driving mechanism 502 work cooperatively to adjust the angle and the position of the detection carrier 503, then the pole piece transfer device 40 picks up the pole pieces carried by the transport carrier 202 onto the adjusted detection carrier 503, the vacuum suction hole 504 sucks the pole pieces tightly on the bearing surface of the detection carrier 503, thereby ensuring the position accuracy and the stability of the pole pieces on the detection carrier 503, being beneficial to the accuracy of burr detection on the edges of the pole pieces, and finally the longitudinal movement driving mechanism 501 and the rotation driving mechanism 502 work cooperatively to enable the burr detection device 60 to perform burr detection on each edge of the pole pieces respectively. This structural design can once only carry out burr to all edges of pole piece and detect, and burr detection's efficient, of high quality.
In this embodiment, the online spot inspection device for pole piece burrs further includes a storage box 70, and the storage box 70 is located on one side of the detection and adjustment workbench 50. After the burr detection device 60 finishes detecting burrs of the pole pieces carried by the detection carrier 503, the pole piece transfer device 40 picks up the pole pieces on the detection carrier 503 to the storage box 70, and stores the pole pieces after sampling detection through the storage box 70, thereby being beneficial to storing and recycling the pole pieces.
Specifically, the longitudinal movement driving mechanism 501 and the conveying mechanism 201 are linear driving modules, the conveying directions of the longitudinal movement driving mechanism 501 and the conveying mechanism 201 are parallel, the longitudinal movement driving mechanism 501 is located on one side of the output end of the conveying mechanism 201, and the pole piece transfer device 40 is erected above the conveying mechanism 201, the longitudinal movement driving mechanism 501 and the storage box 70; the detection and adjustment workbench 50 is located between the storage box 70 and the conveying mechanism 201, and the visual positioning device 30 is erected above the output end of the conveying mechanism 201. This structural design not only makes the compact structure of this equipment, has still improved the efficiency that carries out burr detection to the utmost point piece.
Specifically, the visual positioning device 30 includes two sets of visual positioning mechanisms, the pole piece transferring device 40 is located between the two sets of visual positioning mechanisms, both the two sets of visual positioning mechanisms include cameras, and the two sets of visual positioning mechanisms are respectively used for visually positioning two ends of a pole piece carried by the transport carrier 202. The pole pieces borne by the conveying carrier 202 are respectively visually positioned by the two groups of visual positioning mechanisms, so that the positioning accuracy is good, and the pole piece picking accuracy of the pole piece transfer device 40 is improved.
In this embodiment, the storage box 70 is provided with a positive plate cavity and a negative plate cavity. The pole piece transfer device 40 picks up the detected positive pole piece to the positive pole piece cavity, and the positive pole piece cavity stores the positive pole piece; the pole piece transfer device 40 picks up the detected negative pole pieces to the negative pole piece cavity, and the negative pole piece cavity stores the negative pole pieces; carry out classified storage to positive plate and negative pole piece respectively through positive plate cavity and negative pole piece cavity, be convenient for store positive plate and negative pole piece, be favorable to carrying out recycle to positive plate and negative pole piece.
In this embodiment, the burr detecting device 60 includes a traverse driving mechanism 601 disposed at an angle with respect to the longitudinal driving mechanism 501, a detecting moving base 602 connected to an output end of the traverse driving mechanism 601, and a first shooting detector 603 and a second shooting detector 604 both mounted on the detecting moving base 602, wherein the first shooting detector 603 and the second shooting detector 604 are disposed at an angle, a shooting end of the first shooting detector 603 and a shooting end of the second shooting detector 604 are disposed close to each other, and the longitudinal driving mechanism 501 and the traverse driving mechanism 601 are disposed perpendicularly. Specifically, the first shooting detector 603 and the second shooting detector 604 are both cameras, the first shooting detector 603 is vertically arranged downward, the shooting end of the first shooting detector 603 is downward, the second shooting detector 604 is horizontally arranged, and the shooting range of the first shooting detector 603 intersects with the shooting range of the second shooting detector 604.
After the pole piece is placed on the detection carrier 503, the edge of the pole piece is at a position to be detected, and the traverse driving mechanism 601 drives the detection moving seat 602 to synchronously and transversely move together with the first shooting detector 603 and the second shooting detector 604, so that the first shooting detector 603 and the second shooting detector 604 are matched to perform burr detection on the edge of the pole piece; in order to improve the accuracy of burr detection, the traverse driving mechanism 601 can drive the detection moving seat 602 to move back and forth together with the first shooting detector 603 and the second shooting detector 604 so as to realize the reciprocating burr detection of the edge of the pole piece, and the quality and the accuracy of burr detection are improved. After burr detection is accomplished to every edge of pole piece when burr detection device 60, detect that adjustment workstation 50 can automatic adjustment once to wait to detect the edge adjustment to waiting to detect the position of waiting with the pole piece, so that burr detection device 60 carries out burr detection to all edges of pole piece.
In this embodiment, the detection moving seat 602 is provided with a dust removing mechanism 80, the dust removing mechanism 80 includes a dust removing cavity 801 connected to the detection moving seat 602, a brush 802 rotatably disposed in the dust removing cavity 801, and a cleaning motor 803 mounted in the dust removing cavity 801 and used for driving the brush 802 to rotate, the dust removing cavity 801 is provided with a vacuum interface 804 and a through groove 805, the brush 802 can protrude into the through groove 805, the through groove 805 is used for a pole piece to pass through, and the dust removing cavity 801 is communicated with a dust removing device through the vacuum interface 804.
In the process of detecting the edge of the pole piece by the burr detection device 60, the edge of the pole piece can pass through the groove 805, meanwhile, the cleaning motor 803 drives the brush 802 to rotate in the dust removal cavity 801, the rotating brush 802 cleans the edge of the pole piece passing through the groove 805, and the dust removal cavity 801 removes dust or foreign matters, so that the burr detection precision and accuracy are improved.
In this embodiment, the number of the dust removing mechanisms 80 is two, the two dust removing mechanisms 80 are respectively located at two sides of the second photographing detector 604, and the two dust removing mechanisms 80 are symmetrically arranged. Two dust removal mechanisms 80 clean and remove dust to the edge of pole piece simultaneously, have further improved the precision and the accuracy that burr detected.
Specifically, the dust removing mechanism 80 further includes a lifting driver 806 installed on the detection moving seat 602, the dust removing cavity 801 is slidably connected to the detection moving seat 602, and an output end of the lifting driver 806 is connected to the dust removing cavity 801; the lift drive 806 is a pneumatic cylinder. Through lift driver 806 drive dust removal cavity 801 lift removal to in adjusting the high position of dust removal cavity 801, thereby be convenient for carry out burr detection to the pole piece of different thickness, improved dust removal cavity 801's flexibility, the practicality is strong.
In this embodiment, the rotation driving mechanism 502 includes a base 505 connected to the output end of the longitudinal movement driving mechanism 501, a hollow shaft 506 rotatably disposed on the base 505, and a rotation driver 507 installed on the base 505 for driving the hollow shaft 506 to rotate, the rotary driver 507 comprises a motor and a speed reducer, the detection carrier 503 is provided with a hollow rotating shaft 506, the bottom of the detection carrier 503 is provided with a vacuum adapter 508, the vacuum adapter 508 is located in the hollow rotating shaft 506, and the vacuum adapter 508 is coaxially arranged with the hollow rotating shaft 506, one end of the vacuum adapter 508 is communicated with the vacuum suction hole 504, the other end of vacuum adapter 508 is through pipeline and evacuating device intercommunication, vacuum adapter 508 can detect the carrier 503 rotation relatively with the one end of pipe connection, the pipeline runs through the bottom and the base 505 of cavity pivot 506.
In practical application, when the longitudinal movement position of the detection carrier 503 needs to be adjusted, the longitudinal movement driving mechanism 501 drives the base 505 and the detection carrier 503 to move longitudinally; when the angle of the detection carrier 503 needs to be adjusted, the rotation driver 507 drives the hollow rotating shaft 506 to rotate, and the rotating hollow rotating shaft 506 drives the detection carrier 503 to rotate, so that the detection carrier 503 rotates by a preset angle, and the angle and the position of the detection carrier 503 can be adjusted. In this process, because vacuum adapter 508 is located cavity pivot 506, vacuum adapter 508 and the coaxial setting of cavity pivot 506, vacuum adapter 508 can detect carrier 503 rotation relatively with the one end of pipe connection, the pipeline runs through the bottom and the base 505 of cavity pivot 506, so along with cavity pivot 506 and the synchronous rotation that detects carrier 503, the pipeline can not follow cavity pivot 506 and detect carrier 503 rotation, the stability of pipeline has been improved, avoided the pipeline to rotate and taken place to tie a knot, phenomenons such as fibre disorder, and vacuum adapter 508 is located cavity pivot 506, make vacuum adapter 508 and cavity pivot 506 compact structure, and the appearance is pleasing to the eye.
All the technical features in the embodiment can be freely combined according to actual needs.
The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.
Claims (10)
1. The utility model provides an online pole piece burr selective examination equipment which characterized in that: including pole piece selective examination loading attachment, pole piece conveyor, visual positioning device, pole piece transfer device, detection adjustment workstation and burr detection device, pole piece selective examination loading attachment is used for supplying the pole piece to pole piece conveyor, visual positioning device is used for carrying out the visual positioning to the pole piece that pole piece conveyor carried, visual positioning device is connected with detection adjustment workstation electricity, pole piece transfer device is used for shifting the pole piece after the visual positioning to detecting adjustment workstation, burr detection device is used for carrying out the burr to the pole piece that detection adjustment workstation bore.
2. The on-line pole piece burr spot inspection device of claim 1, wherein: the pole piece selective examination feeding device comprises a rack, a positive pole piece selective examination feeding mechanism and a negative pole piece selective examination feeding mechanism, wherein the positive pole piece selective examination feeding mechanism is arranged in the rack, and the negative pole piece selective examination feeding mechanism is arranged in the rack and is positioned above the pole piece conveying device.
3. The on-line pole piece burr spot inspection device of claim 1, wherein: the pole piece conveying device comprises a conveying mechanism and a conveying carrier connected with the output end of the conveying mechanism, and one or more material sucking holes are formed in the bearing surface of the conveying carrier.
4. The on-line pole piece burr spot inspection device of claim 1, wherein: the detection and adjustment workbench comprises a longitudinal movement driving mechanism, a rotation driving mechanism connected to the output end of the longitudinal movement driving mechanism and a detection carrier connected to the output end of the rotation driving mechanism, wherein one or more vacuum suction holes are formed in the bearing surface of the detection carrier.
5. The on-line pole piece burr spot inspection device of claim 1, wherein: the online spot-checking equipment for the burrs of the pole pieces further comprises a storage box, and the storage box is located on one side of the detection and adjustment workbench.
6. The on-line pole piece burr spot inspection device of claim 5, wherein: the storage box is provided with a positive plate cavity and a negative plate cavity.
7. The on-line pole piece burr spot inspection device of claim 1, wherein: the burr detection device comprises a transverse moving driving mechanism arranged at an included angle with a longitudinal moving driving mechanism, a detection moving seat connected with the output end of the transverse moving driving mechanism, and a first shooting detector and a second shooting detector which are arranged on the detection moving seat, wherein the included angle between the first shooting detector and the second shooting detector is arranged, and the shooting end of the first shooting detector and the shooting end of the second shooting detector are arranged close to each other.
8. The on-line pole piece burr spot inspection device of claim 7, wherein: the detection moving seat is provided with a dust removal mechanism, the dust removal mechanism comprises a dust removal cavity connected to the detection moving seat, a brush rotatably arranged in the dust removal cavity and a cleaning motor arranged in the dust removal cavity and used for driving the brush to rotate, the dust removal cavity is provided with a vacuum interface and a through groove, the brush can extend into the through groove, and the through groove is used for a pole piece to pass through.
9. The on-line pole piece burr spot inspection device of claim 8, wherein: the number of the dust removing mechanisms is two, and the two dust removing mechanisms are respectively positioned on two sides of the second shooting detector.
10. The on-line pole piece burr spot inspection device of claim 4, wherein: the rotation driving mechanism includes the base of being connected with the output that indulges the actuating mechanism that moves, rotates and sets up in the cavity pivot of base and install in the base and be used for driving cavity pivot pivoted rotation driver, detect the carrier and install the cavity pivot, the bottom of detecting the carrier is provided with the vacuum adapter, the vacuum adapter is located the cavity pivot, the one end and the vacuum suction hole intercommunication of vacuum adapter, the other end of vacuum adapter communicates with evacuating device via the pipeline.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120500515.3U CN214953119U (en) | 2021-03-09 | 2021-03-09 | Online pole piece burr selective inspection equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120500515.3U CN214953119U (en) | 2021-03-09 | 2021-03-09 | Online pole piece burr selective inspection equipment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN214953119U true CN214953119U (en) | 2021-11-30 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202120500515.3U Active CN214953119U (en) | 2021-03-09 | 2021-03-09 | Online pole piece burr selective inspection equipment |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN214953119U (en) |
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2021
- 2021-03-09 CN CN202120500515.3U patent/CN214953119U/en active Active
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