CN208826653U - A kind of battery core is synchronous to grab detection feeding manipulator - Google Patents
A kind of battery core is synchronous to grab detection feeding manipulator Download PDFInfo
- Publication number
- CN208826653U CN208826653U CN201821284286.0U CN201821284286U CN208826653U CN 208826653 U CN208826653 U CN 208826653U CN 201821284286 U CN201821284286 U CN 201821284286U CN 208826653 U CN208826653 U CN 208826653U
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- cylinder
- battery core
- connect
- guide rail
- synchronous
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model discloses a kind of synchronous crawl detection feeding manipulators of battery core, guide rail is installed on the bottom surface of fixing piece, first cylinder, second cylinder is arranged in the lower section relative spacing of guide rail and connect respectively with the bottom surface of fixing piece, the opposite sides of detection components is connect with the cylinder wall of the first cylinder and the second cylinder respectively, there are two clip claw mechanism is set, relative spacing setting is located at the first cylinder and the second cylinder between the two, first cylinder, second cylinder is connected with corresponding clip claw mechanism respectively, clip claw mechanism is coupled with guide rail, wedge mount upper surface and the bottom of detection components connect, the output section one of first cylinder, the output section two of second cylinder is supported with two inclined-planes of wedge mount close respectively.The utility model has the advantages that: the detection by probe to battery core indices largely shortens detection time, to improve production efficiency, in addition, avoiding the secondary influence for grabbing battery core position when to feeding, improves feeding precision.
Description
Technical field
The utility model relates to a kind of dynamic lithium battery process equipments, more particularly, in a kind of synchronous crawl detection of battery core
Expect manipulator.
Background technique
In the production process of dynamic lithium battery, the feeding of battery core is usually carried out by manipulator, currently, carrying out battery core
Before feeding, the detection that voltage, resistance and positive-negative polarity are first carried out to battery core is needed, original operating process is to first pass through manipulator
Battery core is grabbed, battery core is put into testing agency and is detected, secondary crawl feeding is carried out after detection again, not only causes to give birth to
Inefficiency is produced, frequent crawl also will affect the stability of battery core, influence feeding precision.
Utility model content
Purpose of utility model: in view of the above problems, the object of the present invention is to provide a kind of synchronous crawl detections of battery core
Feeding manipulator makes the detection of battery core is synchronous with feeding to carry out, improves production efficiency and feeding precision.
Technical solution: a kind of battery core is synchronous to grab detection feeding manipulator, including fixing piece, guide rail, the first cylinder, second
Cylinder, clip claw mechanism, detection components, wedge mount, the guide rail are installed on the bottom surface of the fixing piece, first cylinder,
Second cylinder is arranged and connect respectively with the bottom surface of the fixing piece, the detection in the lower section relative spacing of the guide rail
The opposite sides of component is connect with the cylinder wall of first cylinder and second cylinder respectively, and the clip claw mechanism is equipped with two
A, relative spacing setting is located at first cylinder and second cylinder between the two, first cylinder, described second
Cylinder is connected with the corresponding clip claw mechanism respectively, and the clip claw mechanism is coupled with the guide rail, on the wedge mount
Surface is connect with the bottom of the detection components, the output section one of first cylinder, second cylinder output section two divide
It does not support and closes with two inclined-planes of the wedge mount.
First cylinder, the second cylinder synchronous averaging drive two clip claw mechanisms to move toward one another along guide rail respectively, crawl electricity
Core, at the same time, the output section one of the first cylinder, second cylinder output section two in the first cylinder, the band of the second cylinder
Two inclined-planes of wedge mount are squeezed under dynamic, wedge mount inclined-plane moves down under force, to drive detection group
Part moves down together, and detection components are connected with battery core, detects to the indices of battery core, detect qualified battery core it is direct on
Material, detect underproof battery core and be put into defective products material frame, wait it is to be processed, thus realize battery core crawl feeding and detection it is same
Step carries out, and improves production efficiency and feeding precision.
Further, the clip claw mechanism includes clamping jaw, sliding block, transmission component, buffer stopper, the sliding block and the guide rail
It is coupled, the transmission component top is connect with the bottom surface of the sliding block, and the clamping jaw is installed under the transmission component
Portion, the buffer stopper are embedded on the gripping surface of the clamping jaw, first cylinder, second cylinder respectively with it is corresponding described
The transmission component of clip claw mechanism connects.
The corresponding transmission component movement of first cylinder, the second cylinder synchronous drive, sliding block and guide rail cooperation make transmission component
Linear motion is kept, two transmission components drive clamping jaw thereon respectively, two clamping jaws is made to move toward one another crawl battery core, buffer stopper
Buffer function is played, battery core is damaged to can be avoided in crawl.
Further, the transmission component includes L-type driver plate, Z-type driver plate, the opening down water of L-type driver plate
Flat setting, one lateral surface are connected with the slide block, the top surface or bottom surface of the Z-type driver plate and erecting for the L-type driver plate
Inside side connection, correspondingly, the bottom surface or top surface of the Z-type driver plate are connect with the clamping jaw, first cylinder it is defeated
Shaft one, second cylinder output shaft two be successively arranged in the corresponding Z-type driver plate, L-type driver plate and company respectively
It connects.
Further, first cylinder, second cylinder pass through a floating junction and the corresponding biography respectively
Dynamic component connection, the corresponding transmission component movement of the drive that floating junction keeps the first cylinder, the second cylinder more smooth.
Further, the clip claw mechanism further includes optoelectronic switch one, and the optoelectronic switch one is installed on the clamping jaw
On gripping surface.
Optoelectronic switch one is used as the existence for judging battery core, and when having battery core between two clamping jaws, optoelectronic switch one is issued
Signal gives external controller, and controller issues instruction starting the first cylinder, the second cylinder, this manipulator starts operation.
Further, the detection components include fixed link, guide holder, guiding axis, elastic component, probe, probe supporting plate,
Sliding bearing, the fixed link are arranged between first cylinder and second cylinder, opposite sides respectively with the two
Fixed, the both ends of the fixed link are fixed with a guide holder respectively, and the guiding axis is arranged in the guide holder vertically
And connect by the sliding bearing with the guide holder, the upper end of the guiding axis is equipped with flange, and the elastic component is sheathed on
On the guiding axis and between the flange and the sliding bearing, the upper surface of the probe rides board ends respectively with
Two guiding axis lower end connections, the probe separation are equipped with two groups and connect respectively with the bottom surface of the probe supporting plate,
The wedge mount is connect between probe described in two groups and with the bottom surface of the probe supporting plate.
When carrying out the detection of battery core, wedge mount is moved down, and drive probe supporting plate, which synchronizes to move down, makes probe and battery core
Conducting carries out testing performance index to battery core, at this point, guiding axis synchronizes slide downward, elastic component thereon is made to be in compression shape
State, when probe in detecting finishes, wedge mount is not under compression power effect, and the elastic force of elastic component makes it restPose, band action-oriented
Axis moves up, and guiding axis, which drives probe supporting plate to move up, to be synchronized wedge mount to move up.
Further, the detection components further include optoelectronic switch two, and the optoelectronic switch two is installed on the probe branch
On the bottom surface of fagging.
Electric switch two is used as the existence for judging battery core, and when having battery core between two clamping jaws, electric switch two issues signal
To external controller, controller issues instruction starting the first cylinder, the second cylinder, this manipulator starts operation.
Further, the output section one of first cylinder includes shaft one, roller bearing one, second cylinder
The output section two include shaft two, roller bearing two, the roller bearing one connect with the free end of the shaft one, institute
Roller bearing two is stated to connect with the free end of the shaft two, the roller bearing one, the roller bearing two respectively with it is described
Two opposite inclined-planes of wedge mount, which support, to be closed.
Roller bearing one, roller bearing two respectively squeeze the two sides inclined-plane of wedge mount, move down wedge mount.
Further, this manipulator further includes throttle valve, is at least installed respectively on first cylinder, second cylinder
There is the throttle valve.Throttle valve is used to adjust the intake velocity of the first cylinder of control, the second cylinder.
Further, the fixing piece includes mounting plate, guide rail fixed plate, guide rail fixed plate side plate face with
The side plate face of the mounting plate is fixed, the guide rail, first cylinder, second cylinder respectively with the guide rail
Another lateral plates of fixed plate are fixed.Mounting plate is used as this manipulator and the connection of mechanical arm is installed.
The utility model has the advantages that compared with prior art, the utility model has the advantages that: special testing agency is eliminated, in machine
Tool installs detection components on hand, and while grabbing battery core, detection by probe to battery core indices is largely contracted
Short detection time, to improve production efficiency, in addition, when avoiding secondary crawl to feeding battery core position influence, mention
High feeding precision.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the utility model;
Fig. 2 is the bottom view of the utility model;
Fig. 3 is the schematic perspective view of wedge mount;
Fig. 4 is the schematic perspective view of clamping jaw.
Specific embodiment
In the following with reference to the drawings and specific embodiments, the utility model is furtherd elucidate, it should be understood that these embodiments are only used for
Illustrate the utility model rather than limitation the scope of the utility model.
A kind of battery core is synchronous to grab detection feeding manipulator, as shown in figures 1-4, including fixing piece 1, guide rail 2, the first gas
Cylinder 3, the second cylinder 4, clip claw mechanism 5, detection components 6, wedge mount 7, floating junction 8, throttle valve 9, fixing piece 1 are put including level
The side plate face of the mounting plate 11 set, guide rail fixed plate 12,12 upside plate face of guide rail fixed plate and mounting plate 11 is solid
Fixed, the external mechanical arm of mounting plate 11, guide rail 2 and the downside plate face of guide rail fixed plate 12 are fixed, the first cylinder 3, the second gas
Cylinder 4 is arranged in the lower section relative spacing of guide rail 2, and the first cylinder 3, the second cylinder 4 pass through an air cylinder fixed plate and guide rail respectively
The downside plate face of fixed plate 12 is fixed, and detection components 6 are installed on 4 interval of the first cylinder 3 and the second cylinder, and detection components 6 are wrapped
Include fixed link 61, guide holder 62, guiding axis 63, elastic component 64, probe 65, probe supporting plate 66, sliding bearing 67, optoelectronic switch
2 68, fixed link 61 is horizontal positioned and the interval between the first cylinder 3 and the second cylinder 4 passes through, opposite sides difference
It being connect with the cylinder wall of the first cylinder 3 and the second cylinder 4, there are two guide holder 62 is set, the both ends with fixed link 61 are fixed respectively,
Guiding axis 63 is arranged in guide holder 62 vertically and is connect by sliding bearing 67 with guide holder 62, and the upper end of guiding axis 63 is equipped with convex
Edge, elastic component 64 are sheathed on guiding axis 63 and between flange and sliding bearing 67, and probe supporting plate 66 is at two close end
Upper surface connect respectively with two 63 lower ends of guiding axis, probe 65 is equipped at intervals with two groups, and probe 65, optoelectronic switch 2 68 are distinguished
It being connect with the bottom surface of probe supporting plate 66, wedge mount 7 is located between two groups of probes 65 and connect with the bottom surface of probe supporting plate 66,
Wedge mount 7 and probe supporting plate 66 are perpendicular.
There are two clip claw mechanism 5 is set along 2 direction relative spacing of guide rail, it is respectively arranged at the first cylinder 3, the second cylinder 4
Outside is located at the first cylinder 3, the second cylinder 4 between two clip claw mechanisms 5, and clip claw mechanism 5 includes clamping jaw 51, sliding block 52, passes
Dynamic component 53, buffer stopper 54, optoelectronic switch 1, transmission component 53 include L-type driver plate 531, Z-type driver plate 532, sliding block 52
It is coupled with guide rail 2, L-type driver plate 531 is opening down horizontally disposed, and upper surface is connect with the bottom surface of sliding block 52, and Z-type passes
Movable plate 532 is placed vertically, and the top surface or bottom surface of Z-type driver plate 532 are connect with the vertical medial surface of L-type driver plate 531, accordingly
, the bottom surface or top surface of Z-type driver plate 532 are connect with the lateral surface on 51 top of clamping jaw, the output shaft one, second of the first cylinder 3
The output shaft two of cylinder 4 is successively arranged in corresponding Z-type driver plate 532, L-type driver plate 531, the output of the first cylinder 3 respectively
Axis one, the second cylinder 4 output shaft two connected with corresponding transmission component 53 by a floating junction 8 respectively, buffer stopper 54
Equipped with two pieces, horizontal interval arranges and is respectively embedded into the gripping surface of clamping jaw 51 on the gripping surface of clamping jaw 51, optoelectronic switch one
55 are located between two buffer stoppers 54 and are embedded in the gripping surface of clamping jaw 51.
First cylinder 3, the second cylinder 4 are the thin cylinder of two kinds of different cylinder diameters, and the first cylinder 3 has output section one, the
Two cylinders 4 have output section two, and the output section one of the first cylinder 3 includes shaft 1, roller bearing 1, the second cylinder 4
Output section two includes shaft 2 41, roller bearing 2 42, and roller bearing 1 is connect with the free end of shaft 1, roller bearing
2 42 connect with the free end of shaft 2 41, and opposite with wedge mount 7 two tiltedly respectively for roller bearing 1, roller bearing 2 42
Face, which is supported, closes, and is at least equipped with a throttle valve 9 respectively on the first cylinder 3, the second cylinder 4.
This manipulator can be realized the progress synchronous with performance detection of electric power lithium battery electric core feeding, when battery core is located at two
When between clamping jaw, optoelectronic switch one, optoelectronic switch two can detecte the existence of battery core, and signal be passed to external
Controller issues command synchronization by controller and starts the first cylinder, the second cylinder, and optoelectronic switch one, optoelectronic switch two are set
Seated position is different, is detected to be more advantageous to battery core.
When this machinery manual task, the first cylinder, the second cylinder synchronous averaging drive corresponding transmission component to move respectively,
Sliding block and guide rail cooperation make transmission component keep moving along a straight line, and two transmission components drive clamping jaw thereon respectively, make two folders
Pawl moves toward one another crawl battery core, and buffer stopper plays buffer function, damages to can be avoided in crawl to battery core;With this
Meanwhile roller bearing one, roller bearing two the first cylinder, the second cylinder drive under respectively to the two sides inclined-plane of wedge mount into
Row squeezes, and wedge mount inclined-plane under force moves down entire wedge mount, moves down so that probe supporting plate be driven to synchronize
Probe is connected with battery core, testing performance index is carried out to battery core, at this point, guiding axis synchronizes slide downward, makes elasticity thereon
Part is in compressive state;After detection, qualified battery core is detected by the direct feeding of this manipulator, detects underproof electricity
Core is put into defective products material frame, and after grasping at detection, the first cylinder, the second cylinder reverse starting drive two clamping jaw phases
Counter-movement, meanwhile, roller bearing one, roller bearing two synchronize that detach make wedge mount two inclined-plane stress smaller and smaller until wedge
Shape seat is not under compression power effect, and at the same time, the elastic force of elastic component makes it restPose, and guiding axis is driven to move up, and is oriented to
Axis, which drives probe supporting plate to move up, to be synchronized wedge mount to move up, this manipulator replys original state, and the battery core prepared next time is grabbed
Detection feeding is taken, this manipulator realizes the crawl feeding progress synchronous with detection of battery core, improves production efficiency and feeding
Precision.
Throttle valve is used to adjust the intake velocity of the first cylinder of control, the second cylinder, so as to effectively control two folders
The grasp speed of pawl keeps grasp speed adjustable, and the first cylinder, the gauge size of the second cylinder are different, is more advantageous to grabbing for clamping jaw
Take positioning.
Claims (10)
1. a kind of synchronous crawl detection feeding manipulator of battery core, it is characterised in that: including fixing piece (1), guide rail (2), the first gas
Cylinder (3), the second cylinder (4), clip claw mechanism (5), detection components (6), wedge mount (7), the guide rail (2) are installed on the fixation
On the bottom surface of part (1), first cylinder (3), second cylinder (4) are arranged in the lower section relative spacing of the guide rail (2)
And connect respectively with the bottom surface of the fixing piece (1), the opposite sides of the detection components (6) respectively with first cylinder
(3) it is connected with the cylinder wall of second cylinder (4), there are two the clip claw mechanism (5) sets, relative spacing setting makes described the
One cylinder (3) and second cylinder (4) are located between the two, first cylinder (3), second cylinder (4) respectively with
The corresponding clip claw mechanism (5) connection, the clip claw mechanism (5) are coupled with the guide rail (2), the wedge mount (7)
Upper surface is connect with the bottom of the detection components (6), the output section one of first cylinder (3), second cylinder (4)
Output section two is supported with two inclined-planes of the wedge mount (7) close respectively.
2. a kind of battery core according to claim 1 is synchronous to grab detection feeding manipulator, it is characterised in that: the clamping jaw machine
Structure (5) includes clamping jaw (51), sliding block (52), transmission component (53), buffer stopper (54), the sliding block (52) and the guide rail (2)
It is coupled, transmission component (53) top is connect with the bottom surface of the sliding block (52), and the clamping jaw (51) is installed on described
The lower part of transmission component (53), the buffer stopper (54) are embedded on the gripping surface of the clamping jaw (51), first cylinder (3),
Second cylinder (4) connects with the transmission component (53) of the corresponding clip claw mechanism (5) respectively.
3. a kind of battery core according to claim 2 is synchronous to grab detection feeding manipulator, it is characterised in that: the transmission group
Part (53) includes L-type driver plate (531), Z-type driver plate (532), and the L-type driver plate (531) is opening down horizontally disposed,
One lateral surface is connect with the sliding block (52), the top surface or bottom surface of the Z-type driver plate (532) and the L-type driver plate (531)
The connection of vertical medial surface, it is described correspondingly, the bottom surface or top surface of the Z-type driver plate (532) are connect with the clamping jaw (51)
The output shaft one of first cylinder (3), second cylinder (4) output shaft two be successively arranged in the corresponding Z-type respectively and pass
Movable plate (532), L-type driver plate (531) simultaneously connect.
4. a kind of synchronous crawl detection feeding manipulator of battery core according to claim 2 or 3, it is characterised in that: described the
One cylinder (3), second cylinder (4) are connected by a floating junction (8) with the corresponding transmission component (53) respectively.
5. a kind of battery core according to claim 2 is synchronous to grab detection feeding manipulator, it is characterised in that: the clamping jaw machine
Structure (5) further includes optoelectronic switch one (55), and the optoelectronic switch one (55) is embedded on the gripping surface of the clamping jaw (51).
6. a kind of battery core according to claim 1 is synchronous to grab detection feeding manipulator, it is characterised in that: the detection group
Part (6) include fixed link (61), guide holder (62), guiding axis (63), elastic component (64), probe (65), probe supporting plate (66),
Sliding bearing (67), the fixed link (61) are arranged between first cylinder (3) and second cylinder (4), opposite
Two sides are fixed with the two respectively, and the both ends of the fixed link (61) are fixed with a guide holder (62) respectively, the guiding
Axis (63) is arranged in the guide holder (62) vertically and is connect by the sliding bearing (67) with the guide holder (62), described
The upper end of guiding axis (63) be equipped with flange, the elastic component (64) be sheathed on the guiding axis (63) and be located at the flange with
Between the sliding bearing (67), the upper surface at probe supporting plate (66) both ends is respectively and under two guiding axis (63)
End connection, the probe (65) are equipped at intervals with two groups and connect respectively with the bottom surface of the probe supporting plate (66), the wedge shape
Seat (7) is connect between probe (65) described in two groups and with the bottom surface of the probe supporting plate (66).
7. a kind of battery core according to claim 6 is synchronous to grab detection feeding manipulator, it is characterised in that: the detection group
Part (6) further includes optoelectronic switch two (68), and the optoelectronic switch two (68) is installed on the bottom surface of the probe supporting plate (66).
8. a kind of battery core according to claim 1 is synchronous to grab detection feeding manipulator, it is characterised in that: first gas
The output section one of cylinder (3) includes shaft one (31), roller bearing one (32), the output section of second cylinder (4)
Two include shaft two (41), roller bearing two (42), the free end company of the roller bearing one (32) and the shaft one (31)
It connects, the roller bearing two (42) connect with the free end of the shaft two (41), the roller bearing one (32), the roller
Two inclined-planes opposite with the wedge mount (7) are supported and are closed bearing two (42) respectively.
9. a kind of battery core according to claim 1 is synchronous to grab detection feeding manipulator, it is characterised in that: further include throttling
Valve (9) is at least equipped with the throttle valve (9) on first cylinder (3), second cylinder (4) respectively.
10. a kind of battery core according to claim 1 is synchronous to grab detection feeding manipulator, it is characterised in that: the fixation
Part (1) includes mounting plate (11), guide rail fixed plate (12), and guide rail fixed plate (12) the side plate face and the installation are solid
The side plate face of fixed board (11) is fixed, the guide rail (2), first cylinder (3), second cylinder (4) respectively with it is described
Another lateral plates of guide rail fixed plate (12) are fixed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821284286.0U CN208826653U (en) | 2018-08-09 | 2018-08-09 | A kind of battery core is synchronous to grab detection feeding manipulator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821284286.0U CN208826653U (en) | 2018-08-09 | 2018-08-09 | A kind of battery core is synchronous to grab detection feeding manipulator |
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Publication Number | Publication Date |
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CN208826653U true CN208826653U (en) | 2019-05-07 |
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CN201821284286.0U Expired - Fee Related CN208826653U (en) | 2018-08-09 | 2018-08-09 | A kind of battery core is synchronous to grab detection feeding manipulator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109015725A (en) * | 2018-08-09 | 2018-12-18 | 镇江成泰自动化技术有限公司 | A kind of battery core is synchronous to grab detection feeding manipulator |
-
2018
- 2018-08-09 CN CN201821284286.0U patent/CN208826653U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109015725A (en) * | 2018-08-09 | 2018-12-18 | 镇江成泰自动化技术有限公司 | A kind of battery core is synchronous to grab detection feeding manipulator |
CN109015725B (en) * | 2018-08-09 | 2024-04-12 | 江苏成泰自动化科技有限公司 | Battery cell synchronous grabbing and detecting feeding manipulator |
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190507 Termination date: 20200809 |
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CF01 | Termination of patent right due to non-payment of annual fee |