CN213023485U - Battery detection system - Google Patents

Abstract

The application discloses a battery detection system, which comprises a first rotary table, a detection device, a second rotary table and a control system, wherein a plurality of first bearing positions are arranged at intervals on the periphery of the first rotary table so as to drive a battery to be detected to synchronously rotate along with the first rotary table; the detection device is used for detecting the battery to be detected on the first rotating disc; each second bearing position is provided with an adsorption component; the control system is used for controlling the adsorption components on the second bearing positions to selectively start according to the detection result of the detection device, adsorbing one of the unqualified batteries and the qualified batteries on the second turntable, and simultaneously keeping the other one of the unqualified batteries and the qualified batteries on the first turntable. This application battery detecting system can adsorb the second carousel with unqualified battery fast on, shortens unqualified battery exhaust time, improves unqualified battery exhaust efficiency.

Description

Battery detection system

Technical Field

The application relates to the technical field of battery detection, in particular to a battery detection system.

Background

With the improvement of the production efficiency of the battery, the speed of the battery detection system is higher and higher. When a defective battery occurs in the battery to be detected, the time required for discharging the defective battery from the battery inspection system is shorter and shorter.

Because the unqualified battery in the existing battery detection system is discharged by the traditional cylinder, the time for discharging the unqualified battery by the cylinder is longer, and the discharge time of unqualified products is influenced, so that the speed of the battery detection system cannot be met.

SUMMERY OF THE UTILITY MODEL

The application provides a battery detection system to solve the problem that current cylinder discharges nonconforming battery inefficiency.

In order to solve the above technical problem, the present application provides a battery detection system, including: the first turntable is provided with a plurality of first bearing positions at intervals at the periphery, and the first bearing positions are used for bearing the batteries to be detected respectively so as to drive the batteries to be detected to synchronously rotate along with the first turntable; the detection device is used for detecting whether the battery to be detected on the first rotating disc is an unqualified battery or a qualified battery; the periphery of the second turntable is provided with a plurality of second bearing positions at intervals, and each second bearing position is provided with an adsorption component; and the control system is used for controlling the selective starting of the adsorption components on the plurality of second bearing positions according to the detection result of the detection device, so that one of the unqualified batteries and the qualified batteries is adsorbed on the second turntable, and meanwhile, the other one of the unqualified batteries and the qualified batteries is kept on the first turntable.

And the linear speed of the first bearing position is equal to that of the second bearing position.

Wherein, the ratio of the angular speed of the second rotating disc and the first rotating disc is inversely proportional to the ratio of the number of the second bearing bits and the first bearing bits.

Wherein, the adsorption component is a vacuum chuck, and the vacuum chuck is radially arranged in the second bearing position and is used for adsorbing the unqualified battery at the first bearing position on the second turntable.

The rotating flange comprises a first end and a second end, the first end of the rotating flange is close to the feeding position of the unqualified battery, and the first end of the rotating flange is rotatably arranged relative to the second end of the rotating flange; the battery detection system comprises a clamping detection assembly, wherein one end of the clamping detection assembly can be detachably abutted against the outer side wall of the first end of the rotating flange to detect whether the unqualified battery is clamped between the rotating flange and the second turntable.

Wherein, card material detection subassembly includes the mount pad, card material detection push rod, elastic component and at least one sensor, card material detection push rod slides and sets up in the mount pad, the elastic component cover is located card material detection push rod and is installed on the mount pad, at least one sensor is fixed in the mount pad, the elastic component butt is passed through in the first end lateral wall of rotation flange to the one end of card material detection push rod, when the first end of rotation flange was held for its second and is rotated, it promotes card material detection push rod and slides in the mount pad to rotate the flange, make the other end that card material detection push rod get into the response detection range of at least one sensor.

The battery detection system comprises a blanking assembly, wherein the blanking assembly is arranged at the discharging position of the qualified battery on the first turntable and used for transmitting the qualified battery to the next station.

The blanking assembly comprises two groups of belt pulleys and a belt sleeved on the two groups of belt pulleys, the belt is used for transmitting qualified batteries, and a discharging flange is arranged above the first rotary disc and close to the discharging position of the qualified batteries and used for guiding the qualified batteries to the belt.

Wherein, first position of bearing is first recess, and first recess sets up along the sunken setting of first carousel center pin, and first carousel periphery is provided with and is curved battery flange, holds between first recess and the battery flange and waits to detect the battery, waits to detect the battery and rotates along with first carousel synchronization, and detection device sets up in the battery flange and its is located and waits to detect directly over the battery.

The second bearing position is a second groove which is arranged along the central axis of the second turntable in a concave mode, the adsorption component is radially arranged in the second groove, the first bearing position of the first turntable and the second bearing position of the second turntable are arranged in a tangent mode, and qualified batteries or unqualified batteries are accommodated between the first groove and the second groove to guide the qualified batteries or the unqualified batteries to move.

The beneficial effect of this application is: be different from prior art's condition, this application provides a battery detecting system, including first carousel, detection device, second carousel and control system, first carousel periphery interval is provided with a plurality of first positions of bearing, and first position of bearing is used for bearing respectively and waits to detect the battery to the drive is waited to detect the battery and is rotated along with first carousel synchronization. The detection device is used for detecting whether the battery to be detected on the first rotary disc is an unqualified battery or a qualified battery. The periphery interval of second carousel is provided with a plurality of seconds and bears the position, and every second bears the position and is provided with adsorption component respectively. The control system is used for controlling the adsorption components on the second bearing positions to selectively start according to the detection result of the detection device, so that one of the unqualified batteries and the qualified batteries is adsorbed on the second turntable, and meanwhile, the other one of the unqualified batteries and the qualified batteries is kept on the first turntable. Through the mode, the unqualified batteries on the first rotary disc can be quickly adsorbed on the second rotary disc, the discharge time of the unqualified batteries is shortened, and the discharge efficiency of the unqualified batteries is improved, so that the control system can meet the requirement of the first rotary disc with higher rotation speed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a top view of an embodiment of the battery test system of the present application;

FIG. 2 is a schematic view of the structure of A shown in FIG. 1;

fig. 3 is a schematic structural view of B shown in fig. 1.

Reference numerals: 1. a first turntable; 11. a first carrying position; 2. a detection device; 3. a second turntable; 31. a second carrying bit; 4. a vacuum chuck; 51. rotating the flange; 52. battery flanges; 53. fixing the flange; 54. discharging and blocking edges; 6. a material jamming detection assembly; 61. a mounting seat; 62. a material jamming detection push rod; 63. a sensor; 7. discharging the qualified battery; 8. and feeding unqualified batteries.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present application, the following describes a battery test system provided in the present invention in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is a top view of an embodiment of a battery testing system according to the present invention; FIG. 2 is a schematic view of the structure of A shown in FIG. 1; fig. 3 is a schematic structural view of B shown in fig. 1.

Battery detecting system includes first carousel 1, detection device 2 and second carousel 3 in this embodiment, and 1 periphery interval of first carousel is provided with a plurality of first positions 11 that bear, and a plurality of first positions 11 that bear are used for bearing respectively and wait to detect the battery to the battery is waited to detect along with first carousel 1 synchronous revolution to the drive. The detection device 2 is used for detecting whether the battery to be detected on the first rotary disc 1 is an unqualified battery or a qualified battery, and transmitting the detection result to a subsequent control system. The periphery interval of second carousel 3 is provided with a plurality of seconds and bears position 31, and every second bears and is provided with adsorption component on the position 31 respectively, and adsorption component has the adsorption, can adsorb and wait to detect the battery.

In order to adsorb the unqualified battery on the first turntable 1 onto the second turntable 3, the battery detection system of the embodiment further includes a control system, and the control system obtains the detection result of the detection device 2 and controls the selective activation of the adsorption components on the plurality of second bearing positions 31 according to the detection result of the detection device 2. When the detection device 2 detects a defective battery on the first turntable 1, the control system may calculate an adsorption component at a second carrying position 31 corresponding to the defective battery at the first carrying position 11, and control the adsorption component to adsorb.

When the unqualified battery rotates to the adsorption component of the second bearing position 31, the unqualified battery is adsorbed to the second bearing position 31 by the adsorption component, so that the unqualified battery is transferred to the second rotating disc 3 to discharge the unqualified battery. When the adsorption assembly is not started, the adsorption assembly does not adsorb the qualified battery or the unqualified battery on the first rotary table 1. Unqualified batteries on the first turntable 1 can be quickly adsorbed on the second turntable 3 through the control system and the adsorption assembly, so that the discharge time of the unqualified batteries is shortened, the discharge efficiency of the unqualified batteries is improved, and the requirement for the higher rotating speed of the first turntable 1 can be met.

In an embodiment, when the linear velocity of the first bearing position 11 of the first rotary disk 1 is set to be equal to the linear velocity of the second bearing position 31 of the second rotary disk 3, so that the first bearing position 11 where the unqualified battery is located is tangent to the second bearing position 31 where the adsorption component has been started, because the linear velocities between the first bearing position 11 and the second bearing position 31 are equal, the adsorption component can quickly and accurately adsorb the unqualified battery at the first bearing position 11, the adsorption accuracy of the unqualified battery is improved, the adsorption time of the unqualified battery is shortened, and the adsorption efficiency of the unqualified battery is improved.

The linear velocities of the first carrying position 11 and the second carrying position 31 are equal, that is, the linear velocities of the first carrying position 11 and the second carrying position 31 are the same, so that the rotation directions of the first rotating disk 1 and the second rotating disk 3 are different, as shown in fig. 1, the first rotating disk 1 rotates counterclockwise, and the second rotating disk 3 rotates clockwise. In other alternative embodiments, the first turntable rotates clockwise and the second turntable rotates counterclockwise.

The present embodiment achieves the equal linear velocities of the first carrying location 11 and the second carrying location 31 by changing the angular velocities of the first turntable 1 and the second turntable 3 and the number of the first carrying location 11 and the second carrying location 31. In particular, the ratio of the angular velocities between the second turntable 3 and the first turntable 1 is inversely proportional to the ratio of the number of second carrying bits 31 and the number of first carrying bits 11. Further, in order to achieve equal linear velocities of the first carrying bits 11 and the second carrying bits 31, the ratio of the diameters of the second rotating disk 3 and the first rotating disk 1 is equal to the ratio of the number of the second carrying bits 31 to the number of the first carrying bits 11.

In the actual process, in order to facilitate the control system to control the opening accuracy of the adsorption assembly corresponding to the unqualified battery, a plurality of first bearing positions 11 and the like are arranged on the periphery of the first turntable 1 at equal angles, and a plurality of second bearing positions 31 and the like are arranged on the periphery of the second turntable 3 at equal angles, so that the operation time of the control system is shortened, the operation accuracy of the control system is improved, and the adsorption efficiency of the unqualified battery is further improved.

Specifically, the absorption component is vacuum chuck 4, and vacuum chuck 4 radially sets up in second bears position 31, and vacuum chuck 4's absorption mouth sets up outwards. The control system starts the corresponding vacuum chuck 4 to generate vacuum, the unqualified battery is adsorbed onto the second turntable 3 through the vacuum chuck 4, then the control system stops starting the vacuum chuck 4, and the unqualified battery enters the second turntable 3 and rotates along with the rotation of the second turntable 3.

In an embodiment, the unqualified battery feeding position 8 on the second turntable 3 is provided with a rotation flange 51, and the unqualified battery feeding position 8 is located at a position where the second bearing position 31 on the second turntable 3 and the corresponding first bearing position 11 of the first turntable 1 are away from each other after the adsorption assembly on the second turntable 3 adsorbs the unqualified battery, as shown in fig. 3. Wherein, it is the arc setting to rotate flange 51 inner wall along second carousel 3 periphery, plays the guide effect, rotates flange 51 promptly and can be used for guiding unqualified battery along its arc direction motion, prevents that unqualified battery from being thrown away because of its self centrifugal force.

Specifically, the rotating rib 51 comprises a first end and a second end which are opposite, and the first end of the rotating rib 51 is close to the unqualified battery feeding part 8. And the control system controls the adsorption component to stop adsorbing the unqualified battery after the unqualified battery enters the first end of the rotating flange 51 from the unqualified battery feeding part 8, wherein the unqualified battery enters the second rotating disc 3 along the first end of the inner wall of the rotating flange 51. The first end of the rotating rib 51 is rotatably disposed relative to the second end of the rotating rib 51, and when an external force is applied to one end of the rotating rib 51, the rotating rib 51 can rotate relative to the second end of the rotating rib 51.

Due to the fact that the first rotary table 1 and the second rotary table 3 rotate at high speed, in the process that the adsorption assembly adsorbs unqualified batteries, qualified batteries or unqualified batteries adjacent to the unqualified batteries can be adsorbed simultaneously, and the adsorption assembly can adsorb at least two batteries simultaneously; or after the adsorption component stops adsorbing, because the second turntable 3 rotates at a high speed, the unqualified battery stays on the rotation flange 51 under the action of centrifugal force, and the next unqualified battery also enters the rotation flange 51 at the same time, both the above two modes can cause the material blocking problem between the rotation flange 51 and the second bearing position 31, so the battery detection system in the embodiment further comprises a material blocking detection component 6, one end of the material blocking detection component 6 can be in releasable abutting connection with the outer side wall of the second end of the rotation flange 51 to detect whether the unqualified battery is blocked between the rotation flange 51 and the second bearing position 31, and the material blocking phenomenon is detected on the second turntable 3.

Specifically, referring to fig. 1 and fig. 2, the material jamming detection assembly 6 includes a mounting seat 61, a material jamming detection push rod 62, an elastic member (not shown), and at least one sensor 63, wherein the mounting seat 61 is located on an outer side wall of the rotation rib 51, and the material jamming detection push rod 62 is slidably disposed on the mounting seat 61. The elastic member is sleeved on the material clamping detection push rod 62 and is installed on the installation seat 61, wherein one end of the elastic member is arranged at one end of the material clamping detection push rod 62, and the other end of the elastic member is arranged on the installation seat 61. Because the elastic member has elasticity, the elastic member can be with card material detection push rod 62 one end butt in on the lateral wall of the first end of rotation flange 51. At least one sensor 63 is fixed in on mount pad 61, and wherein card material detects push rod 62 and sensor 63 parallel arrangement, and sensor 63 is used for detecting whether card material detects the other end of push rod 62 and gets into its detection range.

When a material is clamped between the rotating retaining edge 51 and the second rotary disc 3, an extrusion force is formed on the rotating retaining edge 51 by unqualified batteries and/or qualified batteries due to the action of centrifugal force, when the extrusion force is larger than the abutting force of the elastic piece on the outer side wall of the first end of the rotating retaining edge 51 acted by the material clamping detection push rod 62, the first end of the rotating retaining edge 51 rotates around the second end of the rotating retaining edge, so that the material clamping detection push rod 62 is driven to slide on the mounting seat 61, the other end of the material clamping detection push rod 62 enters the detection range of the sensor 63, and then the sensor 63 transmits the detection result to a corresponding alarm system or a starting system to alarm or stop the machine.

Preferably, the elastic member may be a spring. The sensors 63 are light sensation sensors, the number of the light sensation sensors is two, the two light sensation sensors are respectively arranged on the mounting base 61 in parallel through corresponding supports, the two light sensation sensors are arranged at the tail ends of the corresponding supports, and the material clamping detection push rod 62 is arranged between the two supports in parallel.

In the actual process, the rotating ribs 51 can prevent unqualified batteries from being thrown out due to centrifugal force, the second turntable 3 rotates faster, the unqualified batteries with the rotating ribs 51 still have larger centrifugal force, fixed ribs 53 are arranged on the periphery of the second turntable 3, one end of each fixed rib 53 extends to the second end of the corresponding rotating rib 51, and the inner wall of each fixed rib 53 is adjacent to the inner wall of the corresponding rotating rib 51, so that the unqualified batteries move along the inner walls of the rotating ribs 51 and the inner walls of the fixed ribs 53, and the unqualified batteries are discharged from the other end of the corresponding fixed rib 53. The discharged defective batteries can be picked up manually, or a receiving device or the like can be provided at the fixing rib 53 to receive the defective batteries.

In an embodiment, the battery detection system further includes a blanking assembly (not shown in the figure), the blanking assembly is disposed at the qualified battery discharging position 7 on the first turntable 1, wherein the qualified battery discharging position 7 is located at a position from near to far between the first bearing position 11 on the first turntable 1 and the corresponding second bearing position 31 of the second turntable 3 after the adsorption assembly adsorbs the unqualified battery, as shown in fig. 3. The blanking assembly is used for conveying qualified batteries on the first rotary disc 1 to the next station.

Specifically, the blanking assembly comprises two sets of belt pulleys (not shown in the figure) and a belt (not shown in the figure) sleeved on the two sets of belt pulleys, and the belt is located below the qualified battery discharging position 7 on the first rotating disc 1. The belt is used to transport acceptable batteries, wherein the direction of belt travel is indicated by the lateral arrows in fig. 1. The specific mounting manner of the pulley is not limited.

In order to smoothly guide the qualified batteries on the first rotating disc 1 to the blanking assembly, a discharging rib 54 is arranged above the first rotating disc 1 near the qualified battery discharging position 7, and the discharging rib 54 is used for guiding the qualified batteries to the belt. Preferably, the outfeed rib 54 is disposed parallel to the direction of belt travel.

In an embodiment, the first bearing position 11 is a first groove, the first groove is recessed along a central axis of the first turntable 1, and a battery to be detected is placed in the first groove. When first carousel 1 rotated, first recess can drive and wait to detect the battery and rotate. In order to prevent that the battery to be detected from generating centrifugal force due to the rotation of the first rotating disc 1 and then being thrown out, the battery flange 52 is arranged on the periphery of the first rotating disc 1, the battery flange 52 is in an arc shape, and the battery to be detected is positioned in the accommodating space between the first groove and the battery flange 52, so that the battery to be detected is not easy to be thrown out. In addition, the battery rib 52 can serve as a guide, so that the battery to be tested is rotated along its battery rib 52 to the second turntable 3. One end of the battery rib 52 is arranged at any position of the first rotating disc 1 and is used for loading a battery to be detected; the other end of the battery rib 52 extends to the outside of the tangent position of the second rotary table 3 and the first rotary table 1, so that the battery to be detected can rotate to the first bearing position 11 and the second bearing position 31 of the tangent position.

Specifically, the battery rib 52 can be used for installing the detection device 2, so that the detection device 2 is located right above the battery to be detected, and the battery to be detected can be detected, so as to determine whether the battery to be detected is an unqualified battery or a qualified battery. Preferably, the detection component is an X-ray detection system, and the detection is carried out in the detection component by the penetration of X-rays through the battery to be detected. When unqualified batteries appear in the batteries to be detected, the control system marks the position of a first bearing position 11 where the unqualified batteries are located, and when the first bearing position 11 where the unqualified battery flows is rotated to a position where the first rotary table 1 and the second rotary table 3 are tangent, the unqualified batteries are adsorbed and discharged through the adsorption component.

Specifically, the second bearing position 31 is a second groove, the second groove is recessed along the central axis of the second turntable 3, and the adsorption component is radially disposed in the second groove. The second groove not only provides a mounting position for the adsorption component, but also can guide and convey unqualified batteries. For example, when the first bearing position 11 of the first rotary table 1 is tangent to the second bearing position 31 of the second rotary table 3, a containing space is formed between the first groove and the second groove, and the containing space contains qualified batteries or unqualified batteries. When the accommodating space is an unqualified battery, the unqualified battery is adsorbed by the adsorption component, and the adsorption component brings the unqualified battery into the unqualified battery feeding position 8. When accommodation space is qualified battery, because of first carousel 1 and the relative rotation of second carousel 3, can give qualified battery direction power for qualified battery moves towards qualified battery unloading department, enters into on the unloading subassembly.

The working process of the battery detection system is as follows: (1) when the battery to be detected at the upper detection side of the first bearing position 11 of the first rotary disc 1 by the detection device 2 is an unqualified battery, an adsorption component of the unqualified battery corresponding to the second bearing position 31 on the second rotary disc 3 is measured out in the control system, and the adsorption component is controlled to generate vacuum; (2) when the unqualified battery rotates to the tangent position of the first turntable 1 and the second turntable 3, the adsorption component adsorbs the unqualified battery and enters the space between the rotating flange 51 and the second turntable 3 from the unqualified battery feeding position 8, and the unqualified battery is transported to the second turntable 3; (3) the qualified batteries continue to move, then enter the blanking assembly through the discharging flange 54, and the blanking assembly transmits the qualified batteries to the next station; (4) when a plurality of unqualified batteries and/or qualified batteries appear between the rotating flange 51 and the second turntable 3, the material clamping detection assembly senses and detects the batteries and gives an alarm for prompting or stopping the machine.

This embodiment battery detection system includes first carousel, detection device, second carousel and control system, and first carousel periphery interval is provided with a plurality of first positions of bearing, and first position of bearing is used for bearing respectively and waits to detect the battery to the battery is waited to detect along with first carousel synchronous rotation to the drive. The detection device is used for detecting whether the battery to be detected on the first rotary disc is an unqualified battery or a qualified battery. The periphery interval of second carousel is provided with a plurality of seconds and bears the position, and every second bears the position and is provided with adsorption component respectively. The control system is used for controlling the adsorption components on the second bearing positions to selectively start according to the detection result of the detection device, so that one of the unqualified batteries and the qualified batteries is adsorbed on the second turntable, and meanwhile, the other one of the unqualified batteries and the qualified batteries is kept on the first turntable. Through the mode, the unqualified batteries on the first rotary disc can be quickly adsorbed on the second rotary disc, the discharge time of the unqualified batteries is shortened, and the discharge efficiency of the unqualified batteries is improved, so that the control system can meet the requirement of the first rotary disc with higher rotation speed.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A battery test system, comprising:

the battery detection device comprises a first rotating disc, a second rotating disc and a control unit, wherein a plurality of first bearing positions are arranged at the periphery of the first rotating disc at intervals and used for respectively bearing batteries to be detected so as to drive the batteries to be detected to synchronously rotate along with the first rotating disc;

the detection device is used for detecting whether the battery to be detected on the first rotary disc is an unqualified battery or a qualified battery;

the periphery of the second turntable is provided with a plurality of second bearing positions at intervals, and each second bearing position is provided with an adsorption component;

and the control system is used for controlling the adsorption components on the plurality of second bearing positions to be selectively started according to the detection result of the detection device, so that one of the unqualified battery and the qualified battery is adsorbed on the second turntable, and the other one of the unqualified battery and the qualified battery is kept on the first turntable.

2. The battery detection system of claim 1, wherein the linear velocity of the first load bearing station is equal to the linear velocity of the second load bearing station.

3. The battery detection system of claim 2, wherein a ratio of the angular velocities of the second turntable and the first turntable is inversely proportional to a ratio of the number of the second carrying bits and the first carrying bits.

4. The battery testing system according to claim 1, wherein the suction assembly is a vacuum chuck radially disposed in the second loading position for sucking the defective battery at the first loading position onto the second turntable.

5. The battery detection system according to any one of claims 1 to 4, wherein a rotating rib is arranged at the unqualified battery feeding position on the second turntable, the inner wall of the rotating rib is arranged in an arc shape along the periphery of the second turntable and used for guiding the unqualified battery to move along the arc direction of the battery, the rotating rib comprises a first end and a second end, the first end of the rotating rib is close to the unqualified battery feeding position, and the first end of the rotating rib is arranged in a rotating way relative to the second end of the rotating rib;

the battery detection system comprises a material clamping detection assembly, wherein one end of the material clamping detection assembly can be in releasable abutting connection with the outer side wall of the first end of the rotating retaining side so as to detect whether the unqualified battery is clamped between the rotating retaining side and the second turntable.

6. The battery detection system according to claim 5, wherein the material jamming detection assembly comprises a mounting seat, a material jamming detection push rod, an elastic member and at least one sensor, the material jamming detection push rod is slidably disposed on the mounting seat, the elastic member is sleeved on the material jamming detection push rod and is mounted on the mounting seat, the at least one sensor is fixed on the mounting seat, one end of the material jamming detection push rod abuts against the outer side wall of the first end of the rotation rib through the elastic member, and when the first end of the rotation rib rotates relative to the second end of the rotation rib, the rotation rib pushes the material jamming detection push rod to slide on the mounting seat, so that the other end of the material jamming detection push rod enters the sensing detection range of the at least one sensor.

7. The battery inspection system of any of claims 1-4, wherein the battery inspection system includes a blanking assembly, the blanking assembly disposed at a qualified battery discharge on the first turntable for transporting the qualified battery to a next station.

8. The battery detection system of claim 7, wherein the blanking assembly comprises two sets of belt pulleys and a belt sleeved on the two sets of belt pulleys, the belt is used for transmitting the qualified batteries, and a discharging rib is arranged above the first rotary disc and close to a discharging position of the qualified batteries and used for guiding the qualified batteries to the belt.

9. The battery detection system according to any one of claims 1 to 4, wherein the first bearing position is a first groove, the first groove is concavely disposed along a central axis of the first rotating disk, an arc-shaped battery rib is disposed on an outer periphery of the first rotating disk, the battery to be detected is accommodated between the first groove and the battery rib, the battery to be detected synchronously rotates with the first rotating disk, and the detection device is disposed on the battery rib and is located right above the battery to be detected.

10. The battery detection system according to claim 9, wherein the second bearing position is a second groove, the second groove is concavely disposed along a central axis of the second turntable, the adsorption component is radially disposed in the second groove, the first bearing position of the first turntable and the second bearing position of the second turntable are tangentially disposed, and the qualified battery or the unqualified battery is accommodated between the first groove and the second groove to guide the qualified battery or the unqualified battery to move.

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