CN111736079A - New energy automobile battery production is with examining test table - Google Patents

Abstract

The invention discloses a new energy automobile battery production detection table which comprises a conveying mechanism, wherein a rotating device, a strain device, a transmission device and a detection device are arranged in the conveying mechanism; through transport mechanism, rotary device, strain gauge, transmission, ejecting device, displacement device, the block device, detection device's cooperation, make to wait to detect the battery and can get into one number automatically and detect the position and accomplish detection work automatically, and can make the waiting of detecting the position wait to detect the battery and get into two numbers automatically and accomplish detection work automatically, make to wait to detect the battery and become and detect the battery, can send out the battery that has detected from this new energy automobile battery production with detecting the platform automatically simultaneously, conveniently shift the battery that has detected to next process, degree of automation is high, time saving and labor saving, detection efficiency is high, can not cause the detection failure because of the wiring mistake, it is high to detect the success rate, the practicality of this new energy automobile battery production with detecting the platform has been improved.

Description

New energy automobile battery production is with examining test table

Technical Field

The invention relates to the field of detection tables for new energy automobile battery production, in particular to a detection table for new energy automobile battery production.

Background

The new energy automobile is an automobile which adopts unconventional automobile fuel as a power source, integrates advanced technologies in the aspects of power control and driving of the automobile, forms an advanced technical principle, has a new technology and a new structure, mainly comprises a hybrid electric automobile, a pure electric automobile, a fuel cell electric automobile, other new energy automobiles and the like at present, wherein the pure electric automobile is mainly powered by a battery, so that the quality of an automobile battery directly concerns the overall quality and the running condition of the automobile, the battery needs to be placed on a battery detection table for detection after being produced, and detection items mainly comprise internal resistance, voltage, capacitance and the like.

Present battery test table is when using, at first the testing personnel mention the battery examine test table on, then manual connect the detection line of detector respectively on two terminals of battery, open the detector and detect after that, later testing personnel judge whether qualified through the testing data battery, then part detection line and terminal, remove the battery to next station and use another detector to carry out the detection of other projects to this battery after that, analogize in proper order, accomplish the detection achievement to the battery, however, testing personnel need frequent detection line on with the detector be connected and dismantle with the terminal on the different batteries, waste time and energy, detection efficiency is low, and cause the detection failure because of the wiring mistake easily, consequently need to design a new energy automobile battery production with examining test table urgently.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems that when the existing battery detection table in the prior art is used, firstly, a detection person lifts a battery to the detection table, then, the detection lines of the detector are respectively connected to two binding posts of the battery manually, then, the detector is started for detection, then, the detection person judges whether the battery is qualified or not according to detection data, then, the detection line is separated from the binding posts, then, the battery is moved to the next station, and the other items of the battery are detected by using another detector, and so on, so as to complete the detection work of the battery, however, the detection person needs to frequently connect and disassemble the detection lines on the detector with the binding posts on different batteries, time and labor are wasted, the detection efficiency is low, and the detection failure is easily caused by wiring errors, the invention aims to provide the detection table for producing the new energy automobile battery, it can solve the problems in the background art well.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a new energy automobile battery production is with examining test table, includes transport mechanism, transport mechanism's inside is equipped with rotary device, strain gauge, transmission and detection device.

Preferably, the conveying mechanism comprises a cylindrical box, a partition plate is fixedly connected to the inner wall of the cylindrical box, balls are movably embedded on the top surface of the partition plate, a moving-in opening and a moving-out opening are formed in the partition plate, a moving-in pipe is fixedly communicated with the left side surface of the cylindrical box and is fixedly communicated with the moving-in opening, a moving-in groove box is fixedly communicated with the left end of the moving-in pipe, supporting legs and an intelligent controller are fixedly connected to the bottom surface of the moving-in groove box, moving-in support shafts are arranged inside the moving-in groove box, the moving-in support shafts and the cylindrical box, the end parts of the moving-in support shafts are movably sleeved with the inner walls of the moving-in groove box, the moving-in pipe and the cylindrical box, a moving-in motor is fixedly installed on the back surface of the moving-in groove box and is electrically controlled by the intelligent controller, an output shaft of the moving-in motor, wherein two immigration backing rolls are located immigration open-ended inside, connect through immigration conveyer belt transmission between the immigration backing roll, the right-hand member of immigration conveyer belt is located immigration open-ended inside, the top surface of immigration conveyer belt flushes with the top of ball, the interval has been placed on the top surface of immigration conveyer belt and has been waited to detect the battery, fixed mounting has first detector and second detector on the top surface of cylindrical box, the orientation mutually perpendicular of first detector and second detector, the orientation of immigration opening and second detector is opposite, first detector and the orientation of immigration opening are opposite, the back of cylindrical box is fixed to be communicated with the shift-out pipe, the shift-out pipe is fixed to be communicated with the shift-out opening, the other end of shift-out pipe is fixed to be communicated with the shift-out groove case, cylindrical box, the inner wall of the shifting-out tank box is movably sleeved, the shifting-out motor is fixedly mounted on the shifting-out tank box and is electrically controlled by the intelligent controller, an output shaft of the shifting-out motor is fixedly connected with one end of the shifting-out supporting shaft, the shifting-out supporting roller is fixedly sleeved outside the shifting-out supporting shaft and is in transmission connection with the shifting-out supporting roller through the shifting-out conveying belt, and the detected batteries are placed on the top surface of the shifting-out conveying belt at intervals.

Preferably, rotary device is including insulating isolation box, the bottom surface of insulating isolation box and the bottom surface fixed connection of cylinder type case inner chamber, the top surface of insulating isolation box and the bottom surface fixed connection of partition panel, the wiring board is gone up to fixedly connected with on the top surface of insulating isolation box inner chamber, go up the electrically conductive shell fragment on the fixedly connected with on the right flank of wiring board, fixedly connected with lower wiring board on the bottom surface of insulating isolation box inner chamber, electrically conductive shell fragment under the fixedly connected with on the right flank of lower wiring board, the bolt fastening has the servo motor that is located electrically conductive shell fragment right side down on the bottom surface of insulating isolation box inner chamber, the fixed cover has connect drive bevel gear on servo motor's the output.

Preferably, the strain device comprises a bearing seat, the surface of the bearing seat is fixedly connected with the inner wall of the cylindrical box, the left side surface of the bearing seat is fixedly connected with the right side surface of the insulating isolation box, the right side surface of the bearing seat is provided with an arc-shaped groove, the left end of the moving-out conveyor belt is positioned inside the arc-shaped groove, the top surface of the bearing seat is provided with a mounting groove, the inner wall of the mounting groove is fixedly connected with a positioning roller, the top of the positioning roller is flush with the top surface of the moving-out conveyor belt, the inside of the bearing seat is provided with a buffer cavity, the bottom surface of the inner cavity of the buffer cavity is connected with a buffer piston through a buffer spring in a transmission manner, the buffer piston is in sliding connection with the inner wall of the buffer cavity, the buffer rod is fixedly inserted and connected onto the buffer piston, the top end of the buffer rod extends to the inside of the mounting, the other end of the flat pipe of L type extends to the inside of insulating isolation box, the bottom of buffer bar extends to the inside of the flat pipe of L type, the right-hand member fixed mounting of the flat pipe inner chamber top surface of L type has the leading wheel, fixedly connected with spacing slide bar between the upper and lower two sides of the flat pipe inner chamber of L type, elevator and jacking spring have been cup jointed in spacing slide bar's outside activity, the bottom of jacking spring and the bottom surface fixed connection of the flat pipe inner chamber of L type, the top of jacking spring and the bottom surface fixed connection of elevator, the top surface fixedly connected with joint piece of elevator, the top of joint piece extends to the outside of the flat pipe of L type, fixedly connected with diversion wheel on the bottom surface of the flat pipe inner chamber of L type, fixedly connected with transmission steel wire on the bottom surface of elevator, diversion wheel is walked around to the other end of transmission steel wire, the leading wheel.

Preferably, the transmission device comprises a transmission shaft, a driven bevel gear is fixedly sleeved outside the transmission shaft, the driven bevel gear is meshed with the driving bevel gear, an insulating pipe is fixedly sleeved at the bottom end of the transmission shaft, the bottom end of the insulating pipe is movably sleeved with the bottom surface of the inner cavity of the insulating isolation box, a conductive ring is fixedly sleeved outside the insulating pipe and is slidably connected with the lower conductive elastic sheet, a pushing device positioned above the driven bevel gear is arranged outside the transmission shaft, the top end of the transmission shaft penetrates through the top surface of the insulating isolation box and the partition plate, an insulating sleeve positioned above the pushing device is fixedly sleeved outside the transmission shaft, the insulating sleeve is movably inserted on the top surface of the insulating isolation box and the partition plate, an upper conductive elastic sheet is slidably connected with the surface of the insulating sleeve, a displacement device positioned above the partition plate is arranged outside the insulating sleeve, and a conductive strip is fixedly embedded on the, the fixed conducting ring that is equipped with that inlays in insulation support's top, the conducting ring passes through the wire and is connected with the conductive loop electricity, insulation support's fixed being inlayed on the surface is equipped with the conducting strip, the top and the conducting ring fixed connection of conducting strip, conducting strip and busbar alternate distribution, the conducting strip be fixedly connected with conductive arc shell fragment on the surface, conductive arc shell fragment and busbar looks adaptation.

Preferably, the pushing device comprises a circular tray, the circular tray is fixedly sleeved outside the transmission shaft and is positioned inside the insulating isolation box, a limiting sleeve ring is movably sleeved outside the circular tray, the top end of the limiting sleeve ring is fixedly connected with a flywheel, the bottom surface of the flywheel is fixedly connected with four limiting strips, the limiting strips are matched with the clamping blocks, a track groove is formed in the side surface of the flywheel, the track of the inner wall of the track groove is in a four-corner star shape, the limiting strips correspond to the concave parts on the track groove, the middle part of the top surface of the flywheel is provided with a central hole, the transmission shaft is movably inserted inside the central hole, an energy storage spring is arranged inside the central hole, one end of the energy storage spring is fixedly connected with the surface of the transmission shaft, the other end of the energy storage spring is fixedly connected with the inner wall of the central hole, an ejector rod is movably inserted inside the track groove, and the end, the right-hand member activity of ejector pin is pegged graft on the right flank of insulating isolation box and fixedly connected with ejector plate, the right flank of ejector plate is connected with the left surface contact of a battery that has detected, fixedly connected with is located the pull-back rod of ejector pin top on the left surface of ejector plate, the left end of pull-back rod extends to the inside of insulating isolation box and the activity has cup jointed the stand pipe, the right-hand member of stand pipe and the right flank fixed connection of insulating isolation box inner chamber, the left end fixedly connected with fixed plate of stand pipe, the top of fixed plate and the top surface fixed connection of insulating isolation box inner chamber, the left surface in stand pipe inner chamber is connected with the pull-back rod transmission through the pull-back spring.

Preferably, the displacement device comprises a rotating disk, the rotating disk is fixedly sleeved outside the insulating sleeve, the bottom surface of the rotating disk is in contact connection with the balls, four accommodating grooves are formed in the side surface of the rotating disk and are uniformly distributed on the side surface of the rotating disk, the accommodating grooves correspond to the moving-in opening and the moving-out opening, a clamping device is arranged on the inner wall of each accommodating groove, a fixed cavity is formed in the rotating disk, the top end of the insulating sleeve extends into the fixed cavity, a cylindrical cavity is formed in the rotating disk, the inner wall of the cylindrical cavity is connected with a limiting piston in a transmission mode through a reset spring, the limiting piston is in sliding connection with the inner wall of the cylindrical cavity, a force application rod is fixedly inserted on the limiting piston, one end of the force application rod extends into the fixed cavity and corresponds to the conductive arc-shaped elastic sheet, and the other end of, the middle part fixedly connected with fixed standpipe of rotary disk top surface, the ratchet has been seted up on the top of fixed standpipe.

Preferably, the clamping device comprises a clamping plate and an adaptation groove, the clamping plate is movably inserted into the inner wall of the accommodating groove and extends to the outer part of the rotating disk, the arc plate is fixedly connected with the inner wall of the accommodating groove, the clamping plate is in contact connection with a battery to be detected, the arc plate is in contact connection with the surface of the rotating disk, the adaptation groove is formed in the side face of the rotating disk, and the inner wall of the adaptation groove is in transmission connection with the arc plate through a traction spring.

Preferably, the detection device comprises a positioning cylinder, the top end of the positioning cylinder is fixedly connected with the top surface of the inner cavity of the cylindrical box, the top surface of the inner cavity of the positioning cylinder is connected with an extrusion cylinder through an extrusion spring in a transmission manner, the top end of the extrusion cylinder is movably inserted in the positioning cylinder, the inner wall of the extrusion cylinder is fixedly connected with a cross, a roller is movably sleeved outside the cross, the top end of a fixed vertical pipe is movably inserted in the extrusion cylinder, the roller is movably clamped in a ratchet, a displacement groove is formed in the surface of the positioning cylinder, a displacement arm is fixedly connected to the surface of the extrusion cylinder, the other end of the displacement arm penetrates through the displacement groove and is fixedly connected with an insulation displacement plate, the bottom surface of the insulation displacement plate is fixedly connected with a conductive cylinder, the top surface of the inner cavity of the conductive cylinder is connected with a conductive guide plate through a conductive spring in a transmission manner, the conductive, the bottom end of the conductive contact extends to the outside of the conductive cylinder and is in contact connection with a binding post on a battery to be detected, the detection lines on the first detector and the second detector extend to the inside of the conductive cylinder and are fixedly connected with the top surface of the conductive guide plate, and the detection lines are movably inserted on the top surface of the conductive cylinder and the insulation displacement plate.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

through transport mechanism, rotary device, strain gauge, transmission, ejecting device, displacement device, the block device, detection device's cooperation, make to wait to detect the battery and can get into one number automatically and detect the position and accomplish detection work automatically, and can make the waiting of detecting the position wait to detect the battery and get into two numbers automatically and accomplish detection work automatically, make to wait to detect the battery and become and detect the battery, can send out the battery that has detected from this new energy automobile battery production with detecting the platform automatically simultaneously, conveniently shift the battery that has detected to next process, degree of automation is high, time saving and labor saving, detection efficiency is high, can not cause the detection failure because of the wiring mistake, it is high to detect the success rate, the practicality of this new energy automobile battery production with detecting the platform has been improved.

Drawings

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

FIG. 2 is a bottom view of FIG. 1 of the present invention;

FIG. 3 is a schematic view of the internal structure of FIG. 2 according to the present invention;

FIG. 4 is a right side view of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the internal structure of FIG. 4 according to the present invention;

FIG. 6 is a schematic view of the internal structure of the rotating apparatus shown in FIG. 3 according to the present invention;

FIG. 7 is a schematic view of the internal structure of the rotating apparatus shown in FIG. 5 according to the present invention;

FIG. 8 is a schematic diagram of the internal structure of the strain gauge of FIG. 7 according to the present invention;

FIG. 9 is a schematic illustration of the transmission of FIG. 7 according to the present invention;

3 FIG. 310 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 at 3 A 3- 3 A 3 of 3 FIG. 3 9 3 in 3 accordance 3 with 3 the 3 present 3 invention 3; 3

FIG. 11 is a cross-sectional view taken at B-B of FIG. 9 in accordance with the present invention;

FIG. 12 is a cross-sectional view taken along line C-C of FIG. 9 in accordance with the present invention;

FIG. 13 is a schematic view of the internal structure of the displacement device shown in FIG. 3 according to the present invention;

FIG. 14 is a bottom view of the septum in FIG. 3 of the present invention;

FIG. 15 is a top view of the internal structure of FIG. 13 in accordance with the present invention;

FIG. 16 is a schematic view of the engaging device shown in FIG. 15 according to the present invention;

FIG. 17 is a schematic structural diagram of the detecting device in FIG. 3 according to the present invention;

FIG. 18 is a schematic view of the internal structure of FIG. 17 according to the present invention;

fig. 19 is a cross-sectional view taken at D-D of fig. 18 in accordance with the present invention.

The reference numbers in the figures illustrate:

1. a transport mechanism; 100. a ball bearing; 101. a cylindrical molding box; 102. a partition panel; 103. moving into the opening; 104. removing the opening; 105. moving into a tube; 106. moving into a tank; 107. a support leg; 108. an intelligent controller; 109. moving the support shaft in; 110. moving in a supporting roller; 111. moving into a conveyor belt; 112. a battery to be detected; 113. a first detector; 114. a second detector; 115. removing the pipe; 116. moving out of the tank; 117. moving out the supporting shaft; 118. moving out the supporting roller; 119. removing the conveyor belt; 120. a detected battery; 121. moving in the motor; 122. a removal motor; 2. a rotating device; 21. an insulating isolation box; 22. an upper wiring board; 23. an upper conductive elastic sheet; 24. a lower wiring board; 25. a lower conductive spring plate; 26. a servo motor; 27. a drive bevel gear; 3. a strain device; 301. a load bearing seat; 302. an arc-shaped slot; 303. mounting grooves; 304. a positioning roller; 305. a buffer chamber; 306. a buffer spring; 307. a cushion piston; 308. a buffer rod; 309. a U-shaped member; 310. a strain roll; 311. l-shaped flat tubes; 312. a guide wheel; 313. a limiting slide bar; 314. a lifting block; 315. a jacking spring; 316. a clamping block; 317. a turning wheel; 318. a transmission steel wire; 4. a transmission device; 41. a drive shaft; 42. a driven bevel gear; 43. an insulating tube; 44. a conductive ring; 45. an insulating sleeve; 46. a conductive strip; 47. conducting rings; 48. a conductive sheet; 49. a conductive arc-shaped elastic sheet; 5. a push-out device; 501. a circular tray; 502. a limiting lantern ring; 503. a flywheel; 504. a limiting strip; 505. a track groove; 506. a central bore; 507. an energy storage spring; 508. ejecting the rod; 509. ejecting the plate; 510. the pull rod is pulled back; 511. a guide tube; 512. a fixing plate; 513. a pullback spring; 6. a displacement device; 61. rotating the disc; 62. accommodating grooves; 63. a fixed cavity; 64. a cylindrical cavity; 65. a return spring; 66. a limit piston; 67. a force application rod; 68. fixing the vertical pipe; 69. a ratchet; 7. a clamping device; 71. a clamping plate; 72. a limiting arc plate; 73. an adaptation groove; 74. a tension spring; 8. a detection device; 801. a positioning cylinder; 802. a compression spring; 803. an extrusion cylinder; 804. a cross; 805. a drum; 806. a displacement slot; 807. a displacement arm; 808. an insulation displacement plate; 809. a conductive barrel; 810. a conductive spring; 811. a conductive guide plate; 812. and a conductive contact.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; rather than all embodiments. Based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Referring to fig. 1-19, a new energy automobile battery production inspection table includes a conveying mechanism 1, and a rotating device 2, a strain device 3, a transmission device 4, and a detection device 8 are disposed inside the conveying mechanism 1.

The conveying mechanism 1 comprises a cylindrical box 101, a partition plate 102 is fixedly connected on the inner wall of the cylindrical box 101, a ball 100 is movably embedded on the top surface of the partition plate 102, an in-moving opening 103 and an out-moving opening 104 are formed on the partition plate 102, a moving-in pipe 105 is fixedly communicated on the left side surface of the cylindrical box 101, the moving-in pipe 105 is fixedly communicated with the in-moving opening 103, a moving-in groove box 106 is fixedly communicated with the left end of the moving-in pipe 105, a supporting leg 107 and an intelligent controller 108 are fixedly connected on the bottom surface of the moving-in groove box 106, a moving-in supporting shaft 109 is respectively arranged inside the moving-in groove box 106, the moving-in pipe 105 and the cylindrical box 101, the end part of the moving-in supporting shaft 109 is movably sleeved with the moving-in groove box 106, the moving-in pipe 105 and the inner wall of the cylindrical box 101, a moving-in motor 121 is fixedly installed on the back surface of the moving-in groove box 106, the, the outside of the moving-in support shaft 109 is fixedly sleeved with moving-in support rollers 110, wherein two moving-in support rollers 110 are positioned inside the moving-in opening 103, the moving-in support rollers 110 are in transmission connection through a moving-in conveyor belt 111, the right end of the moving-in conveyor belt 111 is positioned inside the moving-in opening 103, the top surface of the moving-in conveyor belt 111 is flush with the top of the ball 100, batteries 112 to be detected are placed on the top surface of the moving-in conveyor belt 111 at intervals, a first detector 113 and a second detector 114 are fixedly installed on the top surface of the cylindrical box 101, the first detector 113 and the second detector 114 are perpendicular to each other in orientation, the moving-in opening 103 and the second detector 114 are opposite in orientation, the first detector 113 and the moving-out opening 104 are opposite in orientation, the back surface of the cylindrical box 101 is fixedly communicated with a moving-out pipe 115, the moving-, the cylindrical box 101, the shift-out pipe 115 and the shift-out tank 116 are internally provided with shift-out support shafts 117, the end parts of the shift-out support shafts 117 are movably sleeved with the inner walls of the cylindrical box 101, the shift-out pipe 115 and the shift-out tank 116, the shift-out tank 116 is fixedly provided with a shift-out motor 122, the shift-out motor 122 is electrically controlled by the intelligent controller 108, the output shaft of the shift-out motor 122 is fixedly connected with the end part of one shift-out support shaft 117, the shift-out support rollers 118 are fixedly sleeved outside the shift-out support shafts 117, the shift-out support rollers 118 are in transmission connection through a shift-out conveyor belt 119, and the top surfaces.

Rotating device 2 is including insulating isolation box 21, the bottom surface of insulating isolation box 21 and the bottom surface fixed connection of cylindrical case 101 inner chamber, the top surface of insulating isolation box 21 and the bottom surface fixed connection of partition panel 102, wiring board 22 on the fixedly connected with on the top surface of insulating isolation box 21 inner chamber, electrically conductive shell fragment 23 on the fixedly connected with on the right flank of last wiring board 22, fixedly connected with lower wiring board 24 on the bottom surface of insulating isolation box 21 inner chamber, electrically conductive shell fragment 25 under the fixedly connected with on the right flank of lower wiring board 24, bolt fastening has servo motor 26 that is located lower electrically conductive shell fragment 25 right side on the bottom surface of insulating isolation box 21 inner chamber, servo motor 26 receives intelligent control ware 108, the fixed cover is connected with drive bevel gear 27 on servo motor 26's the output shaft.

The strain device 3 comprises a bearing seat 301, the surface of the bearing seat 301 is fixedly connected with the inner wall of a cylindrical box 101, the left side surface of the bearing seat 301 is fixedly connected with the right side surface of an insulating isolation box 21, the right side surface of the bearing seat 301 is provided with an arc-shaped groove 302, the left end of a shifting conveyor belt 119 is positioned inside the arc-shaped groove 302, the top surface of the bearing seat 301 is provided with a mounting groove 303, the inner wall of the mounting groove 303 is fixedly connected with a positioning roller 304, the top of the positioning roller 304 is flush with the top surface of the shifting conveyor belt 119, the inside of the bearing seat 301 is provided with a buffer cavity 305, the bottom surface of the inner cavity of the buffer cavity 305 is in transmission connection with a buffer piston 307 through a buffer spring 306, the buffer piston 307 is in sliding connection with the inner wall of the buffer cavity 305, a buffer rod 308 is fixedly inserted on the buffer piston 307, the top end of the rod 308 extends to the inside of, an L-shaped flat pipe 311 is fixedly inserted on the left side surface of the bearing seat 301, the other end of the L-shaped flat pipe 311 extends into the insulating isolation box 21, the bottom end of a buffer rod 308 extends into the L-shaped flat pipe 311, a guide wheel 312 is fixedly mounted at the right end of the top surface of the inner cavity of the L-shaped flat pipe 311, a limit slide rod 313 is fixedly connected between the upper surface and the lower surface of the inner cavity of the L-shaped flat pipe 311, a lifting block 314 and a jacking spring 315 are movably sleeved outside the limit slide rod 313, the bottom end of the jacking spring 315 is fixedly connected with the bottom surface of the inner cavity of the L-shaped flat pipe 311, the top end of the jacking spring 315 is fixedly connected with the bottom surface of the lifting block 314, a clamping block 316 is fixedly connected with the top surface of the lifting block 314, the top end of the clamping block 316 extends to the outside of the L-shaped flat pipe 311, a turning wheel 317 is fixedly connected on the bottom surface of, The guide wheel 312 passes through the bottom end of the buffer rod 308 and is fixedly connected with the right side surface of the inner cavity of the L-shaped flat tube 311.

The transmission device 4 comprises a transmission shaft 41, a driven bevel gear 42 is fixedly sleeved outside the transmission shaft 41, the driven bevel gear 42 is meshed with the driving bevel gear 27, an insulating tube 43 is fixedly sleeved at the bottom end of the transmission shaft 41, the bottom end of the insulating tube 43 is movably sleeved with the bottom surface of the inner cavity of the insulating isolation box 21, a conductive ring 44 is fixedly sleeved outside the insulating tube 43, the conductive ring 44 is slidably connected with the lower conductive elastic sheet 25, a push-out device 5 positioned above the driven bevel gear 42 is arranged outside the transmission shaft 41, the top end of the transmission shaft 41 penetrates through the top surface of the insulating isolation box 21 and the partition plate 102, an insulating sleeve 45 positioned above the push-out device 5 is fixedly sleeved outside the transmission shaft 41, the insulating sleeve 45 movably penetrates through the top surface of the insulating isolation box 21 and the partition plate 102, the upper conductive elastic sheet 23 is slidably connected with the surface of the insulating sleeve 45, a displacement device 6 positioned above the partition plate, the conducting strip 46 is fixedly embedded on the surface of the insulating sleeve 45, the conducting ring 47 is fixedly embedded at the top end of the insulating sleeve 45, the conducting ring 47 is electrically connected with the conducting ring 44 through a conducting wire, the conducting strip 48 is fixedly embedded on the surface of the insulating sleeve 45, the top end of the conducting strip 48 is fixedly connected with the conducting ring 47, the conducting strip 48 and the conducting strip 46 are alternately distributed, the conducting arc-shaped elastic piece 49 is fixedly connected on the surface of the conducting strip 48, and the conducting arc-shaped elastic piece 49 is matched with the conducting strip 46.

The pushing device 5 comprises a circular tray 501, the circular tray 501 is fixedly sleeved outside the transmission shaft 41 and is positioned inside the insulating isolation box 21, a limiting sleeve ring 502 is movably sleeved outside the circular tray 501, the top end of the limiting sleeve ring 502 is fixedly connected with a flywheel 503, limiting strips 504 are fixedly connected on the bottom surface of the flywheel 503, the number of the limiting strips 504 is four, the limiting strips 504 are matched with clamping blocks 316, a track groove 505 is formed in the side surface of the flywheel 503, the track of the inner wall of the track groove 505 is in a four-pointed star shape, the limiting strips 504 correspond to the concave part on the track groove 505, a central hole 506 is formed in the middle of the top surface of the flywheel 503, the transmission shaft 41 is movably inserted into the central hole 506, an energy storage spring 507 is arranged inside the central hole 506, one end of the energy storage spring 507 is fixedly connected with the surface of the transmission shaft 41, and the other end, an ejection rod 508 is movably inserted into the track groove 505, the end of the ejection rod 508 is in contact connection with the inner wall of the track groove 505, the right end of the ejection rod 508 is movably inserted into the right side of the insulating isolation box 21 and is fixedly connected with an ejection plate 509, the right side of the ejection plate 509 is in contact connection with the left side of a detected battery 120, a pull-back rod 510 located above the ejection rod 508 is fixedly connected onto the left side of the ejection plate 509, the left end of the pull-back rod 510 extends into the insulating isolation box 21 and is movably sleeved with a guide pipe 511, the right end of the guide pipe 511 is fixedly connected with the right side of the inner cavity of the insulating isolation box 21, a fixing plate 512 is fixedly connected to the left end of the guide pipe 511, the top end of the fixing plate 512 is fixedly connected with the top surface of the inner cavity of the insulating isolation box 21, and the left side of the inner cavity of the guide pipe is in transmission connection with the pull-back rod.

The displacement device 6 comprises a rotating disk 61, the rotating disk 61 is fixedly sleeved outside an insulating sleeve 45, the bottom surface of the rotating disk 61 is in contact connection with a ball 100, four accommodating grooves 62 are formed in the side surface of the rotating disk 61, the four accommodating grooves 62 are uniformly distributed on the side surface of the rotating disk 61, the accommodating grooves 62 correspond to an inward moving opening 103 and an outward moving opening 104, a clamping device 7 is arranged on the inner wall of the accommodating grooves 62, a fixed cavity 63 is formed in the rotating disk 61, the top end of the insulating sleeve 45 extends into the fixed cavity 63, a cylindrical cavity 64 is formed in the rotating disk 61, a limiting piston 66 is connected to the inner wall of the cylindrical cavity 64 in a transmission mode through a return spring 65, the limiting piston 66 is in sliding connection with the inner wall of the cylindrical cavity 64, a force applying rod 67 is fixedly inserted into the limiting piston 66, one end of the force applying rod 67, the other end of the force application rod 67 extends to the inside of the accommodating groove 62 and is in contact connection with the battery 112 to be detected, the middle of the top surface of the rotating disc 61 is fixedly connected with the fixed vertical tube 68, and the top end of the fixed vertical tube 68 is provided with the ratchet 69.

The clamping device 7 comprises a clamping plate 71 and an adapting groove 73, the clamping plate 71 is movably inserted into the inner wall of the accommodating groove 62 and extends to the outside of the rotating disk 61, the limiting arc plate 72 is fixedly connected with the inner wall, the clamping plate 71 is in contact connection with the battery 112 to be detected, the limiting arc plate 72 is in contact connection with the surface of the rotating disk 61, the adapting groove 73 is formed in the side surface of the rotating disk 61, and the inner wall of the adapting groove 73 is in transmission connection with the limiting arc plate 72 through a drawing spring 74.

The detection device 8 comprises a positioning cylinder 801, the top end of the positioning cylinder 801 is fixedly connected with the top surface of the inner cavity of the cylindrical box 101, the top surface of the inner cavity of the positioning cylinder 801 is in transmission connection with an extrusion cylinder 803 through an extrusion spring 802, the top end of the extrusion cylinder 803 is movably inserted in the positioning cylinder 801, the inner wall of the extrusion cylinder 803 is fixedly connected with a cross 804, the outer part of the cross 804 is movably sleeved with a roller 805, the top end of a fixed vertical pipe 68 is movably inserted in the extrusion cylinder 803, the roller 805 is movably clamped in the ratchet 69, a displacement groove 806 is formed in the surface of the positioning cylinder 801, a displacement arm 807 is fixedly connected to the surface of the extrusion cylinder 803, the other end of the displacement arm 807 passes through the displacement groove 806 and is fixedly connected with an insulating displacement plate 808, a conductive cylinder 809 is fixedly connected to the bottom surface of the insulating displacement plate 808, a conductive guide plate 811 is in transmission connection with the top surface of the inner cavity of the conductive, the bottom surface of the conductive guide plate 811 is fixedly connected with a conductive contact 812, the bottom end of the conductive contact 812 extends to the outside of the conductive cylinder 809 and is in contact connection with a terminal on the battery 112 to be detected, the detection lines on the first detector 113 and the second detector 114 extend to the inside of the conductive cylinder 809 and are fixedly connected with the top surface of the conductive guide plate 811, the detection lines are movably inserted on the top surface of the conductive cylinder 809 and the insulation displacement plate 808, and the upper wiring board 22, the upper conductive elastic sheet 23, the corresponding conductive strips 46, the conductive arc-shaped elastic sheet 49, the conductive sheet 48, the conductive ring 47, the conductive ring 44, the lower conductive elastic sheet 25, the lower wiring board 24 and the intelligent controller 108 can form an instant circuit.

The working principle is as follows:

firstly, the intelligent controller 108 starts the power supply of the new energy automobile battery production detection table, then the power supplies of the moving-in motor 121 and the moving-out motor 122 are directly connected, then the moving-in motor 121 drives the moving-in conveyor belt 111 to rotate clockwise by the moving-in support shaft 109 and the moving-in support roller 110, the moving-out motor 122 drives the moving-out conveyor belt 119 to rotate clockwise by the moving-out support shaft 117 and the moving-out support roller 118, then the batteries 112 to be detected are placed on the top surface of the moving-in conveyor belt 111 at intervals, the side, away from the binding post, of the batteries 112 to be detected faces the cylindrical box 101, then the moving-in conveyor belt 111 drives the batteries 112 to be detected to move rightwards, then the batteries 112 to be detected pass through the moving-in pipe 105 and are inserted into the accommodating groove 62 on the left side of the rotating disc 61, then the battery 112 to be detected applies a pushing force to the clamping plate 71 under the guiding action of the clamping plate 71, then the clamping plate 71 drives the limit arc plate 72 to move under the action of the pushing force, so that the limit arc plate 72 is separated from the rotating disk 61, then the battery 112 to be detected contacts with the end part of the force application rod 67 and applies the pushing force to the end part, then the force application rod 67 moves towards the inside of the fixed cavity 63 under the action of the pushing force, then the battery 112 to be detected crosses the clamping plate 71, then the limit arc plate 72 drives the clamping plate 71 to reset under the action of the elastic pulling force of the pulling spring 74, then the clamping plate 71 clamps the battery 112 to be detected, then the force application rod 67 applies a pressure to the conductive arc-shaped elastic sheet 49 on the left side surface of the insulating sleeve 45, so that the conductive arc-shaped elastic sheet 49 is elastically bent, and then the conductive sheet 48 on the left side surface of the insulating sleeve 45, the upper wiring board 22, the upper conductive elastic sheet 23, the corresponding conductive strip 46, the conductive arc-shaped elastic sheet 49, the conductive sheet 48, the conductive ring 47, the conductive ring 44, the lower conductive elastic sheet 25, the lower wiring board 24 and the intelligent controller 108 form an instantaneous circuit, namely the intelligent controller 108 receives a strain signal, then the intelligent controller 108 controls the servo motor 26 to start and slowly rotate the output shaft of the servo motor 26 by ninety degrees, then the output shaft of the servo motor 26 drives the bevel gear 27 to be meshed with the driven bevel gear 42, the transmission shaft 41, the insulating sleeve 45 and the displacement device 6 to drive the battery 112 to be detected to slowly rotate by ninety degrees counterclockwise by taking the transmission shaft 41 as a central axis, and after the insulating sleeve 45 rotates, the upper wiring board 22, the upper conductive elastic sheet 23, the corresponding conductive strip 46, the conductive arc-shaped elastic sheet 49, the conductive sheet 48, the conductive ring 47, the conductive ring, The intelligent controller 108 forms a transient circuit and is disconnected due to the separation of the upper conductive elastic sheet 23 and the conductive strip 46, in the process, the rotating disc 61 rotates with the fixed vertical pipe 68 anticlockwise, then the roller 805 rolls upwards on the inclined surface of the ratchet 69, then the roller 805 moves upwards with the extrusion cylinder 803 through the cross 804, then the extrusion cylinder 803 moves upwards with the displacement arm 807, the insulation displacement plate 808, the conductive cylinder 809, the conductive spring 810, the conductive guide plate 811 and the conductive contact 812 for the purpose of lifting, then when the battery 112 to be detected rotates anticlockwise slowly by taking the transmission shaft 41 as a central axis, the roller 805 just passes over the inclined surface of the ratchet 69, then the extrusion cylinder 803 moves downwards vertically by the cross 804 with the elastic force of the extrusion spring 802 until the roller 805 moves downwards vertically to a dead point position, and simultaneously the extrusion cylinder 803 carries the displacement arm 807, The insulation displacement plate 808, the conductive cylinder 809, the conductive spring 810, the conductive guide plate 811 and the conductive contact 812 vertically move downwards, then the conductive contact 812 is in contact connection with a binding post on the battery 112 to be detected, the battery 112 to be detected is at a first detection position at this time, then the first detector 113 detects the battery 112 to be detected, then the second battery 112 to be detected enters the displacement device 6 and is driven to rotate anticlockwise by ninety degrees, then the second battery 112 to be detected enters a first detection position, the first battery 112 to be detected enters a second detection position, then the first detector 113 detects the second battery 112 to be detected, the second detector 114 detects the first battery 112 to be detected, then the third battery 112 to be detected enters the displacement device 6 and is driven to rotate anticlockwise by ninety degrees, and then the third battery 112 to be detected enters a first detection position, the second battery 112 to be detected enters the second detection position, the bottom end of the first battery 112 to be detected is aligned with the shift-out opening 104, in the process, the transmission shaft 41 works on the energy storage spring 507 to increase the torsional potential energy of the energy storage spring 507, then the first battery 112 to be detected moves downwards under the action of gravity and passes through the shift-out opening 104, then the first battery 112 to be detected is in contact with the strain roller 310 and applies pressure to the strain roller 310, then the strain roller 310 applies pressure to the transmission steel wire 318 through the U-shaped part 309 and the buffer rod 308, then the transmission steel wire 318 bends downwards and pulls the lifting block 314 to move downwards, then the lifting block 314 drives the clamping block 316 to move downwards, then the clamping block 316 is separated from the limit strip 504, the limitation on the flywheel 503 is removed, at the moment, the first battery 112 to be detected is in contact with the positioning roller 304 and is separated from the clamping plate 71, and then the flywheel 503 rotates, then the ejector rod 508 moves along the track of the inner wall of the track groove 505, then the inner wall of the track groove 505 applies a pushing force to the ejector rod 508, then the ejector rod 508 pushes the first battery 112 to be detected to move towards the top surface of the moving-out conveyor belt 119 through the ejector plate 509, then the first battery 112 to be detected is separated from the strain roller 310, then the buffer piston 307 moves upwards through the buffer rod 308 and the U-shaped part 309 under the action of the elastic force of the buffer spring 306, when the buffer piston 307 contacts with the top surface of the inner cavity of the buffer cavity 305, the strain roller 310 does not obstruct the left-right movement of the ejector plate 509, then the lifting block 314 drives the clamping block 316 to move upwards under the action of the elastic force of the lifting spring 315 until the lifting block 314 contacts with the top surface of the inner cavity of the L-shaped flat pipe 311, at this time, the clamping block 316 can limit the flywheel 503 through the limit strip 504, then the ejector plate 509 pushes the first battery 112, then the end of the ejector rod 508 reaches the most protruding point on the track of the inner wall of the track groove 505, at this time, the first battery 112 to be detected moves to the top surface of the shift-out conveyor belt 119 to become the detected battery 120 and moves rightwards under the driving of the detected battery 120, then the end of the ejector rod 508 crosses the most protruding point on the track of the inner wall of the track groove 505, then the pull-back rod 510 drives the ejector rod 508 to move leftwards through the ejector plate 509 under the elastic pulling force of the pull-back spring 513 until the clamping block 316 is in contact connection with the limiting strip 504 to clamp the flywheel 503, at this time, the end of the ejector rod 508 is located at the most recessed position on the track of the inner wall of the track groove 505, so that the ejector plate 509 is reset, and the above steps are repeated, and the purpose of automatically and continuously detecting.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a new energy automobile battery production is with examining test table, includes transport mechanism (1), its characterized in that: the conveying mechanism (1) is internally provided with a rotating device (2), a strain device (3), a transmission device (4) and a detection device (8).

2. The new energy automobile battery production is with examining test table according to claim 1, characterized in that: the conveying mechanism (1) comprises a cylindrical box (101), a partition plate (102) is fixedly connected to the inner wall of the cylindrical box (101), balls (100) are movably embedded on the top surface of the partition plate (102), a moving-in opening (103) and a moving-out opening (104) are formed in the partition plate (102), a moving-in pipe (105) is fixedly communicated with the left side surface of the cylindrical box (101), the moving-in pipe (105) is fixedly communicated with the moving-in opening (103), a moving-in groove box (106) is fixedly communicated with the left end of the moving-in pipe (105), supporting legs (107) and an intelligent controller (108) are fixedly connected to the bottom surface of the moving-in groove box (106), moving-in supporting shafts (109) are arranged inside the moving-in groove box (106), the moving-in pipe (105) and the cylindrical box (101), the end portions of the moving-in supporting shafts (109) are movably sleeved with the inner walls of the moving-in groove box (106), the moving-in pipe (105), the back of the shift-in groove box (106) is fixedly provided with a shift-in motor (121), the shift-in motor (121) is controlled by an intelligent controller (108), an output shaft of the shift-in motor (121) is fixedly connected with the end part of a shift-in supporting shaft (109), a shift-in supporting roller (110) is fixedly sleeved outside the shift-in supporting shaft (109), the shift-in supporting rollers (110) are in transmission connection through a shift-in conveyor belt (111), the right end of the shift-in conveyor belt (111) is positioned inside the shift-in opening (103), the top surface of the shift-in conveyor belt (111) is flush with the top of the ball (100), batteries (112) to be detected are placed on the top surface of the shift-in conveyor belt (111) at intervals, a first detector (113) and a second detector (114) are fixedly arranged on the top surface of the cylindrical box (101), the first detector (113) and the second detector (114) are vertical to each other direction, and the, the first detector (113) and the moving-out opening (104) face opposite directions, the back of the cylindrical box (101) is fixedly communicated with a moving-out pipe (115), the moving-out pipe (115) is fixedly communicated with the moving-out opening (104), the other end of the moving-out pipe (115) is fixedly communicated with a moving-out groove box (116), moving-out supporting shafts (117) are respectively arranged inside the cylindrical box (101), the moving-out pipe (115) and the moving-out groove box (116), the end parts of the moving-out supporting shafts (117) are movably sleeved with the inner walls of the cylindrical box (101), the moving-out pipe (115) and the moving-out groove box (116), a moving-out motor (122) is fixedly arranged on the moving-out groove box (116), the moving-out motor (122) is electrically controlled by an intelligent controller (108), the output shaft of the moving-out motor (122) is fixedly connected with the end part of one moving-out supporting shaft (117, the shifting-out supporting rollers (118) are in transmission connection through a shifting-out conveyor belt (119), and the top surface of the shifting-out conveyor belt (119) is provided with detected batteries (120) at intervals.

3. The new energy automobile battery production is with examining test table according to claim 1, characterized in that: rotating device (2) are including insulating shielded box (21), the bottom surface of insulating shielded box (21) and the bottom surface fixed connection of cylindrical case (101) inner chamber, the top surface of insulating shielded box (21) and the bottom surface fixed connection of partition panel (102), wiring board (22) are gone up to fixedly connected with on the top surface of insulating shielded box (21) inner chamber, electrically conductive shell fragment (23) are gone up to fixedly connected with on the right flank of going up wiring board (22), fixedly connected with down wiring board (24) on the bottom surface of insulating shielded box (21) inner chamber, electrically conductive shell fragment (25) under fixedly connected with on the right flank of down wiring board (24), bolt fastening has servo motor (26) that are located electrically conductive shell fragment (25) right side down on the bottom surface of insulating shielded box (21) inner chamber, the fixed cover has connect drive bevel gear (27) on the output shaft of servo motor (26).

4. The new energy automobile battery production is with examining test table according to claim 1, characterized in that: the strain device (3) comprises a bearing seat (301), the surface of the bearing seat (301) is fixedly connected with the inner wall of a cylindrical box (101), the left side surface of the bearing seat (301) is fixedly connected with the right side surface of an insulating isolation box (21), an arc-shaped groove (302) is formed in the right side surface of the bearing seat (301), the left end of a moving-out conveyor belt (119) is positioned inside the arc-shaped groove (302), a mounting groove (303) is formed in the top surface of the bearing seat (301), a positioning roller (304) is fixedly connected to the inner wall of the mounting groove (303), the top of the positioning roller (304) is flush with the top surface of the moving-out conveyor belt (119), a buffer cavity (305) is formed in the bearing seat (301), a buffer piston (307) is connected to the bottom surface of the inner cavity of the buffer cavity (305) in a transmission manner through a buffer spring (306), the buffer piston (307) is connected with the inner wall of the buffer cavity (305) in a sliding, the top end of a buffer rod (308) extends into the mounting groove (303) and is fixedly connected with a U-shaped part (309), the inside of the U-shaped part (309) is movably connected with a strain roller (310), an L-shaped flat pipe (311) is fixedly inserted on the left side surface of a bearing seat (301), the other end of the L-shaped flat pipe (311) extends into an insulating isolation box (21), the bottom end of the buffer rod (308) extends into the L-shaped flat pipe (311), a guide wheel (312) is fixedly installed at the right end of the top surface of the inner cavity of the L-shaped flat pipe (311), a limiting slide rod (313) is fixedly connected between the upper surface and the lower surface of the inner cavity of the L-shaped flat pipe (311), a lifting block (314) and a jacking spring (315) are movably sleeved outside the limiting slide rod (313), the bottom end of the jacking spring (315) is fixedly connected with the bottom surface of the inner cavity of the L-shaped flat pipe (311), the top, the top surface fixedly connected with joint piece (316) of elevator (314), the top of joint piece (316) extends to the outside of the flat pipe of L type (311), fixedly connected with turning wheel (317) on the bottom surface of the flat pipe of L type (311) inner chamber, fixedly connected with transmission steel wire (318) on the bottom surface of elevator (314), turning wheel (317), leading wheel (312) are walked around to the other end of transmission steel wire (318), pass the bottom of buffer beam (308) and with the right flank fixed connection of the flat pipe of L type (311) inner chamber.

5. The new energy automobile battery production is with examining test table according to claim 1, characterized in that: the transmission device (4) comprises a transmission shaft (41), a driven bevel gear (42) is fixedly sleeved outside the transmission shaft (41), the driven bevel gear (42) is meshed with the driving bevel gear (27), an insulating tube (43) is fixedly sleeved at the bottom end of the transmission shaft (41), the bottom end of the insulating tube (43) is movably sleeved with the bottom surface of the inner cavity of the insulating isolation box (21), a conductive ring (44) is fixedly sleeved outside the insulating tube (43), the conductive ring (44) is in sliding connection with the lower conductive elastic sheet (25), a pushing-out device (5) positioned above the driven bevel gear (42) is arranged outside the transmission shaft (41), the top end of the transmission shaft (41) penetrates through the top surface of the insulating isolation box (21) and the partition plate (102), an insulating sleeve (45) positioned above the pushing-out device (5) is fixedly sleeved outside the transmission shaft (41), the insulating sleeve (45) movably penetrates through the top surface of the insulating isolation box (21) and the partition plate (102), go up conductive elastic sheet (23) and insulating sleeve's (45) surface sliding connection, insulating sleeve's (45) outside is equipped with displacement device (6) that are located partition panel (102) top, insulating sleeve's (45) fixed the inlaying in surface is equipped with conducting strip (46), insulating sleeve's (45) top is fixed the inlaying and is equipped with conducting ring (47), conducting ring (47) are connected with conducting ring (44) electricity through the wire, insulating sleeve's (45) fixed the inlaying in surface is equipped with conducting strip (48), the top and conducting ring (47) fixed connection of conducting strip (48), conducting strip (48) and conducting strip (46) alternate distribution, conducting strip's (48) fixed connection has conductive arc-shaped elastic sheet (49) on the surface, conductive arc-shaped elastic sheet (49) and conducting strip (46) looks adaptation.

6. The new energy automobile battery production is with examining test table according to claim 5, characterized in that: the pushing device (5) comprises a circular tray (501), the circular tray (501) is fixedly sleeved outside a transmission shaft (41) and is positioned inside an insulating isolation box (21), a limiting sleeve ring (502) is movably sleeved outside the circular tray (501), the top end of the limiting sleeve ring (502) is fixedly connected with a flywheel (503), limiting strips (504) are fixedly connected on the bottom surface of the flywheel (503), the number of the limiting strips (504) is four, the limiting strips (504) are matched with a clamping block (316), a track groove (505) is formed in the side surface of the flywheel (503), the track of the inner wall of the track groove (505) is in a four-pointed star shape, the limiting strips (504) correspond to concave parts on the track groove (505), a central hole (506) is formed in the middle part of the top surface of the flywheel (503), the transmission shaft (41) is movably inserted into the central hole (506), and an energy storage spring (507) is arranged inside the central hole (506), one end of an energy storage spring (507) is fixedly connected with the surface of a transmission shaft (41), the other end of the energy storage spring (507) is fixedly connected with the inner wall of a central hole (506), an ejector rod (508) is movably inserted in a track groove (505), the end part of the ejector rod (508) is in contact connection with the inner wall of the track groove (505), the right end of the ejector rod (508) is movably inserted in the right side surface of an insulating isolation box (21) and is fixedly connected with an ejector plate (509), the right side surface of the ejector plate (509) is in contact connection with the left side surface of a detected battery (120), a pull-back rod (510) positioned above the ejector rod (508) is fixedly connected on the left side surface of the ejector plate (509), the left end of the pull-back rod (510) extends into the insulating isolation box (21) and is movably sleeved with a guide pipe (511), the right end of the guide pipe (511) is fixedly connected with the right side surface of the inner cavity of the insulating isolation box (21), the left end of the guide tube (511) is fixedly connected with a fixing plate (512), the top end of the fixing plate (512) is fixedly connected with the top surface of the inner cavity of the insulating isolation box (21), and the left side surface of the inner cavity of the guide tube (511) is in transmission connection with a pull-back rod (510) through a pull-back spring (513).

7. The new energy automobile battery production is with examining test table according to claim 5, characterized in that: the displacement device (6) comprises a rotating disk (61), the rotating disk (61) is fixedly sleeved outside an insulating sleeve (45), the bottom surface of the rotating disk (61) is in contact connection with balls (100), four accommodating grooves (62) are formed in the side surface of the rotating disk (61), the four accommodating grooves (62) are uniformly distributed in the side surface of the rotating disk (61), the accommodating grooves (62) correspond to the moving-in opening (103) and the moving-out opening (104), a clamping device (7) is arranged on the inner wall of each accommodating groove (62), a fixed cavity (63) is formed in the rotating disk (61), the top end of the insulating sleeve (45) extends into the fixed cavity (63), a cylindrical cavity (64) is formed in the rotating disk (61), the inner wall of the cylindrical cavity (64) is connected with a limiting piston (66) through a reset spring (65) in a transmission manner, and the limiting piston (66) is in sliding connection with the inner wall of, fixed grafting is gone up in spacing piston (66) has application of force pole (67), the one end of application of force pole (67) extends to the inside of fixed chamber (63) and corresponding with electrically conductive arc shell fragment (49), the other end of application of force pole (67) extends to the inside of holding tank (62) and with wait to detect battery (112) contact and be connected, the fixed standpipe (68) of middle part fixedly connected with of rotary disk (61) top surface, ratchet (69) have been seted up on the top of fixed standpipe (68).

8. The new energy automobile battery production is with examining test table according to claim 7, characterized in that: clamping device (7) are including block board (71) and adaptation groove (73), block board (71) activity is pegged graft on the inner wall of holding tank (62) and is extended to the outside of rotary disk (61) and spacing arc board (72) of fixedly connected with, block board (71) and wait to detect battery (112) contact and be connected, spacing arc board (72) are connected with the surface contact of rotary disk (61), adaptation groove (73) are seted up on the side of rotary disk (61), the inner wall in adaptation groove (73) is connected with spacing arc board (72) transmission through tractive spring (74).

9. The new energy automobile battery production is with examining test table according to claim 1, characterized in that: the detection device (8) comprises a positioning barrel (801), the top end of the positioning barrel (801) is fixedly connected with the top surface of the inner cavity of the cylindrical box (101), the top surface of the inner cavity of the positioning barrel (801) is in transmission connection with an extrusion barrel (803) through an extrusion spring (802), the top end of the extrusion barrel (803) is movably inserted into the positioning barrel (801), the inner wall of the extrusion barrel (803) is fixedly connected with a cross (804), the outer part of the cross (804) is movably sleeved with a roller (805), the top end of a fixed vertical pipe (68) is movably inserted into the ratchet of the extrusion barrel (803), the roller (805) is movably clamped inside a ratchet (69), a displacement groove (806) is formed in the surface of the positioning barrel (801), a displacement arm (807) is fixedly connected to the surface of the extrusion barrel (803), the other end of the displacement arm (807) penetrates through the displacement groove (806) and is fixedly connected with an insulating displacement plate, the bottom surface of the insulation displacement plate (808) is fixedly connected with a conductive cylinder (809), the top surface of the inner cavity of the conductive cylinder (809) is connected with a conductive guide plate (811) through a conductive spring (810) in a transmission manner, the conductive guide plate (811) is connected with the inner wall of the conductive cylinder (809) in a sliding manner, the bottom surface of the conductive guide plate (811) is fixedly connected with a conductive contact (812), the bottom end of the conductive contact (812) extends to the outside of the conductive cylinder (809) and is connected with a binding post on a battery (112) to be detected in a contact manner, detection lines on a first detector (113) and a second detector (114) extend to the inside of the conductive cylinder (809) and are fixedly connected with the top surface of the conductive guide plate (811), and the detection lines are movably inserted in the top surface of the conductive cylinder (809.

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