CN108759750A - New energy cell inspection equipment - Google Patents

New energy cell inspection equipment Download PDF

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Publication number
CN108759750A
CN108759750A CN201810562621.7A CN201810562621A CN108759750A CN 108759750 A CN108759750 A CN 108759750A CN 201810562621 A CN201810562621 A CN 201810562621A CN 108759750 A CN108759750 A CN 108759750A
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CN
China
Prior art keywords
block
mounting plate
weight
cylinder
battery
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
CN201810562621.7A
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Chinese (zh)
Inventor
练国瑛
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Individual
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Individual
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Application filed by Individual filed Critical Individual
Priority to CN201810562621.7A priority Critical patent/CN108759750A/en
Publication of CN108759750A publication Critical patent/CN108759750A/en
Priority to CN201910149366.8A priority patent/CN109781046A/en
Withdrawn legal-status Critical Current

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B21/00Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
    • G01B21/02Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B21/00Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
    • G01B21/02Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness
    • G01B21/08Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness for measuring thickness
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
    • G06K7/10009Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves
    • G06K7/10366Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves the interrogation device being adapted for miscellaneous applications
    • G06K7/10415Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves the interrogation device being adapted for miscellaneous applications the interrogation device being fixed in its position, such as an access control device for reading wireless access cards, or a wireless ATM
    • G06K7/10425Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves the interrogation device being adapted for miscellaneous applications the interrogation device being fixed in its position, such as an access control device for reading wireless access cards, or a wireless ATM the interrogation device being arranged for interrogation of record carriers passing by the interrogation device
    • G06K7/10435Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves the interrogation device being adapted for miscellaneous applications the interrogation device being fixed in its position, such as an access control device for reading wireless access cards, or a wireless ATM the interrogation device being arranged for interrogation of record carriers passing by the interrogation device the interrogation device being positioned close to a conveyor belt or the like on which moving record carriers are passing

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Electromagnetism (AREA)
  • General Health & Medical Sciences (AREA)
  • Artificial Intelligence (AREA)
  • Computer Vision & Pattern Recognition (AREA)
  • Theoretical Computer Science (AREA)
  • Length Measuring Devices With Unspecified Measuring Means (AREA)

Abstract

The present invention relates to technical field of new energy production.New energy cell inspection equipment, including rack and linear measure longimetry mechanism thereon, linear measure longimetry mechanism carry out linear measure longimetry to battery.New energy cell inspection equipment advantage is can accurately to measure the length of battery.

Description

New energy cell inspection equipment
Technical field
The present invention relates to the inspection equipment of technical field of new energy production, especially new energy battery.
Background technology
New energy battery especially needs after lithium battery assembly is completed through inspection, including battery performance is examined, bar code Scanning inspection and appearance and size are examined, and what battery performance had inspected also needs to remove battery pole ear connector.On existing It is all separately to be operated to state three kinds of inspections, and operation is time-consuming and laborious, and checkability is low.
Invention content
The purpose of the invention is to provide a kind of new energy cell inspection equipment being automatically performed battery length inspection;This Invention another purpose be to provide it is a kind of be automatically performed battery performance examine, bar code scan examine and appearance and size examine it is new Energy battery examines equipment.
To achieve the goals above, present invention employs following technical schemes:New energy cell inspection equipment, including rack And linear measure longimetry mechanism thereon, linear measure longimetry mechanism carry out linear measure longimetry to battery;
Linear measure longimetry mechanism includes linear measure longimetry mechanism base, width clamping device, support board, measuring device mounting plate, plate Locating piece, displacement sensor, flat-pushing module, wide block and long block;Linear measure longimetry mechanism base is mounted in rack, measures dress Mounting plate is set on linear measure longimetry mechanism base, support board is on measuring device mounting plate;Support board and measuring device Mounting plate is fixed by plate locating piece;Wide block and long block are fixedly mounted on support board;Width clamping device fixes peace On measuring device mounting plate, width clamping device is oppositely arranged with wide block, and width clamping device is with wide block in width Battery movement is limited on direction;Flat-pushing module is fixedly mounted on measuring device mounting plate, and flat-pushing module is set in opposite directions with long block It sets, flat-pushing module is used to measure the clamping on battery length direction to be measured with long block;Displacement sensor is mounted on to measure and fill It sets on mounting plate;Displacement sensor and flat-pushing module contact;
Width clamping device includes width clamping cylinder and width clamping plate, width clamping cylinder drive width clamping plate close or Far from width block;
Flat-pushing module includes weight, the 6th cylinder, crossed roller guide rail, weight supporting block, slider support seat, the limit of the first sliding block Block, linear measure longimetry pushing block, flat-pushing sliding block, linear measure longimetry pushing block supporting block and the second sliding block limited block;Weight supporting block is mounted on Below measuring device mounting plate;Weight shaft is installed in weight supporting block;Slider support seat is mounted on measuring device mounting plate Top, crossed roller guide rail and the flat-pushing sliding block of support are mounted on slider support seat;First sliding block limited block and the second sliding block limit Position block is fixedly mounted on measuring device mounting plate, and the first sliding block limited block is located at flat-pushing sliding block dead astern;Second sliding block limits Block is located in front of flat-pushing sliding block passes through spring supporting between the second sliding block limited block and flat-pushing sliding block;Linear measure longimetry pushing block supporting block On flat-pushing sliding block;Linear measure longimetry pushing block for being contacted with mesuring battary is mounted on linear measure longimetry pushing block supporting block end End;6th cylinder is installed on immediately below measuring device mounting plate, and the 6th cylinder end is for agitating weight;
Displacement sensor end is contacted with linear measure longimetry pushing block, and linear measure longimetry pushing block moves forward, the survey of compression displacement sensor Measure head.
Preferably, being additionally provided with rotating disk mechanism, battery core mechanism for testing, connector separating mechanism, barcode scanning mechanism, in rack One unqualified conveying mechanism, Width measurement mechanism, thickness measure mechanism, linkage manipulator and discharging mechanism;
Rotating disk mechanism is for driving battery to move;Battery core mechanism for testing is used to carry out performance detection to battery;Connector seperator Structure is used for battery top electrode connector lock out operation;Barcode scanning mechanism is used to be scanned the bar code on battery reverse side, and will Battery is moved to linear measure longimetry mechanism or the first unqualified conveying mechanism;Linear measure longimetry mechanism, Width measurement mechanism and thickness are surveyed Measuring mechanism is on same straight line, and Width measurement mechanism carries out width measurement to battery, and thickness measure mechanism carries out battery thick Degree measures;Linkage manipulator is used to carry the battery on linear measure longimetry mechanism and Width measurement mechanism;Discharging mechanism is used for will be complete It is transported at the battery of detection;
Rotating disk mechanism includes motor reducer, pneumatic jacking device, index dial and carrier;
Motor reducer connects index dial;Rule setting feeding station, performance detection station, connector separation successively on index dial Station and barcode scanning discharge station;Carrier is four, is separately mounted on four stations of index dial.
Further, linkage manipulator includes linkage manipulator firm banking, servo motor driving system, transverse shifting peace Loading board, optoelectronic switch, transverse slider, upright slide block, interlocking mechanism device, catch and the 5th cylinder;Servo motor driving system On linkage manipulator firm banking, transverse slider is mounted on servo motor driving system, and transverse slider is in servo electricity Transverse shifting in machine drive system;Transverse shifting mounting plate is fixedly mounted on transverse slider, and upright slide block, which is mounted on, laterally to be moved On dynamic mounting plate;5th cylinder upper end is fixedly mounted on transverse shifting mounting plate, and the 5th cylinder lower end connects interlocking mechanism device, Interlocking mechanism device is mounted on upright slide block, and the 5th cylinder drives interlocking mechanism device to move up and down;Optoelectronic switch fixes peace Mounted in servo motor driving system lower end, three optoelectronic switches are at a distance of certain spacing;Catch is fixedly mounted on transverse slider;
Interlocking mechanism device includes sucker, sucker mounting rod, sucker mounting rod pedestal, aluminium section bar, vertically movable mounting plate, air-breathing Equipment, buffer, the first vertical spacing mounting plate, the second vertical spacing mounting rod;Vertically movable mounting plate is installed on vertical cunning On block, vertically movable mounting plate can move in the vertical direction, aluminium section bar, suction device, the installation of the second vertical spacing mounting rod On vertically movable mounting plate;First vertical spacing mounting plate is mounted on transverse shifting mounting plate;Two buffers are pacified respectively On the first vertical spacing mounting plate and the second vertical spacing mounting rod;Three sucker mounting rod pedestals are evenly distributed on aluminium profiles On material, sucker mounting rod is mounted on sucker mounting rod pedestal, and there are two suckers for the installation of each sucker mounting rod end;Length is surveyed The straight line that measuring mechanism, Width measurement mechanism and thickness measure mechanism are arranged in is parallel with aluminium section bar.
Further, thickness measure mechanism include thickness measure mechanism pedestal, stir device, the 7th cylinder, the 7th cylinder it is solid Determine block, thickness measure holder, pressing plate and inductor;Thickness measure mechanism floor installation is in rack;Thickness measure holder is installed On thickness measure mechanism pedestal;7th cylinder fixed block is mounted below thickness measure holder, and the 7th cylinder is mounted on the 7th In cylinder fixed block, the 7th Telescopic-cylinder bar connects pressing plate, and the 7th cylinder control pressing plate moves up and down;Inductor is mounted on pressure On plate side plate;Device is stirred on thickness measure holder side;
Thickness measure holder include thickness measure mounting plate, transition block, side plate, side plate reinforcement block, thickness measure weight supporting block, Thickness measure weight, thickness measure upper limit position block, roller guide rail;Thickness measure mounting plate is mounted on thickness measure mechanism pedestal On;Transition block is installed on thickness measure mounting plate;Installation side plate is fixed with thickness measure mounting plate by side plate reinforcement block, thick Degree measures weight supporting block and is mounted on side plate reinforcement block;
Thickness measure weight includes movement weight pulley, weight mounting rod, weight body, weight installation bolt, weight shaft;In weight body Heart hole passes through weight mounting rod, and weight installation bolt is by being threadably mounted at weight mounting rod one end and by weight installation bolt Fastening;Weight mounting rod connects thickness measure weight supporting block by weight shaft, and thickness measure weight is along weight shaft in weight It is rotated in hammer supporting block;Movement weight pulley is movably arranged on the weight mounting rod other end, and movement weight pulley is contacted with pressing plate, controls thickness Measure weight rotation;Thickness measure weight supporting block erection support is equipped with U-type groove, and the bottom of U-type groove is opened by proximal panel side There is angle;
Thickness measure upper limit position block is mounted on side plate upper end;Roller guide rail is mounted on side plate both sides;
Device is stirred to include the 8th cylinder, stir guide rail, stir sliding block, plectrum, the first plectrum support chip and the second plectrum support chip; Guide rail is stirred on thickness measure mounting plate, the 8th cylinder connects the second plectrum support chip and stirs guide rail, the 8th cylinder It drives the second plectrum support chip and stirs guide rail movement;Second plectrum support chip is mounted on and stirs on sliding block, the support of the second plectrum On piece is equipped with the first U-type groove and the second U-type groove, and the telescopic rod end of the 8th cylinder is embedded in the second U-type groove, the 8th cylinder operation band Dynamic second plectrum support chip movement, the first plectrum support chip respectively with stir sliding block and the second plectrum support chip is connected, plectrum is pacified On the first plectrum support chip.
The new energy cell inspection equipment of above-mentioned technical proposal is used, advantage is can accurately to measure the length of battery Degree.By the cooperation with other components, battery performance inspection, battery bar code scanning inspection and battery appearance can be automatically finished Dimension control, checkability are high.
Description of the drawings
Fig. 1 is the structural schematic diagram of the embodiment of the present invention.
Fig. 2 is the structural schematic diagram of the rotating disk mechanism of the embodiment of the present invention.
Fig. 3 is the configuration schematic diagram of the pneumatic jacking device of the embodiment of the present invention.
Fig. 4 is the structural blast structural schematic diagram of the carrier of the embodiment of the present invention.
Fig. 5 is the configuration schematic diagram of the battery core mechanism for testing of the embodiment of the present invention.
Fig. 6 is the configuration schematic diagram of the connector separating mechanism of the embodiment of the present invention.
Fig. 7 is the configuration schematic diagram of the barcode scanning device of the embodiment of the present invention.
Fig. 8 is the configuration schematic diagram of the linkage manipulator of the embodiment of the present invention.
Fig. 9 is the configuration schematic diagram of the interlocking mechanism device of inventive embodiments.
Figure 10 is the structural schematic diagram of the linear measure longimetry mechanism of inventive embodiments.
Figure 11 is the configuration schematic diagram of the flat-pushing module of inventive embodiments.
Figure 12 is the configuration schematic diagram of the Width measurement mechanism of inventive embodiments.
Figure 13 is the configuration schematic diagram of the thickness measure mechanism of inventive embodiments.
Figure 14 is the configuration schematic diagram of the thickness measure holder of inventive embodiments.
Figure 15 is the structural schematic diagram of the thickness measure weight of inventive embodiments.
Figure 16 is the structural schematic diagram for stirring device of inventive embodiments.
Figure 17 is the configuration schematic diagram of the shunting manipulator of inventive embodiments.
Specific implementation mode
The present invention is described further with reference to Fig. 1-Figure 17.
The new energy cell inspection equipment as shown in Fig. 1-Figure 17, including rack 1, rotating disk mechanism 12, battery core mechanism for testing 15, connector separating mechanism 14, barcode scanning mechanism 5, the first unqualified conveying mechanism 3, linear measure longimetry mechanism 9, Width measurement mechanism 8, thickness measure mechanism 6, linkage manipulator 10 and discharging mechanism 2.
Rack 1 includes rack main structure and air pump three linked piece, and rack main structure bottom is provided with universal wheel and fot screw. Air pump three linked piece is used to provide power source for pneumatic element in equipment.
Rotating disk mechanism 12 is for driving battery to move, to adapt to battery core mechanism for testing 15, connector separating mechanism 14 and sweep Operation of the ink recorder structure 5 to battery;Battery core mechanism for testing 15 is used to carry out performance detection to battery;Connector separating mechanism 14 is used for To battery top electrode connector lock out operation;Barcode scanning mechanism 5 moves battery for being scanned to the bar code on battery reverse side It moves to 9 or the first unqualified conveying mechanism 3 of linear measure longimetry mechanism;Linear measure longimetry mechanism 9, Width measurement mechanism 8 and thickness measure Mechanism 6 is on same straight line, and linkage manipulator 10 is used to carry the battery in linear measure longimetry mechanism 9 and Width measurement mechanism 8, The battery in linear measure longimetry mechanism 9 is transported on Width measurement mechanism 8, the battery on Width measurement mechanism 8 is transported to Thickness measure mechanism 6;Linear measure longimetry mechanism 9 carries barcode scanning mechanism 5 on the battery come and carries out linear measure longimetry;Width measurement mechanism 8 Width measurement is carried out to battery, thickness measure mechanism 6 carries out thickness measure to battery;Discharging mechanism 2 is used to complete detection Battery transports.
As shown in Figure 2, Figure 3 and Figure 4, rotating disk mechanism 12 includes motor reducer 121, optoelectronic induction structure 122, pneumatic top Rise device 123, turntable mounting plate shelves ring 124, index dial 125, carrier 126, turntable mounting plate end cap 127, dispenser 128, same Step band component 129.
Motor reducer 121 is fixed in rack 1, and on 128 installation frame 1 of dispenser, motor reducer 121 passes through segmentation Device 128 connects index dial 125.Optoelectronic induction structure 122 is installed on 128 input shaft one end of dispenser, and photoelectric sensor is installed on On dispenser shell, optoelectronic induction structure 122 adjusts electricity for detecting 128 input shaft rotating speed of dispenser according to testing result Machine rotating speed.Pneumatic jacking device 123 is installed in rack 1, and pneumatic jacking device 123 is connected with equipment air source, and when work is pneumatic Jacking apparatus 123 jacks, and so that clamping device on carrier 126 is discharged, battery is in non-clamp position, when pneumatic jacking device 123 It withdraws, gripping means grips battery on carrier 126.Turntable mounting plate shelves ring 124 is placed on dispenser 128, is located at turntable and is installed The lower section of plate 125,124 upper bolt hole position of turntable mounting plate shelves ring respectively with 125 upper bolt hole pair of dispenser 128 and turntable mounting plate It answers, turntable mounting plate shelves ring 124 is for connecting and fixed turntable mounting plate 125 and dispenser 128.Turntable mounting plate 125 is installed On dispenser 128 and turntable mounting plate shelves ring 124, for installing carrier 126, turntable mounting plate 125 links with dispenser. Carrier 126 is mounted on being symmetrically installed on position on turntable mounting plate 125.Turntable mounting plate end cap 127 is located at turntable mounting plate Above in the of 125, eight bolts hole and bolt in turntable mounting plate 125, turntable mounting plate shelves ring 124 on turntable mounting plate end cap 127 Hole corresponds to, and turntable mounting plate end cap 127 is for fixing turntable mounting plate 125 in dispenser 128, it is therefore an objective to allow turntable mounting plate 125 move with carrier 126 thereon with dispenser 128 together.On 128 installation frame 1 of dispenser, 128 top output of dispenser Device is connected with turntable mounting plate 125, and dispenser 128 has the characteristics that indexing accuracy height, low noise, operates steadily, dispenser 128, for realizing intermittent exercise, allow battery that can enter corresponding correct station and are processed detection.Synchronous belt and synchronous pulley 129 lower ends are installed on speed reducer output shaft, and upper end is connected with dispenser input shaft, and dispenser 128 is used for motor reducer 121 It is transmitted with 128 power of dispenser.Rule setting feeding station, performance detection station, connector detach work successively on index dial 125 Position and barcode scanning discharge station;Carrier 126 is four, is separately mounted on four stations of index dial 125.
Pneumatic jacking device 123 is fixed in rack 1, and pneumatic jacking device 123 is in below carrier, pneumatic jacking device 123 be two groups, and two groups of pneumatic jacking devices 123 distinguish corresponding performance detection station, connector detaches the carrier 126 on station, The clamped condition of the battery in carrier 126 on performance detection station and connector separation station of pneumatic jacking device 123.
Pneumatic jacking device 123 includes the first cylinder 1231, lifting body fixed plate 1232, infrared inductor mounting plate 1233, the first inductor 1234 and two groups of jacking components, jacking component includes pulley 1235 and jacking post 1236;First cylinder 1231 are fixed in rack 1, and the first cylinder 1231 is connected with air source, are acted on decline for providing jacking.First cylinder 1231 It is solid mounted on lifting body that output end connects lifting body fixed plate 1232, infrared inductor mounting plate 1233 and jacking post 1236 On fixed board 1232, the first inductor 1234 is mounted on infrared inductor mounting plate 1233, and the first inductor 1234 is for detecting Whether there is battery in carrier 126;Pulley 1235 is mounted in jacking post 1236, two 1235 axially vertical settings of pulley, two Pulley 1235 is respectively used to clamping force in control 126 long wide direction of carrier.
Clamp assembly of the carrier 126 including carrier platen 1261 and thereon, carrier platen 1261 are arranged in index dial 125 On, carrier platen 1261 is equipped with the first sliding groove and second sliding slot, and the first sliding groove and second sliding slot are vertically arranged;Clamp assembly is It vertically disposed two groups, is moved respectively along the first sliding groove and second sliding slot.
Clamp assembly includes battery pole piece fixed plate 126a, battery fixed block 126b, fold bar 1264, fold bar mounting base 1266, clamper locating piece 1267, moving rail 1263, plush copper axis pin 1260 and fastening spring 1265;Turn down the position of bar 1264 Right over pulley 1235, the shaft of fold bar 1264 is fitted in fold bar mounting base 1266, turns down bar mounting base 1266 upper ends are fixedly installed on carrier platen 1261, and 1267 position of clamper locating piece is adjustable to be mounted on moving rail 1263, The position on moving rail 1263 is mounted on to adapt to different size of battery by adjusting clamper locating piece 1267;Plush copper axis pin 1260 one end have plush copper, the other end to be fixed on moving rail 1263, and fold bar mounting base 1266 is coordinated by prismatic pair pacifies On plush copper axis pin 1260, fastening spring 1265 is socketed in plush copper and turns down the plush copper axis pin 1260 between bar mounting base 1266 On;The battery pole piece positions fixed plate 126a are oppositely arranged with one piece of clamper locating piece 1267, the battery positions fixed block 126b with Another piece of clamper locating piece 1267 is oppositely arranged.
For carrier 126 in use, the first cylinder 1231 control pulley 1235 rises, pulley 1235 pushes fold bar 1264 around axis It rotates clockwise, to push clamper locating piece 1267 to be displaced outwardly, battery pole piece fixed plate 126a, battery fixed block 126b It is remote apart from change with two pieces of clamper locating pieces 1267 respectively so that the placement region on carrier platen 1261 becomes larger, the first induction After device 1234 detects battery in place, the first cylinder 1231 resets, and pushes clamper locating piece 1267 to move inward, two pieces of clampers Locating piece 1267 coordinates battery pole piece fixed plate 126a, battery fixed block 126b to clamp battery, and specifically battery pole piece is stuck in electricity On the pole piece fixed plate 126a of pond, one piece of clamper locating piece 1267 clamps the battery end of the battery pole piece other end, and battery is fixed Block 126b clamps battery in opposite directions with another piece of clamper locating piece 1267.
Rotating disk mechanism 12 in use, be put into battery to be detected on the carrier 126 of feeding station, light curtain detect light curtain not by It blocks, rotating disk mechanism 12 is run, and the carrier 126 and its interior battery on feeding station turn to performance detection station, pneumatic to push up It rises device 123 to fix battery, battery performance is detected by battery core mechanism for testing 15;Then rotating disk mechanism 12 continues to run with, performance Carrier 126 and its interior battery in detection station turn to connector separation station, and pneumatic jacking device 123 consolidates battery Fixed, connector separating mechanism 14 removes the connector on battery pole piece;Rotating disk mechanism 12 is run, and connector detaches on station Carrier 126 and its interior battery turn to barcode scanning discharge station.
As shown in figure 5,15 position of battery core mechanism for testing corresponds to the performance detection station on index dial 125;Battery core test machine Structure 15 includes mounting bracket 151, engaged test head mounting plate 152, engaged test head 153, sliding shoe 154, sliding shoe fixed block 155, the second cylinder 156 and limiting device 157.Mounting bracket 151 is fixedly mounted in rack 1, and the second cylinder 156 is mounted on peace It fills on holder 151, the second cylinder 156 is connected with air source, and the second cylinder 156 is for changing 153 front and back position of engaged test head;The Two cylinders 156 connect sliding shoe 154, have sliding slot in sliding shoe 154, can be in the flexible side of 156 the second cylinder of upper edge 156 of the second cylinder To sliding;Sliding shoe fixed block 155 is mounted on sliding shoe 154, is limited for sliding shoe;Limiting device 157 is mounted on second On cylinder 156, when sliding shoe 154 is contacted with limiting device 157, sends out signal and continued to run with stopping the second cylinder 156;It connects It touches measuring head mounting plate 152 to be mounted on sliding shoe 154, engaged test head 153 is fixed on engaged test head mounting plate 152. Engaged test head 153 is moved in 156 telescopic direction of the second cylinder, and detection battery performance, Huo Zheyuan are contacted with battery pole piece 1263 From battery pole piece 1263, avoid interfering when carrier 126 is run.
For battery core mechanism for testing 15 in use, pneumatic jacking device 123 fixes battery, battery core mechanism for testing 15 examines performance It surveys battery in the carrier 126 at station and carries out performance detection, air source pushes the second cylinder 156 to stretch, engaged test head 153 and electricity Pole piece contact in pond sends out letter when sliding shoe fixed block 155 is contacted with a part for limiting device 157 on battery core mechanism for testing 15 Number stop the second cylinder 156 movement, battery core mechanism for testing 15 is tested for the property battery, and after the completion of test, air source makes second Cylinder 156 is shunk, and engaged test head 153 is detached with battery pole piece, sliding shoe fixed block 155 and limit on battery core mechanism for testing 15 157 another part of device contacts, and the second cylinder 156 stops shrinking, and battery is detected in performance detection station and completed.
As shown in fig. 6,14 position of connector separating mechanism is correspondingly connected with device separation station;Connector separating mechanism 14 includes Detachable base 141, third cylinder 142, the 4th cylinder 143, gripping head 144, third cylinder mounting plate 145, the installation of the 4th cylinder Plate 146, the 5th cylinder sliding block 147, the 5th cylinder 148 and the 4th cylinder sliding block 149;Detachable base 141 is installed in rack 1, Detachable base 141 is located at the underface of connector separation station.5th cylinder 148 is arranged on detachable base 141, the 5th cylinder 148 drive 147 transverse shifting of the 5th cylinder sliding block;4th cylinder mounting plate 146 is mounted on the 5th cylinder sliding block 147, and the 4th Cylinder 143 is mounted on the 4th cylinder mounting plate 146;4th cylinder 143 connects the 4th cylinder sliding block 149, the installation of third cylinder Plate 145 is mounted on the 4th cylinder sliding block 149, and the 4th cylinder 143 controls the 4th cylinder sliding block 149 and third cylinder mounting plate 145 move up and down, and third cylinder 142 is mounted on third cylinder mounting plate 145, and 142 lower section of third cylinder is equipped with gripping head 144.Third cylinder 142 is connected with air source, the spacing of two gripping heads 144 can be controlled, to clamp the company on battery pole piece Connect device.
For connector separating mechanism 14 in use, pneumatic jacking device 123 fixes battery, battery pole piece is stuck in carrier On battery pole piece fixed plate 126a on 126, connector exposes except battery pole piece fixed plate 126a, passes through the 5th cylinder 148 The transverse movement of control gripping head 144, the longitudinal movement of gripping head 144 is controlled by the 4th cylinder 143, and gripping head 144 is moved To connector, the connector on two gripping 144 battery pole pieces of head is driven by third cylinder 142.
As shown in fig. 7, barcode scanning mechanism 5 includes conveying robot unit 11 and barcode scanning device 13.Conveying robot unit 11 Barcode scanning discharge station is corresponded to 13 position of barcode scanning device.
Conveying robot unit 11 includes transporting supports and vertical moving system thereon, back-and-forth motion system, left and right shifting Dynamic system and sucker part move left and right system on transporting supports, and vertical moving system is mounted on and moves left and right in system, Back-and-forth motion system is mounted on vertical moving system, and sucker part is fixed in back-and-forth motion system.
Conveying robot unit 11 realizes upper and lower, front and back and left and right three-dimensional motion.
Barcode scanning device 13 is mounted on the lower section of index dial 125, and barcode scanning device 13 is in the outside of index dial 125;Barcode scanning 13 position of device includes optical axis 132, gripping block 133, code reader 134 and pedestal 131, and optical axis 132 is fixedly installed by pedestal 131 In rack 1, gripping block 133 is fixedly installed for clamping optical axis 132, code reader 134 on optical axis 132.
Barcode scanning mechanism 5 is in use, gripping block 133 is fixedly installed for clamping optical axis 132, code reader 134 on optical axis 132.
Battery is displaced outwardly in use, battery front side is sucked in the sucker part on conveying robot unit 11 by barcode scanning mechanism 5 To the top of code reader 134, code reader 134 scans the bar code on cell backside, if scanning product corresponds to, conveying robot unit 11 are transported to spec battery in linear measure longimetry mechanism 9, if scanning product does not correspond to, conveying robot unit 11 carries battery Into the first unqualified conveying mechanism 3.
As shown in Figure 8 and Figure 9, linkage manipulator 10 includes linkage manipulator firm banking 101, servo motor driving system 102, transverse shifting mounting plate 103, optoelectronic switch 104, transverse slider 105, upright slide block 106, interlocking mechanism device 107, gear Piece 108 and the 5th cylinder 109.Servo motor driving system 102 is mounted on linkage manipulator firm banking 101, transverse slider 105 are mounted on servo motor driving system 102, the transverse shifting on servo motor driving system 102 of transverse slider 105.It is horizontal It is fixedly mounted on transverse slider 105 to mobile mounting plate 103, upright slide block 106 is mounted on transverse shifting mounting plate.5th 109 upper end of cylinder is fixedly mounted on transverse shifting mounting plate 103, and 109 lower end of the 5th cylinder connects interlocking mechanism device 107, connection Dynamic mechanical device 107 is mounted on upright slide block 106, and the 5th cylinder 109 drives interlocking mechanism device 107 to move up and down, and the 5th Cylinder 109 is connected with air source, generates expanding-contracting action, promotes interlocking mechanism device 107 that can move in the vertical direction.For leaning on Nearly mesuring battary simultaneously generates sucking action.Optoelectronic switch 104 is fixedly mounted on 102 lower end of servo motor driving system, three light Electric switch 104 is at a distance of certain spacing.Catch 108 is fixedly mounted on transverse slider 105, when transverse slider 105 moves, catch 108 block optoelectronic switch 104, and servo motor driving system 102 is stopped, and wait for that the action of interlocking mechanism device 107 is completed, servo 102 counter motion of motor driven systems.
Interlocking mechanism device 107 includes sucker 1071, sucker mounting rod 1072, sucker mounting rod pedestal 1073, aluminium section bar 1074, vertically movable mounting plate 1075, suction device 1076, buffer 1077, the first vertical spacing mounting plate 1078, second are perpendicular To limit installation bar 1079.Vertically movable mounting plate 1075 is installed on upright slide block 106, and vertically movable mounting plate 1075 can be It is moved on vertical direction, aluminium section bar 1074, suction device 1076, the second vertical spacing mounting rod 1079 are mounted on vertically movable peace In loading board 1075.First vertical spacing mounting plate 1078 is mounted on transverse shifting mounting plate 103, two the second vertical spacing peaces Dress bar 1079 is installed on vertically movable mounting plate 1075, and symmetry arrangement is above the first vertical spacing mounting plate 1078.Two Buffer 1077 is separately mounted on the first vertical spacing mounting plate 1078 and the second vertical spacing mounting rod 1079, is moved when vertical When being moved on 1075 vertical direction of dynamic mounting plate, buffer 1077 each serves as upper limit and is acted on lower limit.Three sucker peaces Dress bar pedestal 1073 is evenly distributed on aluminium section bar 1074, and sucker mounting rod 1072 is mounted on sucker mounting rod pedestal 1073, There are two suckers 1071 for the 1072 end installation of each sucker mounting rod, and sucker 1071 is for adsorbing battery and carrying.Linear measure longimetry The straight line that mechanism 9, Width measurement mechanism 8 and thickness measure mechanism 6 are arranged in is parallel with aluminium section bar 1074.
Linkage manipulator 10 is in use, servo motor driving system 102 controls 10 transverse shifting of linkage manipulator, the 5th gas Cylinder 109 controls to be moved on 10 vertical direction of linkage manipulator, 1072 spacing of sucker mounting rod and width on interlocking mechanism device 107 Spacing between measuring mechanism 8, linear measure longimetry mechanism 9, thickness measure mechanism 6 corresponds to.Linkage manipulator 10 is i.e. by linear measure longimetry Battery in mechanism 9 is transported on Width measurement mechanism 8, and the battery on Width measurement mechanism 8 is transported to thickness measure mechanism 6。
As shown in fig. 10 and fig. 12, linear measure longimetry mechanism 9 include linear measure longimetry mechanism base 91, width clamping device 92, Support board 93, measuring device mounting plate 94, plate locating piece 97, displacement sensor 95, flat-pushing module 96, wide block 98 and long gear Block 99.Linear measure longimetry mechanism base 91 is mounted in rack 1, and measuring device mounting plate 94 is mounted on linear measure longimetry mechanism base 91 On, support board 93 is on measuring device mounting plate 94.Support board 93 and measuring device mounting plate 94 pass through plate locating piece 97 It is fixed.Wide block 98 and long block are fixedly mounted on support board 93.Width clamping device 92 is fixedly mounted on measuring device peace In loading board 94, width clamping device 92 is oppositely arranged with wide block 98, and width clamping device 92 is with wide block 98 in width direction Upper limitation battery movement.Flat-pushing module 96 is fixedly mounted on measuring device mounting plate 94, flat-pushing module 96 and 99 phase of long block To setting, flat-pushing module 96 is used to measure the clamping on battery length direction to be measured with long block 99.Displacement sensor 95 is pacified On measuring device mounting plate 94;Displacement sensor 95 is contacted with flat-pushing module 96.
Width clamping device 92 includes width clamping cylinder and width clamping plate, and width clamping cylinder drives width clamping plate Closer or far from wide block 98, to realize clamp or release battery in the width direction.
Flat-pushing module 96 includes weight 963, the 6th cylinder 961, crossed roller guide rail 962, weight supporting block 964, sliding block Support base 965, the first sliding block limited block 966, linear measure longimetry pushing block 967, flat-pushing sliding block 968, linear measure longimetry pushing block supporting block 969 With the second sliding block limited block 968a.Weight supporting block 964 is mounted on 94 lower section of measuring device mounting plate, for being carried for weight 963 For point action.963 shaft of weight is installed in weight supporting block 964, and weight 963 can be rotated around weight supporting block 964, Under the effect of gravity, 963 end effect of weight pushes flat-pushing sliding block 968 to move forward in flat-pushing sliding block 968.Slider support seat 965 are mounted on 94 top of measuring device mounting plate, and crossed roller guide rail 962 and the flat-pushing sliding block 968 of support are mounted on slider support On seat 965, flat-pushing sliding block 968 is moved forward and backward on slider support seat 965, and crossed roller guide rail 962 is for reducing flat-pushing sliding block Friction consumption in 968 sliding processes.First sliding block limited block 966 and the second sliding block limited block 968a are fixedly mounted on measurement dress It sets on mounting plate 94, the first sliding block limited block 966 is located at 968 dead astern of flat-pushing sliding block, it is therefore an objective to limit flat-pushing sliding block 968 backward Move distance.Second sliding block limited block 968a is located at 968 front of flat-pushing sliding block, for limiting 968 forward fortune of flat-pushing sliding block Dynamic distance is transported by spring supporting between the second sliding block limited block 968a and flat-pushing sliding block 968 for slowing down flat-pushing sliding block 968 Instantaneous acceleration during dynamic avoids linear measure longimetry pushing block 967 in flat-pushing module 96 from generating impact to mesuring battary.Linear measure longimetry Pushing block supporting block 969 is mounted on flat-pushing sliding block 968, is moved and is moved with flat-pushing sliding block 968.For what is contacted with mesuring battary Linear measure longimetry pushing block 967 is mounted on 969 end of linear measure longimetry pushing block supporting block, and linear measure longimetry pushing block 967 is used for and mesuring battary Contact, to generate displacement distance.6th cylinder 961 is installed on immediately below measuring device mounting plate 94,961 end of the 6th cylinder It can be contacted with weight 963, for agitating weight 963.
95 end of displacement sensor is contacted with linear measure longimetry pushing block 967, and linear measure longimetry pushing block 967 moves forward, compressed-bit The measurement head of displacement sensor 95 reads shift length with this, for measuring battery length data, to examine whether battery length closes Lattice.
Linear measure longimetry mechanism 9 in use, spec battery is transported in linear measure longimetry mechanism 9 by conveying robot unit 11, Width clamping device 92 and the 6th cylinder 961 work, and width clamping device 92 is displaced outwardly, 961 end of the 6th cylinder can with again 963 contact of hammer, for agitating weight 963, linear measure longimetry pushing block 967 is moved backward, is put into for mesuring battary.Mesuring battary is put After entering, movement is limited in 92 width direction of width clamping device, the 6th cylinder 961 is withdrawn, and weight 963 pushes under the effect of gravity Linear measure longimetry pushing block 967 is moved to mesuring battary direction, simultaneous displacement sensor 95 read linear measure longimetry pushing block 967 move away from From.After mesuring battary is measured, width clamping device 92 is relaxed with flat-pushing module 96, linear measure longimetry is completed, by interlocking mechanism Hand 10 continues to carry mesuring battary to Width measurement mechanism 8.
As shown in figure 11, Width measurement mechanism 8 includes Width measurement mechanism pedestal 81, length clamping device 82, width load Object plate 83 measures mounting plate 84, measurement and positioning block 87, measurement sensor 85, the flat-pushing module 86 of width, wide block 88 and long block 89.Linear measure longimetry mechanism base 81 is mounted in rack 1, is measured mounting plate 84 and is mounted on linear measure longimetry mechanism base 81, wide Support board 83 is spent to be on measurement mounting plate 84.Width support board 83 and measurement mounting plate 84, which pass through measurement and positioning block 87, to be fixed. Wide block 88 and long block are fixedly mounted on width support board 83.
Length clamping device 82 and the flat-pushing module of width 86, which are fixedly mounted on, to be measured on mounting plate 84, the flat-pushing module of width 86 It is oppositely arranged with wide block 88, the flat-pushing module 86 of width limits battery movement in the direction of the width with wide block 88.Length clamps Device 82 is oppositely arranged with long block 89, and length clamping device 82 is used for long block 89 to the folder on battery length direction to be measured It is tight to measure.Measurement sensor 85, which is mounted on, to be measured on mounting plate 84;The flat-pushing module of measurement sensor 85 and width 86 contacts.
Length clamping device 82 includes length clamping cylinder and length clamping plate, and length clamping cylinder drives length clamping plate Closer or far from long block 89, to realize from length direction clamp or release battery.
Flat-pushing 86 structure of module of width is identical as flat-pushing module 96, differs only in Width measurement mechanism 8 from length direction Upper clamping battery, measures battery from the width direction.After the completion of width measurement, continued to carry mesuring battary by linkage manipulator 10 To thickness measure mechanism 6.
As shown in Figure 13, Figure 14, Figure 15 and Figure 16, thickness measure mechanism 6 includes thickness measure mechanism pedestal 61, stirs device 62, the 7th cylinder 63, the 7th cylinder fixed block 64, thickness measure holder 65, pressing plate 66 and inductor 67.Thickness measure mechanism bottom Seat 61 is mounted in rack 1.Thickness measure holder 65 is mounted on thickness measure mechanism pedestal 61.7th cylinder fixed block 64 is pacified Mounted in 65 lower section of thickness measure holder, the 7th cylinder 63 is mounted in the 7th cylinder fixed block 64, and 63 telescopic rod of the 7th cylinder connects Pressing plate 66 is connect, the 7th cylinder 63 control pressing plate 66 moves up and down.Inductor 67 is mounted on 66 side plate of pressing plate;Stir the peace of device 62 On 65 side of thickness measure holder.
In use, when pressing plate 66 declines, 67 inductive head of inductor contacts thickness measure holder 65 for thickness measure mechanism 6, When pressing plate 66 is contacted with battery, stop motion, inductor 67 reads inductive head height displacement data, obtains cell thickness.When waiting for It surveys battery detecting to finish, is dialled mesuring battary from 65 table top of thickness measure holder, into subsequent work stations by stirring device 62.
Thickness measure holder 65 include thickness measure mounting plate 651, transition block 652, side plate 656, side plate reinforcement block 653, Thickness measure weight supporting block 654, thickness measure weight 655, thickness measure upper limit position block 657, roller guide rail 658.Thickness is surveyed Mounting plate 651 is measured to be mounted on thickness measure mechanism pedestal 61.Transition block 652 is installed on thickness measure mounting plate 651, is used for Mesuring battary is smoothly transitted into subsequent work stations.Installation side plate 656 is solid by side plate reinforcement block 653 with thickness measure mounting plate 651 Fixed, thickness measure weight supporting block 654 is mounted on side plate reinforcement block 653.
Thickness measure weight 655 includes movement weight pulley 6551, weight mounting rod 6552, weight body 6553, weight installation spiral shell Bolt 6554, weight shaft 6555;6553 centre bore of weight body passes through weight mounting rod 6552, weight installation bolt 6554 to pass through spiral shell Line is mounted on 6552 one end of weight mounting rod and is fastened by weight installation bolt 6554, prevents weight body 6553 in gravity Lower disengaging weight mounting rod 6552.Weight mounting rod 6552 connects thickness measure weight supporting block 654 by weight shaft 6555, Thickness measure weight 655 is rotated along weight shaft 6555 in weight supporting block 654.Movement weight pulley 6551 is movably arranged on weight 6552 other end of mounting rod, movement weight pulley 6551 are contacted with pressing plate 66, and control thickness measure weight 655 rotates.
Thickness measure weight supporting block 654 plays a supporting role to thickness measure weight 655, thickness measure weight supporting block 654 erection supports are equipped with U-type groove, and the bottom of U-type groove is provided with angle by 656 side of proximal panel, when pressing plate 66 declines, weight Mounting rod 6552 rotates, and the bottom angle of U-type groove increases 6552 slewing area of weight mounting rod, which avoids pressing plate 66 The interference of weight mounting rod 6552 and thickness measure weight supporting block 654 before reaching designated position.
Under the effect of gravity, 655 end effect of thickness measure weight pushes pressing plate 66 to move up in pressing plate 66.Thickness It measures upper limit position block 657 and is mounted on 656 upper end of side plate, moved up for limiting pressing plate 66.Roller guide rail 658 is mounted on side plate 656 both sides, for reducing friction resistance during pressing plate 66 moves up and down.
Device 62 is stirred to include the 8th cylinder 621, stir guide rail 622, stir sliding block 626, the support of plectrum 623, the first plectrum Piece 624 and the second plectrum support chip 625.Guide rail 622 is stirred on thickness measure mounting plate 651, the connection of the 8th cylinder 621 Second plectrum support chip 625 drives the second plectrum support chip 625 and stirs guide rail 622 with guide rail 622, the 8th cylinder 621 is stirred It is mobile;Second plectrum support chip 625 be mounted on stir on sliding block 626, the second plectrum support chip 625 with stir sliding block 626 together It is moved along guide rail 622 is stirred, the second plectrum support chip 625 is equipped with the first U-type groove and the second U-type groove, the design of the first U-type groove Avoid the second plectrum support chip 625 during traveling with the interference of stirring guide rail 622, the telescopic rod end of the 8th cylinder 621 Embedded second U-type groove in end, the work of the 8th cylinder 621 can drive the second plectrum support chip 625 to move, the second plectrum support chip The long arm end on 625 tops is designed with spiro keyhole position, and plectrum 623 is fixed on the spiro keyhole position of the second plectrum support chip 625, and first Plectrum support chip 624 respectively with stir sliding block 626 and the second plectrum support chip 625 is connected, plectrum 623 is mounted on the first plectrum branch In blade 624.
Device 62 is stirred in use, the 8th cylinder 621 acts, sliding block 626, the second plectrum support chip 625, first are stirred in drive Plectrum support chip 624 is moved along stirring guide rail 622 together.623 lower surface of plectrum connects with 651 upper surface of thickness measure mounting plate Closely, for mesuring battary to be dialed to subsequent work stations above thickness measure mounting plate 651.
Thickness measure mechanism 6 is in use, linkage manipulator 10 is carried on mesuring battary to the measurement station of thickness measure mechanism 6 Fang Qian, the plectrum 623 for stirring device 62 are moved to 651 left side of thickness measure mounting plate, and the 7th cylinder 63 pushes pressing plate 66 to move up, waits for Mesuring battary is placed on thickness measure mounting plate 651 by linkage manipulator 10, and the 7th cylinder 6 work, pressing plate 66 declines, induction Device 67 sets a certain distance with pressing plate 66, and when pressing plate 66 declines, 67 inductive head of inductor contacts thickness measure holder 65, When pressing plate 66 is contacted with battery, stop motion, inductor 67 reads inductive head displacement data, obtains cell thickness.Detection finishes Afterwards, the 7th cylinder 63 pushes pressing plate 66 to move up, and is dialled mesuring battary from 65 table top of thickness measure holder, after by stirring device 62 Continuous station.
As shown in figure 17, discharging mechanism 2 includes blanking belt line, shunting manipulator 7 and defective work conveyer belt;
Blanking belt line includes blanking carriage 40 and blanking conveying assembly 49, and blanking carriage 40 is mounted in rack 1, blanking Conveying assembly 49 is mounted on blanking carriage 40, and blanking conveying assembly 49 connects with thickness measure mechanism 6.
Shunting manipulator 7 is used to the unqualified battery in blanking belt line being transported to defective work conveyer belt;Shunting Manipulator 7 includes shunting holder 71, shunting motor 72, shunting transmission component 73, shunting linear guides 74, traverse beam 75, shunting Cylinder mounting plate 76, the 4th cylinder 78, shunting sucker 77 and shunting limit sensors 710;Shunting holder 71 is fixed at machine Frame 1, traverse beam 75 are horizontally arranged on shunting holder 71, and shunting motor 72 is mounted in traverse beam 75, shunting motor drive point Transmission component 73 is flowed to move;Shunting linear guides 74 are fixed in traverse beam 75, and shunting cylinder mounting plate 76 passes through shunting Linear guides 74 are mounted in traverse beam 75, and shunting V belt translation component 73 drives shunting cylinder mounting plate 76 along shunting linear guides 74 movements, shunting cylinder 78 is vertical to be fixed on shunting cylinder mounting plate 76, and shunting sucker 77 and shunting cylinder 78 are flexible End is fixedly connected.
Defective work conveyer belt and 3 structure of the first unqualified conveying mechanism are identical;
Defective work conveyer belt include carriage 41, belt conveyor 43, first band transmission parts 45, motor 44, drive roll 48, Driven roller 46, transports guide rail 42 at optoelectronic switch 47.Carriage 41 is fixed in rack 1, and transport guide rail 42 is erected at defeated It send on frame 41, drive roll 48 and driven roller 46 are mounted on and transport on guide rail 42, and belt conveyor 43 is wrapped in drive roll 48 On driven roller 46;Motor 44, which is fixed at, transports 42 lower section of guide rail, and motor 44 is connected by first band transmission parts 45 Output shaft and drive roll 48 shaft;Optoelectronic switch 47, which is mounted on, to be transported on 42 side of guide rail, for detecting belt line Whether by battery.
Discharging mechanism 2 is in use, stir the blanking conveying assembly that the battery that detection is completed is pushed into blanking belt line by device 62 On 49, the battery of product qualification is transported by blanking belt line;The shifting of horizontal and vertical both direction may be implemented in shunting manipulator 7 It is dynamic, shunting sucker 77 draw length on blanking conveying assembly 49, width or unqualified thickness lattice battery, it is defeated to be transported to defective work It send to take and transport.

Claims (4)

1. new energy cell inspection equipment, it is characterised in that linear measure longimetry mechanism including rack and thereon, linear measure longimetry mechanism Linear measure longimetry is carried out to battery;
Linear measure longimetry mechanism includes linear measure longimetry mechanism base, width clamping device, support board, measuring device mounting plate, plate Locating piece, displacement sensor, flat-pushing module, wide block and long block;Linear measure longimetry mechanism base is mounted in rack, measures dress Mounting plate is set on linear measure longimetry mechanism base, support board is on measuring device mounting plate;Support board and measuring device Mounting plate is fixed by plate locating piece;Wide block and long block are fixedly mounted on support board;Width clamping device fixes peace On measuring device mounting plate, width clamping device is oppositely arranged with wide block, and width clamping device is with wide block in width Battery movement is limited on direction;Flat-pushing module is fixedly mounted on measuring device mounting plate, and flat-pushing module is set in opposite directions with long block It sets, flat-pushing module is used to measure the clamping on battery length direction to be measured with long block;Displacement sensor is mounted on to measure and fill It sets on mounting plate;Displacement sensor and flat-pushing module contact;
Width clamping device includes width clamping cylinder and width clamping plate, width clamping cylinder drive width clamping plate close or Far from width block;
Flat-pushing module includes weight, the 6th cylinder, crossed roller guide rail, weight supporting block, slider support seat, the limit of the first sliding block Block, linear measure longimetry pushing block, flat-pushing sliding block, linear measure longimetry pushing block supporting block and the second sliding block limited block;Weight supporting block is mounted on Below measuring device mounting plate;Weight shaft is installed in weight supporting block;Slider support seat is mounted on measuring device mounting plate Top, crossed roller guide rail and the flat-pushing sliding block of support are mounted on slider support seat;First sliding block limited block and the second sliding block limit Position block is fixedly mounted on measuring device mounting plate, and the first sliding block limited block is located at flat-pushing sliding block dead astern;Second sliding block limits Block is located in front of flat-pushing sliding block passes through spring supporting between the second sliding block limited block and flat-pushing sliding block;Linear measure longimetry pushing block supporting block On flat-pushing sliding block;Linear measure longimetry pushing block for being contacted with mesuring battary is mounted on linear measure longimetry pushing block supporting block end End;6th cylinder is installed on immediately below measuring device mounting plate, and the 6th cylinder end is for agitating weight;
Displacement sensor end is contacted with linear measure longimetry pushing block, and linear measure longimetry pushing block moves forward, the survey of compression displacement sensor Measure head.
2. new energy cell inspection equipment according to claim 1, it is characterised in that be additionally provided with rotating disk mechanism, electricity in rack Core mechanism for testing, connector separating mechanism, barcode scanning mechanism, the first unqualified conveying mechanism, Width measurement mechanism, Thickness measuring machine Structure, linkage manipulator and discharging mechanism;
Rotating disk mechanism is for driving battery to move;Battery core mechanism for testing is used to carry out performance detection to battery;Connector seperator Structure is used for battery top electrode connector lock out operation;Barcode scanning mechanism is used to be scanned the bar code on battery reverse side, and will Battery is moved to linear measure longimetry mechanism or the first unqualified conveying mechanism;Linear measure longimetry mechanism, Width measurement mechanism and thickness are surveyed Measuring mechanism is on same straight line, and Width measurement mechanism carries out width measurement to battery, and thickness measure mechanism carries out battery thick Degree measures;Linkage manipulator is used to carry the battery on linear measure longimetry mechanism and Width measurement mechanism;Discharging mechanism is used for will be complete It is transported at the battery of detection;
Rotating disk mechanism includes motor reducer, pneumatic jacking device, index dial and carrier;
Motor reducer connects index dial;Rule setting feeding station, performance detection station, connector separation successively on index dial Station and barcode scanning discharge station;Carrier is four, is separately mounted on four stations of index dial.
3. new energy cell inspection equipment according to claim 2, it is characterised in that linkage manipulator includes interlocking mechanism Hand firm banking, servo motor driving system, transverse shifting mounting plate, optoelectronic switch, transverse slider, upright slide block, gear Tool device, catch and the 5th cylinder;Servo motor driving system is mounted on linkage manipulator firm banking, transverse slider installation On servo motor driving system, transverse slider transverse shifting on servo motor driving system;Transverse shifting mounting plate is fixed On transverse slider, upright slide block is mounted on transverse shifting mounting plate;5th cylinder upper end is fixedly mounted on lateral shifting Dynamic mounting plate, the 5th cylinder lower end connect interlocking mechanism device, and interlocking mechanism device is mounted on upright slide block, the 5th cylinder band Dynamic interlocking mechanism device moves up and down;Optoelectronic switch is fixedly mounted on servo motor driving system lower end, three optoelectronic switch phases Away from certain spacing;Catch is fixedly mounted on transverse slider;
Interlocking mechanism device includes sucker, sucker mounting rod, sucker mounting rod pedestal, aluminium section bar, vertically movable mounting plate, air-breathing Equipment, buffer, the first vertical spacing mounting plate, the second vertical spacing mounting rod;Vertically movable mounting plate is installed on vertical cunning On block, vertically movable mounting plate can move in the vertical direction, aluminium section bar, suction device, the installation of the second vertical spacing mounting rod On vertically movable mounting plate;First vertical spacing mounting plate is mounted on transverse shifting mounting plate;Two buffers are pacified respectively On the first vertical spacing mounting plate and the second vertical spacing mounting rod;Three sucker mounting rod pedestals are evenly distributed on aluminium profiles On material, sucker mounting rod is mounted on sucker mounting rod pedestal, and there are two suckers for the installation of each sucker mounting rod end;Length is surveyed The straight line that measuring mechanism, Width measurement mechanism and thickness measure mechanism are arranged in is parallel with aluminium section bar.
4. new energy cell inspection equipment according to claim 2, it is characterised in that thickness measure mechanism includes that thickness is surveyed Measuring mechanism pedestal stirs device, the 7th cylinder, the 7th cylinder fixed block, thickness measure holder, pressing plate and inductor;Thickness measure Mechanism base is mounted in rack;Thickness measure holder is mounted on thickness measure mechanism pedestal;7th cylinder fixed block is installed Below thickness measure holder, the 7th cylinder is mounted in the 7th cylinder fixed block, the 7th Telescopic-cylinder bar connection pressing plate, and the 7th Cylinder control pressing plate moves up and down;Inductor is mounted on pressing plate side plate;Device is stirred on thickness measure holder side;
Thickness measure holder include thickness measure mounting plate, transition block, side plate, side plate reinforcement block, thickness measure weight supporting block, Thickness measure weight, thickness measure upper limit position block, roller guide rail;Thickness measure mounting plate is mounted on thickness measure mechanism pedestal On;Transition block is installed on thickness measure mounting plate;Installation side plate is fixed with thickness measure mounting plate by side plate reinforcement block, thick Degree measures weight supporting block and is mounted on side plate reinforcement block;
Thickness measure weight includes movement weight pulley, weight mounting rod, weight body, weight installation bolt, weight shaft;In weight body Heart hole passes through weight mounting rod, and weight installation bolt is by being threadably mounted at weight mounting rod one end and by weight installation bolt Fastening;Weight mounting rod connects thickness measure weight supporting block by weight shaft, and thickness measure weight is along weight shaft in weight It is rotated in hammer supporting block;Movement weight pulley is movably arranged on the weight mounting rod other end, and movement weight pulley is contacted with pressing plate, controls thickness Measure weight rotation;Thickness measure weight supporting block erection support is equipped with U-type groove, and the bottom of U-type groove is opened by proximal panel side There is angle;
Thickness measure upper limit position block is mounted on side plate upper end;Roller guide rail is mounted on side plate both sides;
Device is stirred to include the 8th cylinder, stir guide rail, stir sliding block, plectrum, the first plectrum support chip and the second plectrum support chip; Guide rail is stirred on thickness measure mounting plate, the 8th cylinder connects the second plectrum support chip and stirs guide rail, the 8th cylinder It drives the second plectrum support chip and stirs guide rail movement;Second plectrum support chip is mounted on and stirs on sliding block, the support of the second plectrum On piece is equipped with the first U-type groove and the second U-type groove, and the telescopic rod end of the 8th cylinder is embedded in the second U-type groove, the 8th cylinder operation band Dynamic second plectrum support chip movement, the first plectrum support chip respectively with stir sliding block and the second plectrum support chip is connected, plectrum is pacified On the first plectrum support chip.
CN201810562621.7A 2018-06-04 2018-06-04 New energy cell inspection equipment Withdrawn CN108759750A (en)

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CN201810562621.7A CN108759750A (en) 2018-06-04 2018-06-04 New energy cell inspection equipment
CN201910149366.8A CN109781046A (en) 2018-06-04 2019-02-28 Linear measure longimetry mechanism and new energy cell inspection equipment

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111308348A (en) * 2020-03-16 2020-06-19 广东丰盛产学研智能科技研究院有限公司 Battery testing mechanism

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* Cited by examiner, † Cited by third party
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CN116592815B (en) * 2023-07-17 2023-10-03 金乡县恒瑞钢化玻璃有限责任公司 Toughened glass measuring device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111308348A (en) * 2020-03-16 2020-06-19 广东丰盛产学研智能科技研究院有限公司 Battery testing mechanism

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