CN106848169A - Body height adjusting apparatus - Google Patents

Abstract

The present invention discloses a kind of body height adjusting apparatus.Body height adjustment screens portion includes：Body height adjustment screens pedestal, body height adjustment screens drive division, body height adjustment screens rotating shaft, body height adjustment screens cam, body height adjustment screens connecting rod, body height adjustment screens block.Body height adjustment pressing down section includes：Body height adjustment pushes pedestal, body height adjustment and pushes rotating shaft, body height adjustment and push cam, body height adjustment and push connecting rod, body height adjustment lower lock block, body height adjustment jacking cam, body height adjustment jacking connecting rod, body height adjustment jacking block, body height adjustment and pushes drive division.Body height adjusting apparatus are optimized by each structure, improve the mechanical automation level of production.

Description

Body height adjusting apparatus

Technical field

The present invention relates to technical field of mechanical automation, more particularly to a kind of body height adjusting apparatus.

Background technology

As society continues to develop and science and technology constantly progress, mechanization, automation, standardized production have been increasingly becoming hair Exhibition trend, and progressively replace traditional hand labour, it is that the sustainable development of enterprise is filled with new power.Therefore, battery life Produce enterprise to be also required to grow with each passing hour, by transition and upgrade, greatly develop mechanical automation equipment to replace traditional hand labour, And then the productivity effect of raising enterprise, realize the sustainable development of enterprise.

As shown in figure 1, it is a kind of column type steel shell lithium battery structure 10, column type steel shell lithium battery structure 10 includes： The top cover 13 that housing 11, the lug 12 being contained in housing 11 and lug 12 are welded and covered with housing 11.Wherein, column type The assembling process of steel shell lithium battery structure 10 is that lug 12 is contained in housing 11 by being connected with core, lug 12 before this with Top cover 13 welds together, and then injects liquid into again in housing 11, is finally covered on top cover 13 and envelope is formed on housing 11 The cavity for closing, so as to complete the welding of battery, fluid injection, assembling process.

And during realizing that lithium battery mechanical automation is produced, how more preferably to realize that lug 12 is accurate with top cover 13 How welding, more preferably realize the quick fluid injection to housing 11, how more preferably to realize being covered on top cover 13 on housing 11, above-mentioned to ask Topic is the practical problem that R＆D Professional needs to solve in the design process.

Particularly, when in the tool that housing is transferred into streamline, the multiple housings in tool may have height How the phenomenon that degree differs, be adjusted to the body height in tool, realizes that mechanical automation is produced, and is Corporation R ＆ D personnel A crucial ring in lithium battery mechanical automation production equipment is developed.

The content of the invention

The purpose of the present invention is to overcome weak point of the prior art, there is provided a kind of body height adjusting apparatus, to controlling The body height highly differed in tool is adjusted, and improves the mechanical automation level of production.

The purpose of the present invention is achieved through the following technical solutions：

A kind of body height adjusting apparatus, including：Body height adjusts screens portion and matches somebody with somebody with body height adjustment screens portion The body height adjustment pressing down section of conjunction,

The body height adjustment screens portion includes：Body height adjustment screens pedestal, body height adjustment screens drive Portion, body height adjustment screens rotating shaft, body height adjustment screens cam, body height adjustment screens connecting rod, body height are adjusted Whole screens block,

The body height adjustment screens axis of rotation is on body height adjustment screens pedestal, and the housing is high Degree adjustment screens cam is socketed in the body height adjustment screens rotating shaft, and the body height adjusts screens drive division and institute Body height adjustment screens rotating shaft drive connection is stated, the body height adjustment screens block level is slided and is located at the body height On adjustment screens pedestal, the body height adjustment screens pedestal is articulated with the middle part of the body height adjustment screens connecting rod On, the two ends of the body height adjustment screens connecting rod adjust screens cam and the body height with the body height respectively There is adjustment screens block connection, the body height adjustment screens block circular arc body height to adjust screens groove,

The body height adjustment pressing down section includes：Body height adjustment push pedestal, body height adjustment push rotating shaft, Body height adjustment pushes cam, body height adjustment and pushes connecting rod, body height adjustment lower lock block, body height adjustment jacking Cam, body height adjustment jacking connecting rod, body height adjustment jacking block, body height adjustment push drive division,

The body height adjustment pushes axis of rotation and is pushed on pedestal located at body height adjustment, and the housing is high Degree adjustment pushes cam and body height adjustment jacking cam is socketed on the body height adjustment and pushes on pedestal, described Body height adjustment pushes drive division and pushes rotating shaft drive connection with body height adjustment, and the body height adjustment is pushed One end of connecting rod pushes cam and abuts with body height adjustment, and the body height adjustment pushes the other end and the institute of connecting rod State body height adjustment lower lock block to be fixedly connected, one end of the body height adjustment jacking connecting rod adjusts with the body height Jacking cam is abutted, and the other end of the body height adjustment jacking connecting rod is fixed with body height adjustment jacking block and connected Connect, the body height adjustment lower lock block and body height adjustment jacking block vertically reciprocatingly slide located at the shell Body Height Adjustment is pushed on pedestal.

Wherein in one embodiment, body height adjustment screens connecting rod adjusts screens cam by roller with body height Connection.

Wherein in one embodiment, body height adjustment screens connecting rod adjusts screens block and connects by roller and body height Connect.

Wherein in one embodiment, body height adjustment pushes one end of connecting rod by under roller and body height adjustment Belling wheel is abutted.

Wherein in one embodiment, body height adjustment is pushed and is provided between connecting rod and body height adjustment screens pedestal Back-moving spring.

Wherein in one embodiment, one end of body height adjustment jacking connecting rod adjusts top by roller with body height Cam is risen to abut.

Wherein in one embodiment, it is provided between body height adjustment jacking connecting rod and body height adjustment screens pedestal Back-moving spring.

Body height adjusting apparatus of the invention, are blocked by setting body height and adjusting screens portion and adjusted with body height The body height adjustment pressing down section that position portion coordinates, the body height to highly differing in tool is adjusted, and improves machine automatization Change the level of production.

Brief description of the drawings

Fig. 1 is the structure chart of column type steel shell lithium battery；

Fig. 2 is the structure chart of the welding battery fluid injection kludge of one embodiment of the invention；

Fig. 3 is the structure chart of top cover tab welding system；

Fig. 4 is the structure chart of the housing fixed jig of top cover tab welding system；

Fig. 5 is the structure chart of the housing material rotaring machine tool hand of top cover tab welding system；

Fig. 6 is the structure chart of the body height adjusting apparatus of top cover tab welding system；

Fig. 7 is the structure chart of the lug position regulator of top cover tab welding system；

Fig. 8 is the structure chart of the lug means for correcting of top cover tab welding system；

Fig. 9 is the structure chart of the top cover feeding device of top cover tab welding system；

Figure 10 is the structure chart of the top cover material rotaring machine tool hand of the top cover feeding device shown in Fig. 9；

Figure 11 is the structure chart of the pulling force short-circuit test device of top cover tab welding system；

Figure 12 is the structure chart at another visual angle of pulling force short-circuit test device shown in Figure 11；

Figure 13 is the structure chart of the benefit cell apparatus of top cover tab welding system；

Figure 14 is the structure chart of the semi-finished product material rotaring machine tool hand of top cover tab welding system；

Figure 15 is the local structural graph of the semi-finished product material rotaring machine tool hand shown in Figure 14.

Specific embodiment

As shown in Fig. 2 a kind of welding battery fluid injection kludge 20, including the top cover tab welding system being connected successively 1000th, battery container liquid injection system 2000, top cover press-in housing system 3000.Top cover tab welding system 1000 is used for top cover With tab welding together with, battery container liquid injection system 2000 is used to carry out housing fluid injection, top cover press-in housing system 3000 It is integral for top cover to be covered on into shape on housing, so as to realize that mechanical automation is produced.

As shown in figure 3, top cover tab welding system 1000 includes：Semi-finished product housing transport streamline 1100 and along half into The housing material rotaring machine tool hand 1200, body height adjusting apparatus that the product housing transport transmission direction of streamline 1100 sets gradually 1300th, lug position regulator 1400, lug means for correcting 1500, top cover feeding device 1600, top cover tab welding device 4000th, pulling force short-circuit test device 1700, benefit cell apparatus 1800, semi-finished product material rotaring machine tool hand 1900, so as to complete on housing The welding of material, lug and top cover, semi-finished product blanking procedure.

As shown in figure 4, semi-finished product housing transport streamline 1100 is provided with housing fixed jig 1110, housing fixed jig 1110 offer semienclosed housing accepting groove 1111, and housing accepting groove 1111 is semicylinder shape structure, housing accepting groove 1111 Single port is provided with housing firm banking 1112, and the side wall of housing accepting groove 1111 is provided with housing fixed magnet 1113.Half The housing accepting groove 1111 of cylindrical shape structure is conducive to for the housing of column type structure carrying out Semi surrounding type parcel, and housing is abutted In housing firm banking 1112, housing fixed magnet 1113 is drawn housing.

The housing accepting groove 1111 of housing fixed jig 1110 is semi-enclosed structure, is conducive to manipulator that housing is fast Fast, accurate feeding is also beneficial to manipulator housing is quick, accurate from housing fixed jig in housing fixed jig 1110 Blanking is taken out in 1110.For example, in gripping housing to the housing fixed jig 1110 of housing material rotaring machine tool hand 1200, can more hold Easily housing is put into housing catching phenomenon in housing accepting groove 1111, will not occur, one end of housing is connected to housing and fixes Can prevent from dropping on base 1112.Housing in housing accepting groove 1111 is drawn and determined by housing fixed magnet 1113, prevents Dropped in the case of being given a shock.And for example, turn material contracting to be more prone to housing from housing fixed jig away from manipulator 1900 Taken out in 1110, housing clamping stagnation will not occur in the phenomenon of housing accepting groove 1111, improve production efficiency.

Further, quantity be multiple housing fixed jigs 1110 along semi-finished product housing transport streamline 1100 successively between Every arrangement, the efficiency of production is improve.Further, housing firm banking 1112 is semi-enclosed hollow cylindrical structure, shell Body firm banking 1112 has the housing stationary plane 1114 of a level.The housing firm banking of semi-enclosed hollow cylindrical structure 1112, be conducive to follow-up associated components to be arranged in housing firm banking 1112 and abutted with the battery in housing accepting groove 1111, water Flat housing stationary plane 1114 can cause that battery is rightly positioned in housing accepting groove 1111.Semi-finished product housing transports flowing water Line 1100 is sprocket-type structure.

As shown in figure 5, housing material rotaring machine tool hand 1200 includes：Housing turn material pedestal 1210, housing turn material rotary shaft 1220, Housing level turns material cam 1230, housing level and turns to expect that connecting rod 1240, housing turns to expect that cam 1250, housing turns material and connects vertically vertically Bar 1260, housing material rotaring machine tool clamping jaw 1270, housing turn material drive division 1280.Housing turns material rotary shaft 1220 and vertically sets Put and rotate and turn on material pedestal 1210 located at housing, housing level turns material cam 1230 and housing turns material cam 1250 and is socketed vertically Turn in material rotary shaft 1220 in housing, housing turns material drive division 1280 and turns the material drive connection of rotary shaft 1220 with housing, and housing turns Material mechanical grip 1270 is installed on housing and turns on material pedestal 1210, and housing level turns to expect that the middle part of connecting rod 1240 is articulated with housing and turns material On pedestal 1210, housing level turns one end of material connecting rod 1240 and housing level turns material cam 1230 and abuts, and housing level turns material The other end of connecting rod 1240 is slidably connected with housing material rotaring machine tool clamping jaw 1270, and housing turns to expect one end and the shell of connecting rod 1260 vertically Body turns material cam 1250 and abuts vertically, and housing turns to expect that the other end of connecting rod 1260 is fixed with housing material rotaring machine tool clamping jaw 1270 vertically Connection.

Further, housing level turns to expect that one end of connecting rod 1240 is abutted by roller and housing level turn material cam 1230, The other end that housing level turns material connecting rod 1240 is slidably connected by roller with housing material rotaring machine tool clamping jaw 1270, and housing turns vertically Expect that one end of connecting rod 1260 is turned material cam 1250 by roller and abutted vertically with housing, so as to reduce contact friction force.

The operation principle of housing material rotaring machine tool hand 1200 is as follows：Housing turns material drive division 1280 drive shell and turns material rotary shaft 1220 rotate and then drive housing level to turn to expect that cam 1230 and housing turn material cam 1250 and rotate vertically；It is convex that housing level turns material Wheel 1230 is rotated so that housing level turns material connecting rod 1240 and rotated around housing turn material pedestal 1210, and drive shell material rotaring machine tool Clamping jaw 1270 is moved back and forth in the horizontal direction；Housing turns material cam 1250 and rotates vertically so that housing turns to expect connecting rod 1260 vertically Other end drive shell material rotaring machine tool clamping jaw 1270 vertically move back and forth；Housing level turns the material driving shell of connecting rod 1240 Body material rotaring machine tool clamping jaw 1270 is moved back and forth in the horizontal direction, and housing turns to expect the drive shell material rotaring machine tool clamping jaw of connecting rod 1260 vertically 1270 vertically move back and forth, and realize that housing is shifted.

Further, housing material rotaring machine tool clamping jaw 1270 vertically offers housing and turns to expect sliding groove 1271, housing The other end that level turns material connecting rod 1240 is slided in housing turn material sliding groove 1271.Housing level turns material connecting rod 1240 will drive Dynamic housing material rotaring machine tool clamping jaw 1270 is moved, it is necessary to overcome the stop on vertical direction, housing turns material sliding groove in the horizontal direction 1271 can cause the difference of housing material rotaring machine tool clamping jaw 1270 in the horizontal direction and vertical direction self-movement, prevent interference Occur.Further, housing material rotaring machine tool clamping jaw 1270 and housing turn to be provided with the housing turn vertical reset bullet of material between material pedestal 1210 Spring 1211.Housing turns the vertical back-moving spring 1211 of material and provides elastic force vertically to housing material rotaring machine tool clamping jaw 1270, And then cause that housing turns to expect that one end of connecting rod 1260 is close to housing and is turned vertically on material cam 1250 vertically.Further, housing water Flat turn material connecting rod 1240 and housing turn to be provided with housing turn material horizontal reset spring 1212 between material pedestal 1210.Housing turns material level Back-moving spring 1212 provides elastic force and turns material connecting rod 1240 to housing level so that its one end is close to housing level and turns material cam 1230。

As shown in fig. 6, body height adjusting apparatus 1300 include：Body height adjustment screens portion 1310 and and body height The body height adjustment pressing down section 1320 that adjustment screens portion 1310 coordinates.Body height adjustment screens portion 1310 includes：Housing is high Degree adjustment screens pedestal 1311, body height adjustment screens drive division 1312, body height adjustment screens rotating shaft 1313, housing is high Degree adjustment screens cam 1314, body height adjustment screens connecting rod 1315, body height adjustment screens block 1316.Body height is adjusted Whole screens rotating shaft 1313 is rotated on body height adjustment screens pedestal 1311, and body height adjustment screens cam 1314 is socketed In in body height adjustment screens rotating shaft 1313, body height adjustment screens drive division 1312 adjusts screens rotating shaft with body height 1313 drive connections, the level of body height adjustment screens block 1316 is slided on body height adjustment screens pedestal 1311, shell The middle part of body Height Adjustment screens connecting rod 1315 is articulated with body height adjustment screens pedestal 1311, body height adjustment screens The two ends of connecting rod 1315 are connected with body height adjustment screens cam 1314 and body height adjustment screens block 1316 respectively, housing Height Adjustment screens block 1316 has circular arc body height adjustment screens groove 1317.Circular arc body height adjusts screens groove 1317 be used for and cylindrical shell coordinate so that cylindrical shell can with side wall can be all wrapped in body height adjust Between screens groove 1317 and housing accepting groove 1111, and then cause that body height adjustment pressing down section 1320 is pushed to housing When, housing is difficult to be dropped from housing accepting groove 1111.

Further, body height adjustment screens connecting rod 1315 adjusts screens cam 1314 and connects by roller and body height Connect, body height adjustment screens connecting rod 1315 adjusts screens block 1316 and is connected by roller and body height.

Body height adjustment pressing down section 1320 includes：Body height adjustment pushes the adjustment of pedestal 1321, body height and pushes Rotating shaft 1322, body height adjustment pushes the adjustment of cam 1323, body height and pushes connecting rod 1324, body height adjustment lower lock block 1325th, body height adjustment jacking cam 1326, body height adjustment jacking connecting rod 1327, body height adjustment jacking block 1328th, body height adjustment pushes drive division 1329.Body height adjustment pushes rotating shaft 1322 and rotates located at body height adjustment Push on pedestal 1321, body height adjustment push cam 1323 and body height adjustment jacking cam 1326 to be socketed on housing high Degree adjustment is pushed on pedestal 1321, and body height adjustment pushes drive division 1329 and body height and adjusts and pushes rotating shaft 1322 and drive Connect, body height adjustment pushes one end of connecting rod 1324 and body height adjustment pushes cam 1323 and abuts, and body height is adjusted The whole other end for pushing connecting rod 1324 is fixedly connected with body height adjustment lower lock block 1325, body height adjustment jacking connecting rod 1327 one end abuts with body height adjustment jacking cam 1326, the other end and shell of body height adjustment jacking connecting rod 1327 Body Height Adjustment jacking block 1328 is fixedly connected, and body height adjustment lower lock block 1325 and body height adjust the edge of jacking block 1328 Vertical direction reciprocatingly slides and is pushed on pedestal 1321 located at body height adjustment.

Further, body height adjustment is pushed one end of connecting rod 1324 and is adjusted with body height by roller and pushes cam 1323 are abutted, and body height adjustment to be pushed and be provided with back-moving spring between connecting rod 1324 and body height adjustment screens pedestal 1311. Further, one end of body height adjustment jacking connecting rod 1327 adjusts jacking cam 1326 and supports by roller and body height Connect, back-moving spring is provided between body height adjustment jacking connecting rod 1327 and body height adjustment screens pedestal 1311.

The operation principle of body height adjusting apparatus 1300 is as follows：Body height adjustment screens cam 1314 is rotated and promoted Body height adjustment screens connecting rod 1315 is rotated, then and drives body height to adjust the reciprocal shifting in the horizontal direction of screens block 1316 It is dynamic so that body height adjustment screens block 1316 can be wrapped up the housing in housing fixed jig 1110, prevent housing Fallen off in the presence of body height adjustment pressing down section 1320；Meanwhile, body height adjustment pushes cam 1323 and shell Body Height Adjustment jacking cam 1326 is rotated, and body height adjustment lower lock block 1325 is vertically moved back and forth to be fixed to housing The housing of tool 1110 is pushed, and body height adjustment jacking block 1328 is vertically moved back and forth and fixed with housing to be controlled Have the bottom contact of 1110 inner housings, housing is supported；Body height adjustment lower lock block 1325 is pushed to housing, is made The bottom for obtaining housing is brought into close contact with housing firm banking 1112 so that multiple battery cores are located at sustained height.

Further, body height adjustment lower lock block 1325 and body height adjustment is provided with buffering between pushing connecting rod 1324 Spring, buffer spring provides cushion effect and adjusts lower lock block 1325 to body height, prevents housing to be subject to crushing.

As shown in fig. 7, lug position regulator 1400 includes：Lug position adjustment screens portion 1410 and with lug position The lug position adjustment rotation section 1420 that adjustment screens portion 1410 coordinates.

Lug position adjustment screens portion 1410 includes：Lug position adjustment screens pedestal 1411, lug position adjustment screens Rotating shaft 1412, lug position adjustment screens cam 1413, lug position adjustment screens connecting rod 1414, lug position adjustment screens block 1415th, lug position adjustment screens drive division 1416, lug position adjustment inductor 1417.Lug position adjustment screens rotating shaft 1412 rotate on lug position adjustment screens pedestal 1411, and lug position adjustment screens cam 1413 is socketed on lug position In adjustment screens rotating shaft 1412, lug position adjustment screens drive division 1416 drives with lug position adjustment screens rotating shaft 1412 and connects Connect, lug position adjustment screens block 1415 is slided on lug position adjustment screens pedestal 1411 in the horizontal direction, lug position The middle part for putting adjustment screens connecting rod 1414 is articulated with lug position adjustment screens pedestal 1411, lug position adjustment screens connecting rod 1414 two ends are connected with lug position adjustment screens cam 1413 and lug position adjustment screens block 1415 respectively, lug position Adjustment inductor 1417 is on lug position adjustment screens pedestal 1411.

Lug position adjustment rotation section 1420 includes：Lug position adjustment rotating base 1421, lug position adjustment is rotated Axle 1422, lug position adjustment rotation cam 1423, lug position adjustment pivot link 1424, lug position adjustment rotating wheel 1425th, lug position adjustment rotates drive division 1426.Lug position adjustment rotary shaft 1422 is rotated and turned located at lug position adjustment On moving base 1421, lug position adjustment rotation cam 1423 is socketed in lug position adjustment rotary shaft 1422, lug position Adjustment rotates drive division 1426 and the drive connection of lug position adjustment rotary shaft 1422, and lug position adjustment rotating wheel 1425 is along water Square to sliding on the lug position adjustment rotating base 1421, the middle part of lug position adjustment pivot link 1424 is articulated with On lug position adjustment rotating base 1421, the two ends of lug position adjustment pivot link 1424 turn with lug position adjustment respectively Moving cam 1423 and lug position adjustment rotating wheel 1425 are connected.

The operation principle of lug position regulator 1400 is as follows：Lug position adjustment screens cam 1413 is rotated and then band Dynamic lug position adjustment screens connecting rod 1414 is rotated, then and drives lug position adjustment screens block 1415 reciprocal sliding in the horizontal direction It is dynamic so that lug position adjustment screens block 1415 is wrapped up the housing in housing fixed jig 1110；Meanwhile, lug position Adjustment rotation cam 1423 is rotated, and then drives lug position adjustment pivot link 1424 to rotate, then and drives lug position to adjust Turn over driving wheel 1425 reciprocatingly slides in the horizontal direction, the shell in lug position adjustment rotating wheel 1425 and housing fixed jig 1110 Body is touched, and lug position adjustment rotating wheel 1425 is rotated, so that the housing in housing fixed jig 1110 rotates, shell Body is rotated and causes that the lug in it rotates, and when lug rotate in place, lug position adjustment inductor 1417 sends sensing Signal so that lug position adjustment rotating wheel 1425 stops operating.

Further, rubber sleeve is arranged on lug position adjustment rotating wheel 1425, lug position adjustment rotating wheel 1425 leads to Cross rubber sleeve to be contacted with the housing in fixed jig 1110, scratch housing can be prevented, the friction contacted with housing can be improved Power.Further, lug position adjustment screens drive division 1416 is motor, and conveyer belt and lug position adjustment screens rotating shaft 1412 Connection, is further servomotor.Further, it is motor that lug position adjustment rotates drive division 1426, and by transmission Band is connected with lug position adjustment rotary shaft 1422, is further servomotor.

As shown in figure 8, lug means for correcting 1500 includes：Lug correction screens portion 1510, lug bending with sizing portion 1520.

Lug correction screens portion 1510 includes：Lug correction screens pedestal 1511, lug correction screens rotating shaft 1512, lug Correction screens cam 1513, lug correction screens connecting rod 1514, lug correction screens block 1515, lug correction screens drive division 1516.Lug correction screens rotating shaft 1512 is rotated on lug correction screens pedestal 1511, lug correction screens cam 1513 It is socketed in lug correction screens rotating shaft 1512, lug correction screens drive division 1516 drives with lug correction screens rotating shaft 1512 Connection, lug correction screens block 1515 reciprocatingly slides on lug correction screens pedestal 1511 in the horizontal direction, lug correction The middle part of screens connecting rod 1514 is articulated with lug correction screens pedestal 1511, the two ends difference of lug correction screens connecting rod 1514 It is connected with lug correction screens cam 1513 and lug correction screens block 1515.

Lug bending with sizing portion 1520 includes：Lug bending with sizing pedestal 1521 and located at lug bending with sizing pedestal 1521 On lug bending with sizing clamping jaw 1522, lug bending with sizing clamping jaw 1522 have two it is close to each other in the horizontal direction or away from Bending with sizing bar 1523, inclined contact surface 1524 is formed between two bending with sizing bars 1523.

Further, the two ends of lug correction screens connecting rod 1514 correct screens cam 1513 by roller with lug respectively And lug correction screens block 1515 is connected.Further, lug correction screens drive division 1516 is motor, and motor is by transmission Band is connected with lug correction screens rotating shaft 1512, specifically, lug correction screens drive division 1516 is servomotor.

The operation principle of lug means for correcting 1500 is as follows：Lug correction screens cam 1513 is rotated, and then drives lug Correction screens connecting rod 1514 is rotated, and drives lug correction card position block 1515 to move back and forth in the horizontal direction, lug correction screens Block 1515 is used to wrap up the housing in housing fixed jig 1110, prevents housing from dropping；Meanwhile, lug correction is curved Bent clamping jaw 1522 is acted, and two bending with sizing bars 1523 are close to each other and lug is gripped, during gripping, due to Inclined contact surface 1524 is formed between two bending with sizing bars 1523, it is curved that inclined contact surface 1524 can cause that lug occurs Edge that is bent and being partial to housing, beneficial to the welding of following caps and lug.

As shown in figure 9, top cover feeding device 1600 includes：Top cover feeding vibrating disc 1610, top cover material rotaring machine tool hand 1620, Top cover turns material rotating disk 1630, and top cover material rotaring machine tool hand 1620 is connected and turns material rotating disk 1630 in top cover feeding vibrating disc 1610 and top cover Between.

As shown in Figure 10, top cover material rotaring machine tool hand 1620 includes：Top cover turns material drive division 1621, top cover and turns material pedestal 1622nd, top cover turns material track plates 1623, top cover material rotaring machine machinery claw 1624, top cover and turns material rotating shaft 1625, top cover turn material connecting rod 1626. Top cover turns material rotating shaft 1625 and rotates on top cover turn material pedestal 1622, and top cover turns material drive division 1621 with top cover turn material rotating shaft 1625 drive connections, top cover turns material track plates 1623 and is fixed on top cover turn material pedestal 1622, and top cover turns on material track plates 1623 Offer top cover and turn material rail groove 1627, one end of top cover material rotaring machine machinery claw 1624 is slided and turns material rail groove 1627 located at top cover In, top cover turns material connecting rod 1626 two ends and turns to expect that rotating shaft 1625 and top cover material rotaring machine machinery claw 1624 are hinged respectively with top cover.

The operation principle of top cover feeding device 1600 is as follows：Top cover turns material drive division 1621 and turns material rotating shaft 1625 by top cover Drive top cover to turn material connecting rod 1626 to rotate, top cover turns material connecting rod 1626 and drives one end of top cover material rotaring machine machinery claw 1624 along top cover Turn material rail groove 1627 to slide, so that the other end of top cover material rotaring machine machinery claw 1624 makees oscillating motion, and then by discharging opening The top cover at place is transferred to during top cover turns material rotating disk 1630.

Further, top cover turns to expect that pedestal 1622 is provided with horizontal adjustment screw 1628 and vertically adjusting screw 1629.Water Flat adjusting screw 1628 and top cover turn material track plates 1623 and abut and provide horizontal direction active force, vertical adjusting screw 1629 with Top cover turns material track plates 1623 and abuts and provide vertical direction active force, and material track plates 1623 can be turned to top cover carries out position Regulation, and then the purpose being adjusted to top cover material rotaring machine machinery claw 1624 is reached, deviation when reducing gripping or placing top cover.Will Illustrate, top cover turns material rotating disk 1630 and rotates, and top cover is transferred into welding post, and top cover fits together with lug, swashing The welding of top cover and lug is realized in the presence of flush weld connection device.Further, top cover turns material drive division 1621 for motor drives.

As shown in Figure 11 and 12, pulling force short-circuit test device 1700 includes：Pulling force short-circuit test pulling force portion 1710 and with drawing The pulling force short-circuit test screens portion 1720 that power short-circuit test pulling force portion 1710 coordinates.

Pulling force short-circuit test pulling force portion 1710 includes：Pulling force short-circuit test pulling force pedestal 1711, pulling force short-circuit test pulling force Rotating shaft 1712, pulling force short-circuit test pulling force cam 1713, pulling force short-circuit test pulling force connecting rod 1714, pulling force short-circuit test pulling force folder Pawl 1715, pulling force short-circuit test pulling force drive division 1716.Pulling force short-circuit test pulling force rotating shaft 1712 is rotated surveys located at pulling force short circuit On examination pulling force pedestal 1711, pulling force short-circuit test pulling force cam 1713 is socketed in pulling force short-circuit test pulling force rotating shaft 1712, is drawn Power short-circuit test pulling force drive division 1716 and the drive connection of pulling force short-circuit test pulling force rotating shaft 1712, pulling force short-circuit test pulling force folder Pawl 1715 vertically reciprocatingly slides on pulling force short-circuit test pulling force pedestal 1711, pulling force short-circuit test pulling force connecting rod 1714 one end abuts with pulling force short-circuit test pulling force cam 1713, the other end and the drawing of pulling force short-circuit test pulling force connecting rod 1714 Power short-circuit test pulling force clamping jaw 1715 is fixedly connected.

Pulling force short-circuit test screens portion 1720 includes：Pulling force short-circuit test screens pedestal 1721, pulling force short-circuit test screens Rotating shaft 1722, pulling force short-circuit test screens cam 1723, pulling force short-circuit test screens connecting rod 1724, pulling force short-circuit test screens block 1725th, pulling force short-circuit test screens drive division 1726.Pulling force short-circuit test screens rotating shaft 1722 is rotated and is located at pulling force short-circuit test On screens pedestal 1721, pulling force short-circuit test screens cam 1723 is socketed in pulling force short-circuit test screens rotating shaft 1722, pulling force Short-circuit test screens drive division 1726 and the drive connection of pulling force short-circuit test screens rotating shaft 1722, pulling force short-circuit test screens block 1725 reciprocatingly slide on pulling force short-circuit test screens pedestal 1721 in the horizontal direction, pulling force short-circuit test screens connecting rod 1724 Middle part be articulated with pulling force short-circuit test screens pedestal 1721, the two ends of pulling force short-circuit test screens connecting rod 1724 respectively with drawing Power short-circuit test screens cam 1723 and pulling force short-circuit test screens block 1725 are connected.

The operation principle of pulling force short-circuit test device 1700 is as follows：Pulling force short-circuit test screens cam 1723 is rotated, and is promoted Rotate pulling force short-circuit test screens connecting rod 1724 so that pulling force short-circuit test screens block 1725 is moved back and forth in the horizontal direction, Housing in housing fixed jig 1110 is blocked and prevents it to be moved by pulling force short-circuit test screens block 1725；Meanwhile, pulling force Short-circuit test pulling force cam 1713 is rotated, and then drives pulling force short-circuit test pulling force by pulling force short-circuit test pulling force connecting rod 1714 Clamping jaw 1715 is vertically moved back and forth, and top cover is clamped and is up lifted, and top cover is pullled, and tests top cover and lug Welding stability；Pulling force short-circuit test pulling force clamping jaw 1715 is contacted with top cover, pulling force short-circuit test screens block 1725 and housing Contact, and be powered, so as to test battery short circuit.

Further, pulling force short-circuit test pulling force drive division 1716 is motor driving, pulling force short-circuit test pulling force drive division 1716 are connected by conveyer belt with pulling force short-circuit test pulling force rotating shaft 1712, and one end of pulling force short-circuit test pulling force connecting rod 1714 leads to Roller is crossed to be abutted with pulling force short-circuit test pulling force cam 1713.Further, pulling force short-circuit test screens drive division 1726 is electricity Machine drives, and is connected with pulling force short-circuit test screens rotating shaft 1722 by conveyer belt, pulling force short-circuit test screens connecting rod 1724 Two ends are connected by roller with pulling force short-circuit test screens cam 1723 and pulling force short-circuit test screens block 1725 respectively.

As shown in figure 13, mending cell apparatus 1800 includes：Cell base 1810 is mended, battery rotary shaft 1820 is mended, is mended battery Horizontal cam 1830, benefit battery levels connecting rod 1840, the vertical cam 1850 of benefit battery, the vertical connecting rod 1860 of benefit battery, benefit battery Mechanical grip 1870, benefit battery power portion 1880.Battery rotary shaft 1820 is mended vertically to set and rotate located at benefit battery On pedestal 1810, mend battery levels cam 1830 and the benefit vertical cam 1850 of battery is socketed in benefit battery rotary shaft 1820, mend Battery power portion 1880 is installed on benefit cell base with the drive connection of battery rotary shaft 1820, benefit battery machine clamping jaw 1870 is mended On 1810, mend the middle part of battery levels connecting rod 1840 and be articulated with benefit cell base 1810, mend one end of battery levels connecting rod 1840 Abutted with battery levels cam 1830 is mended, the other end for mending battery levels connecting rod 1840 connects with the slip of battery machine clamping jaw 1870 is mended Connect, the one end for mending the vertical connecting rod 1860 of battery abuts with the vertical cam 1850 of battery is mended, and mends the another of the vertical connecting rod 1860 of battery End is fixedly connected with battery machine clamping jaw 1870 is mended.

The operation principle for mending cell apparatus 1800 is as follows：Mend battery levels cam 1830 to rotate so that mend battery levels and connect Height and movement is realized in one end that bar 1840 is abutted therewith, and then causes to mend battery levels connecting rod 1840 around 1810 turns of cell base of benefit It is dynamic, then and cause that the other end for mending battery levels connecting rod 1840 drives and mend the reciprocal fortune in the horizontal direction of battery machine clamping jaw 1870 It is dynamic；Mend the vertical cam 1850 of battery to rotate so that height and movement is realized in one end that the benefit vertical connecting rod 1860 of battery is abutted therewith, enters And cause that the other end for mending the vertical connecting rod 1860 of battery drives benefit battery machine clamping jaw 1870 vertically to move back and forth；Mend electricity Pond mechanical grip 1870 is moved back and forth in the horizontal direction, is mended the vertical cam 1850 of battery and is driven by mending the vertical connecting rod 1860 of battery Mend battery machine clamping jaw 1870 vertically to move back and forth, so as to realize a housing housing fixed jig 1110 therefrom It is transferred in another housing fixed jig 1110；For example, when one of them realizes that top cover is detected with the battery of tab welding It is defective products, corresponding device just will take out when the battery in procapsid fixed jig 1110, then, when procapsid fixed jig 1110 battery vacancy will occur, mend cell apparatus 1800 for the housing fixed jig 1110 of present battery vacancy is adjacent One battery is taken out and waits, and cell apparatus are mended when detecting that next housing fixed jig 1110 for battery vacancy occur is reached When at 1800, battery is complemented in housing fixed jig 1110, prevents the phenomenon of vacancy single battery.It is multiple The housing fixed jig 1110 of continuous arrangement is all covered with battery, otherwise it is that multiple continuous housing fixed jigs 1110 arranged occur Two battery vacancies of continuous adjacent.

Further, it is motor to mend battery power portion 1880, is further servomotor.Further, cell water is mended The two ends of flat connecting rod 1840 are connected by roller with benefit battery levels cam 1830 and benefit battery machine clamping jaw 1870 respectively.Enter one Step, the one end for mending the vertical connecting rod 1860 of battery is abutted by roller with the vertical cam 1850 of battery is mended.

As shown in figure 14, semi-finished product material rotaring machine tool hand 1900 includes：Semi-finished product turn material pedestal 1910, semi-finished product and turn material rotation Axle 1920, semi-finished product level turn material cam 1930, semi-finished product level turn material a connecting rod 1940, semi-finished product turn vertically material cam 1950, Semi-finished product turn material connecting rod 1960, semi-finished product material rotaring machine tool clamping jaw 1970, semi-finished product and turn material drive division 1980 vertically.Semi-finished product turn material Rotary shaft 1920 vertically sets and rotates and turns on material pedestal 1910 located at semi-finished product, and semi-finished product level turns material cam 1930 And semi-finished product turn to expect that cam 1950 is socketed on semi-finished product and turns in material rotary shaft 1920 that vertically semi-finished product turn material drive division 1980 and half Finished product turns the material drive connection of rotary shaft 1920, and semi-finished product material rotaring machine tool clamping jaw 1970 is installed on semi-finished product and turns on material pedestal 1910, Semi-finished product level turns the middle part of material connecting rod 1940 and is articulated with semi-finished product turn material pedestal 1910, and semi-finished product level turns material connecting rod 1940 One end turns material cam 1930 and abuts with semi-finished product level, and semi-finished product level turns the other end and semi-finished product material rotaring machine of material connecting rod 1940 Tool clamping jaw 1970 is slidably connected, and semi-finished product turn to expect that one end of connecting rod 1960 turns material cam 1950 with semi-finished product and abuts vertically vertically, Semi-finished product turn to expect that the other end of connecting rod 1960 is fixedly connected with semi-finished product material rotaring machine tool clamping jaw 1970 vertically.

The operation principle of semi-finished product material rotaring machine tool hand 1900 is as follows：Semi-finished product level turns material cam 1930 and rotates so that half Height and movement is realized in one end that product water flat turn material connecting rod 1940 is abutted therewith, and then causes that semi-finished product level turns material connecting rod 1940 Turn material pedestal 1910 around semi-finished product to rotate, then and cause that the other end that semi-finished product level turns material connecting rod 1940 drives semi-finished product to turn material Mechanical grip 1970 is moved back and forth in the horizontal direction；Semi-finished product turn material cam 1950 and rotate vertically so that semi-finished product turn material vertically Height and movement is realized in one end that connecting rod 1960 is abutted therewith, and then causes that semi-finished product turn to expect that vertically the other end of connecting rod 1960 drives Semi-finished product material rotaring machine tool clamping jaw 1970 is vertically moved back and forth；Semi-finished product level turns material cam 1930 and passes through semi-finished product level Turning material connecting rod 1940 drives semi-finished product material rotaring machine tool clamping jaw 1970 to move back and forth in the horizontal direction, and semi-finished product turn to expect cam vertically 1950 turn material connecting rod 1960 vertically by semi-finished product drives semi-finished product material rotaring machine tool clamping jaw 1970 vertically to move back and forth, from And from a upper station be transferred in battery container liquid injection system 2000 semi-finished product by realization.

As shown in figure 15, further, semi-finished product material rotaring machine tool hand 1900 also includes semi-finished product expansion track plates 1990, half Two spaced expansion rail grooves 1991 are offered on finished product expansion track plates 1990, expansion rail groove 1991 has expansion Guide surface 1992.Semi-finished product material rotaring machine tool clamping jaw 1970 includes：First expansion clamping jaw 1971, the second expansion clamping jaw 1972, expansion Guide post 1973.Connected by elastic component between first expansion clamping jaw 1971 and the second expansion clamping jaw 1972, the first expansion clamping jaw 1971 and second expansion clamping jaw 1972 it is close to each other in the horizontal direction or away from sliding on the expansion guide post 1973, first expands The first expansion roller 1974 is provided with away from clamping jaw 1971, the second expansion clamping jaw 1972 is provided with the second expansion roller 1975, first Expansion roller 1974 and one of expansion rail groove 1991 are rolled along expansion guide surface 1992 with merging, the second expansion roller 1975 roll with merging with another expansion rail groove 1991 along expansion guide surface 1992.

It is appreciated that semi-finished product material rotaring machine tool hand 1900 when semi-finished product battery is taken out into next station, it is necessary to electricity Spacing between pond is adjusted.First expansion roller 1974 of the first expansion clamping jaw 1971 is along one of expansion guide surface 1992 are rolled, and the second expansion roller 1975 of the second expansion clamping jaw 1972 is rolled along another expansion guide surface 1992, and then are promoted The first expansion clamping jaw 1971 and the second expansion clamping jaw 1972 is set to be located remotely from each other along expansion guide post 1973, in the first expansion clamping jaw 1971 and second expansion clamping jaw 1972 pull open a certain distance each other after, the first expansion clamping jaw 1971 and the second expansion clamping jaw 1972 pairs of semi-finished product are gripped, and after gripping, the first expansion clamping jaw 1971 and the second expansion clamping jaw 1972 are along expansion guide post 1973 is close to each other, so that the distance between two semi-finished product reduce.

Further, semi-finished product turn material drive division 1980 be motor, semi-finished product turn material drive division 1980 by conveyer belt with Semi-finished product turn material rotary shaft 1920 and connect.Further, semi-finished product level turn material connecting rod 1940 two ends by roller respectively with Semi-finished product level turns material cam 1930 and semi-finished product material rotaring machine tool clamping jaw 1970 is connected.Further, semi-finished product turn material company vertically One end of bar 1960 is turned material cam 1950 by roller and abutted vertically with semi-finished product.

Body height adjusting apparatus of the invention, are blocked by setting body height and adjusting screens portion and adjusted with body height The body height adjustment pressing down section that position portion coordinates, the body height to highly differing in tool is adjusted, and improves machine automatization Change the level of production.

Claims (7)

1. a kind of body height adjusting apparatus, it is characterised in that including：Body height adjusts screens portion and is adjusted with body height The body height adjustment pressing down section that screens portion coordinates,

The body height adjustment screens portion includes：Body height adjustment screens pedestal, body height adjustment screens drive division, shell Body Height Adjustment screens rotating shaft, body height adjustment screens cam, body height adjustment screens connecting rod, body height adjustment screens Block,

The body height adjustment screens axis of rotation on body height adjustment screens pedestal, adjust by the body height Whole screens cam is socketed in the body height adjustment screens rotating shaft, and the body height adjusts screens drive division and the shell Body Height Adjustment screens rotating shaft drive connection, the body height adjustment screens block level is slided located at body height adjustment On screens pedestal, it is articulated with the middle part of the body height adjustment screens connecting rod on the body height adjustment screens pedestal, institute The two ends for stating body height adjustment screens connecting rod adjust screens cam and body height adjustment with the body height respectively Screens block is connected, and there is the body height adjustment screens block circular arc body height to adjust screens groove,

The body height adjustment pressing down section includes：Body height adjustment pushes pedestal, body height adjustment and pushes rotating shaft, housing Height Adjustment push cam, body height adjustment push connecting rod, body height adjustment lower lock block, body height adjustment jacking it is convex Wheel, body height adjustment jacking connecting rod, body height adjustment jacking block, body height adjustment push drive division,

The body height adjustment pushes axis of rotation and is pushed on pedestal located at body height adjustment, and the body height is adjusted It is whole to push cam and body height adjustment jacking cam is socketed on body height adjustment and pushes on pedestal, the housing Height Adjustment pushes drive division and pushes rotating shaft drive connection with body height adjustment, and the body height adjustment pushes connecting rod The adjustment of one end and the body height push cam and abut, the body height adjusts the other end and the shell for pushing connecting rod Body Height Adjustment lower lock block is fixedly connected, and one end of the body height adjustment jacking connecting rod adjusts jacking with the body height Cam is abutted, and the other end of the body height adjustment jacking connecting rod is fixedly connected with body height adjustment jacking block, institute State body height adjustment lower lock block and the body height adjustment jacking block vertically reciprocatingly slide it is high located at the housing Degree adjustment is pushed on pedestal.

2. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjusts screens connecting rod Screens cam is adjusted by roller and the body height to be connected.

3. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjusts screens connecting rod Screens block is adjusted by roller and the body height to be connected.

4. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjustment pushes connecting rod One end adjusted by roller and the body height and push cam and abut.

5. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjustment pushes connecting rod Back-moving spring is provided between body height adjustment screens pedestal.

6. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjusts jacking connecting rod One end jacking cam adjusted by roller and the body height abut.

7. body height adjusting apparatus according to claim 1, it is characterised in that the body height adjusts jacking connecting rod Back-moving spring is provided between body height adjustment screens pedestal.