CN203811137U - Power lithium battery thickness measuring device - Google Patents

Abstract

The utility model discloses a power lithium battery thickness measuring device. The power lithium battery thickness measuring device comprises a lithium battery base and a pair of thickness detection mechanisms which are symmetrically arranged, and each thickness detection mechanism comprises a standard base, a horizontal guiding slide rail, a slide plate, a clamping plate, a cylinder and a raster displacement sensor. The horizontal guiding slide rail is arranged between the standard base and the slide plate, the clamping plate is vertically fixed on the end portion of the slide plate, and the clamping plates of the two thickness detection mechanisms face each other; and the cylinder is fixed on the standard base and the output terminal of the cylinder is fixed with the slide plate in a horizontally-telescoping manner; the lithium battery base is horizontally and fixedly arranged between the two clamping plates, and the thickness of the lithium battery base is smaller than that of a lithium battery; the raster of the raster displacement sensor is fixed with the clamping plate, and a reading head of the raster displacement sensor is fixed with the standard base. The power lithium battery thickness measuring device is simple in structure, convenient for measurement and convenient to control, and the labor intensity is effectively reduced.

Description

Dynamic lithium battery measuring thickness device

Technical field

The utility model relates to a kind of measuring thickness device, relate in particular to a kind of simple in structure, measure convenient, control convenient, effectively to reduce labour intensity dynamic lithium battery measuring thickness device.

Background technology

Along with scientific and technical progress and the application of electronic equipment, lithium battery has been applied to the various aspects in life.Dynamic lithium battery particularly, it is that the source of power is provided for instrument, applies very generally, therefore, each producer all can produce in a large number; Yet, in producing the process of dynamic lithium battery, reason due to production technology, the size of each lithium battery, internal resistance and voltage all can have difference, whether its every data meet standard, and dynamic lithium battery integral body whether qualified all needs just can be learnt its detection, and after detection, be needed according to different data, it to be divided into groups, therefore, when producing, just need to detect each lithium battery.

And detect in this link dynamic lithium battery being carried out to thickness, existing technique is generally by manually carrying out pipeline system detection, detect like this and need a large amount of manpower and material resources, and, manual detection out of true, there is great error, this drives trouble greatly to follow-up lithium battery grouping, and therefore, trouble is measured in existing testing, labour intensity is large, and production efficiency is very low.

Utility model content

The purpose of this utility model be to provide a kind of simple in structure, measure convenient, control convenient, effectively to reduce labour intensity dynamic lithium battery measuring thickness device.

To achieve these goals, the dynamic lithium battery measuring thickness device that the utility model provides comprises lithium battery seat and a pair of thickness detection mechanism arranging symmetrically that is, described thickness detection mechanism comprises reference seat, horizontally-guided slide rail, slide plate, grip block, cylinder and grating displacement sensor, described horizontally-guided slide rail is arranged between described reference seat and slide plate, described grip block is fixed on the end of described slide plate vertically, described in two the described grip block of thickness detection mechanism mutually over against; Described cylinder is fixed on described reference seat and output terminal horizontal extension to be fixed with described slide plate; Described lithium battery seat be laterally fixedly arranged at two described between grip block and carry lithium battery, the thickness of described lithium battery seat is less than the thickness of described lithium battery; The grating of described grating displacement sensor and described grip block are fixed, and the read head of described grating displacement sensor and described reference seat are fixed; Described grating displacement sensor detects the thickness of described lithium battery by the displacement of described slide plate.

Compared with prior art, because the utility model arranges a pair of symmetrical thickness detection mechanism that is, by making described grip block be fixed on described slide plate, described slide plate is arranged to described reference seat horizontally slidingly, thereby described grip block can be moved in the horizontal direction; And by controlling described cylinder, can make two described in grip block can be mutually away from or close, thereby near time can clamp described lithium battery; Again by between described grip block and described reference seat, described grating displacement sensor being set, thereby can accurately detect the displacement of described grip block, and then calculate exactly the thickness of described lithium battery; Therefore, the present invention only need be by simple structure, can realize lithium battery is measured automatically, effectively reduces labour intensity, and measure simple, control convenient.

Preferably, described thickness detection mechanism also comprises auxiliary slide rail, and the both sides of described reference seat are fixed with datum plate, and the side of described grip block is fixed with accessory plate, and described auxiliary slide rail is flatly arranged between described datum plate and described accessory plate; Described grating is fixed on described accessory plate, and described read head is fixed on described datum plate.By accessory plate being set at described grip block and in described reference seat, datum plate being set, therefore, can facilitate the installation of described grating displacement sensor, and described grip block is detected.

Preferably, described dynamic lithium battery measuring thickness device also comprises lifting body, and described lifting body comprises base and jacking cylinder, and described jacking cylinder is fixed on described base and output terminal and described lithium battery seat vertically to be fixed.Because described lithium battery before detection is captured and is positioned over by mechanical arm on described lithium battery seat, and when detecting, described lithium battery is completely described in two between grip block, therefore, after detection completes in order to facilitate mechanical arm that described lithium battery is taken out, described jacking cylinder is set can be by described lithium battery from jacking between grip block described in two, thereby mechanical arm can be taken away rapidly.

Particularly, described lifting body also comprises orienting sleeve and guidepost, and described orienting sleeve is fixed on described base vertically, and described guidepost is socketed on slidably described orienting sleeve and upper end and described lithium battery seat and fixes.The cooperation of described orienting sleeve and guidepost can be played guide effect.

Particularly, described dynamic lithium battery measuring thickness device also comprises code reader, described code reader is arranged at the top of described grip block, the bar code that establish on the surface of described lithium battery, when described lifting body arrives higher than described grip block by described lithium battery jacking, described code reader is to described lithium battery barcode scanning.Due to every lithium battery, all there is the difference such as size, internal resistance, need in process of production described lithium battery to classify and record, therefore, by described lithium battery is carried out to coding, and utilize described code reader when thickness measuring, to carry out barcode scanning and record the information of each piece lithium battery, thereby can prepare for next step classification, effectively improve production efficiency and yields.

Preferably, described slide plate offers long shape hole along glide direction, and described reference seat extends upward fixed head, and described fixed head is through described long shape hole, and described cylinder is fixed on described fixed head; The length of described long shape hole is greater than the sliding stroke of described slide plate.By offer described long shape hole on described slide plate, therefore, described cylinder can be arranged at the top of described slide plate and fix with described fixed head, and the volume that makes like this utility model take is little, and structure is compact and reasonable more.

Preferably, described horizontally-guided slide rail comprises track and slide block, and described track is fixed on the surface of described reference seat, and described slide block is fixed on described slide plate bottom surface, and described slide block is nested on described track slidably.

Accompanying drawing explanation

Fig. 1 is the perspective view of the utility model dynamic lithium battery measuring thickness device.

Fig. 2 is the utility model dynamic lithium battery measuring thickness device front elevation.

Fig. 3 is the utility model dynamic lithium battery measuring thickness device side view.

Embodiment

For the effect that describes technology contents of the present utility model, structural attitude in detail, realizes, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.

As shown in Figure 1, the utility model dynamic lithium battery measuring thickness device 100 comprises lithium battery seat 1, a pair of thickness detection mechanism 2, lifting body 3 and the code reader (not shown) arranging symmetrically that be.

In conjunction with Fig. 1 and Fig. 2, described thickness detection mechanism 2 comprises reference seat 21, horizontally-guided slide rail 22, slide plate 23, grip block 24, cylinder 25, grating displacement sensor 26 and auxiliary slide rail 27.Described horizontally-guided slide rail 22 is arranged between described reference seat 21 and slide plate 23; Described horizontally-guided slide rail 22 comprises track 221 and slide block 222, and described track 221 is fixed on the surface of described reference seat 21, and described slide block 222 is fixed on described slide plate 23 bottom surfaces, and described slide block 222 is nested on described track 221 slidably.Described grip block 24 is fixed on the end of described slide plate 23 vertically, described in two the described grip block 24 of thickness detection mechanism 2 mutually over against.It is fixing with described slide plate 23 that described cylinder 25 is fixed on described reference seat 21 and output terminal horizontal extension; Particularly, described slide plate 23 offers long shape hole 231 along glide direction, and described reference seat 21 extends upward fixed head 211, and described fixed head 211 is through described long shape hole 231, and described cylinder 25 is fixed on described fixed head 211; The length of described long shape hole 231 is greater than the sliding stroke of described slide plate 23.By offer described long shape hole 231 on described slide plate 23, therefore, described cylinder 25 can be arranged at the top of described slide plate 23 and fix with described fixed head 211, and the volume that makes like this utility model take is little, and structure is compact and reasonable more.Described lithium battery seat 1 be laterally fixedly arranged at two described between grip block 24 and carry lithium battery, herein, described lithium battery seat 1 can only move along the vertical direction, can not move along the aspect of surface level, thereby can determine the center of placing described lithium battery, make it as the reference detecting, to facilitate detection; The thickness of described lithium battery seat 1 is less than the thickness of described lithium battery; Described in making two like this, grip block 24 can effectively clamp described lithium battery.

Again as shown in Figure 1, the grating 261 of described grating displacement sensor 26 is fixing with described grip block 24, and the read head 262 of described grating displacement sensor 26 is fixing with described reference seat 21; Described grating displacement sensor 26 detects the thickness of described lithium battery by the displacement of described slide plate 23.Particularly, the both sides of described reference seat 211 are fixed with datum plate 212, and the side of described grip block 24 is fixed with accessory plate 241, and described auxiliary slide rail 27 is flatly arranged between described datum plate 212 and described accessory plate 241; Described grating 261 is fixed on described accessory plate 241, and described read head 262 is fixed on described datum plate 212.By accessory plate 241 being set at described grip block 24 and in described reference seat 21, datum plate 212 being set, therefore, can facilitate the installation of described grating displacement sensor 26, and described grip block 24 is detected.

Refer to Fig. 2 and Fig. 3, described lifting body 3 comprises base 31, jacking cylinder 32, orienting sleeve 33 and guidepost 34, and it is fixing that described jacking cylinder 32 is fixed on described base 31 and output terminal and described lithium battery seat 1 vertically.Because described lithium battery before detection is captured and is positioned over by mechanical arm on described lithium battery seat 1, and when detecting, described lithium battery is completely between grip block described in two 24, therefore, after detection completes in order to facilitate mechanical arm that described lithium battery is taken out, described jacking cylinder 32 is set can be by described lithium battery from jacking between grip block described in two 24, thereby mechanical arm can be taken away rapidly.Described orienting sleeve 33 is fixed on described base 31 vertically, and it is fixing that described guidepost 34 is socketed on described orienting sleeve 33 and upper end and described lithium battery seat 1 slidably.The cooperation of described orienting sleeve 33 and guidepost 34 can be played guide effect.

Described code reader is arranged at the top of described grip block 24, the bar code that establish on the surface of described lithium battery, and when described lifting body 3 arrives higher than described grip block 24 by described lithium battery jacking, described code reader is to described lithium battery barcode scanning.Due to every lithium battery, all there is the difference such as size, internal resistance, need in process of production described lithium battery to divide into groups and record, therefore, by described lithium battery is carried out to coding, and utilize described code reader when thickness measuring, to carry out barcode scanning and record the information of each piece lithium battery, thereby can prepare for next step grouping, effectively improve production efficiency and yields.

Comprehensive above-mentioned and in conjunction with Fig. 1, the utility model dynamic lithium battery measuring thickness device 100 is when thickness measuring, mechanical arm is first positioned over lithium battery on described lithium battery seat 1, then described in starting two, cylinder 25, described cylinder 25 promotes described slide plate 23 and then promotes described grip block 24 to move, and described in two, grip block 24 is mutually near the described lithium battery of clamping; Meanwhile, described grip block 24 drives described accessory plate 241 to move, described accessory plate 241 drives described grating 261 to move, when described grip block 24 clamps after described lithium battery completely, described grating 261 and described read head 262 cooperatively interact and detect the thickness that calculates again described lithium battery after the distance that described grip block 24 moves.After completing detection, described cylinder 25 drives described grip block 24 away from described lithium battery, start described jacking cylinder 32, described jacking cylinder 32 is by described lithium battery seat 1 pushing tow upwards, thereby make described lithium battery increase, when described lithium battery rises to, exceed after described grip block 24, described code reader is carried out sweep record to the bar code on lithium battery, finally, mechanical arm is taken described lithium battery away and is put into next lithium battery and carry out thickness measuring.

Compared with prior art, because the utility model arranges a pair of symmetrical thickness detection mechanism 2 that is, by making described grip block 24 be fixed on described slide plate 23, described slide plate 23 is arranged to described reference seat 21 horizontally slidingly, thereby described grip block 24 can be moved in the horizontal direction; And by controlling described cylinder 25, can make two described in grip block 24 can be mutually away from or close, thereby near time can clamp described lithium battery; Again by described grating displacement sensor 26 is set between described grip block 24 and described reference seat 21, thereby can accurately detect the displacement of described grip block 24, and then calculate exactly the thickness of described lithium battery; In addition, described lifting body 3 and code reader are set again, by 3 pairs of lithium batteries of described lifting body, carry out jacking, thereby facilitate the crawl of mechanical arm, and after jacking, utilize code reader to carry out barcode scanning record to lithium battery, thereby convenient to lithium battery management and classification; Therefore, the present invention only need be by simple structure, can realize lithium battery is measured automatically, effectively reduces labour intensity, and measure simple, control convenient.

The control method of the measuring method of grating displacement sensor 26 described in the utility model and described cylinder 25 and described jacking cylinder 32 is well known to those of ordinary skill in the art, at this, is no longer described in detail.

Above disclosed is only preferred embodiments of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim, still belongs to the scope that the utility model is contained.

Claims (7)

1. a dynamic lithium battery measuring thickness device, it is characterized in that: comprise lithium battery seat and a pair of thickness detection mechanism arranging symmetrically that is, described thickness detection mechanism comprises reference seat, horizontally-guided slide rail, slide plate, grip block, cylinder and grating displacement sensor, described horizontally-guided slide rail is arranged between described reference seat and slide plate, described grip block is fixed on the end of described slide plate vertically, described in two the described grip block of thickness detection mechanism mutually over against; Described cylinder is fixed on described reference seat and output terminal horizontal extension to be fixed with described slide plate; Described lithium battery seat be laterally fixedly arranged at two described between grip block and carry lithium battery, the thickness of described lithium battery seat is less than the thickness of described lithium battery; The grating of described grating displacement sensor and described grip block are fixed, and the read head of described grating displacement sensor and described reference seat are fixed; Described grating displacement sensor detects the thickness of described lithium battery by the displacement of described slide plate.

2. dynamic lithium battery measuring thickness device as claimed in claim 1, it is characterized in that: described thickness detection mechanism also comprises auxiliary slide rail, the both sides of described reference seat are fixed with datum plate, the side of described grip block is fixed with accessory plate, and described auxiliary slide rail is flatly arranged between described datum plate and described accessory plate; Described grating is fixed on described accessory plate, and described read head is fixed on described datum plate.

3. dynamic lithium battery measuring thickness device as claimed in claim 1, it is characterized in that: described dynamic lithium battery measuring thickness device also comprises lifting body, described lifting body comprises base and jacking cylinder, and described jacking cylinder is fixed on described base and output terminal and described lithium battery seat vertically to be fixed.

4. dynamic lithium battery measuring thickness device as claimed in claim 3, it is characterized in that: described lifting body also comprises orienting sleeve and guidepost, described orienting sleeve is fixed on described base vertically, and described guidepost is socketed on slidably described orienting sleeve and upper end and described lithium battery seat and fixes.

5. dynamic lithium battery measuring thickness device as claimed in claim 3, it is characterized in that: described dynamic lithium battery measuring thickness device also comprises code reader, described code reader is arranged at the top of described grip block, the bar code that establish on the surface of described lithium battery, when described lifting body arrives higher than described grip block by described lithium battery jacking, described code reader is to described lithium battery barcode scanning.

6. dynamic lithium battery measuring thickness device as claimed in claim 1, it is characterized in that: described slide plate offers long shape hole along glide direction, described reference seat extends upward fixed head, and described fixed head is through described long shape hole, and described cylinder is fixed on described fixed head; The length of described long shape hole is greater than the sliding stroke of described slide plate.

7. dynamic lithium battery measuring thickness device as claimed in claim 1, it is characterized in that: described horizontally-guided slide rail comprises track and slide block, described track is fixed on the surface of described reference seat, and described slide block is fixed on described slide plate bottom surface, and described slide block is nested on described track slidably.