CN201594063U

CN201594063U - Abrasion testing tool for battery labels

Info

Publication number: CN201594063U
Application number: CN2009202501131U
Authority: CN
Inventors: 卢晓庆; 闫秋丽
Original assignee: Tianjin Lishen Battery JSCL
Current assignee: Tianjin Lishen Battery JSCL
Priority date: 2009-11-10
Filing date: 2009-11-10
Publication date: 2010-09-29
Anticipated expiration: 2019-11-10

Abstract

The utility model discloses an abrasion testing tool for battery labels, which comprises a bottom plate (1). Two parallel sliding rods (3) are fixed on the bottom plate and penetrate through the front end and the rear end of a hollow sliding mold (2), the top of the sliding mold (2) is provided with at least one press rod (5) in a penetrating manner, the bottom of the at least one press rod (5) is fixedly connected with a friction block (4), and a to-be-tested battery label is disposed at a position, corresponding to the friction block (4), on the bottom plate (1). The testing tool with simple and convenient operation is capable of controlling friction pressure on the battery label, accurately measuring abrasion resistance of the battery label while retaining fixed friction pressure on the battery label, guaranteeing consistency of label abrasion resistance measurement, and forming industrial scale, thereby having important production and practice values.

Description

A kind of battery label friction testing tool

Technical field

The utility model relates to the battery technology field, particularly relates to a kind of battery label friction testing tool.

Background technology

Advantages such as lithium ion battery has high working voltage, high-energy-density, has extended cycle life, non-environmental-pollution, not only on portable communication apparatus and portable electric appts, be used widely, and be widely used in big-and-middle-sized electrical equipment aspects such as electric automobile, electric bicycle and electric tool, be the main direction of present each macrocell producer development.

For lithium ion battery, label on it not only can be with battery surface and other outer material isolation of battery, play the effect of insulation, also writing down comprising of battery of performance and the related data of production information own, if in transportation or use, the label of battery weares and teares, cause some battery information to be lost, especially the production information of Da Yining just can't be reviewed when battery goes wrong so, also just is difficult to search reason and improvement.

Therefore, label is as the important component part of lithium battery, and the quality of its scratch-resistant performance directly has influence on the quality of battery and safe in utilization.This shows that the scratch-resistant performance of measuring label is whether qualified just to seem very crucial.

At present to the measurement of the wear-resisting wiping of label, be to be undertaken by the mode of artificial manual friction, the pressure that exists friction like this is uncontrollable, problems such as the discontinuity of attrition surface, make the effect of friction that very big difference be arranged, can't guarantee the consistance and the accuracy of the wear-resisting wiping measurement of label.

The utility model content

In view of this; the purpose of this utility model provides a kind of battery label friction testing tool; it is simple to operation; can control the pressure that battery label is rubbed; when keeping the pressure fixing that battery label is rubbed, measure the scratch-resistant performance of battery label exactly, guaranteed the consistance that the label scratch-resistant performance is measured; can form the scale of industry, be of great practical significance.

For this reason, the utility model provides a kind of battery label friction testing tool, includes chassis 1, is set with two litter parallel to each other 3 on the described chassis 1, and described two litter 3 run through the rear and front end of the sliding block 2 of a hollow;

Described sliding block 2 tops are run through and are provided with at least one depression bar 5, fixedly connected with a friction block 4 in the bottom of described depression bar 5, battery label to be detected be positioned on the described chassis 1 with friction block 4 corresponding positions on.

Preferably, described sliding block 2 tops are vertically run through and are provided with four depression bars 5, fixedly connected with described friction block 4 in the bottom of described four depression bars 5.

Preferably, described friction block 4 comprises interconnected briquetting 41 and rubber 42, and described briquetting 41 is the briquetting of rectangle, fixedlys connected with the bottom of described four depression bars 5 respectively in four angles of described briquetting 41, and described rubber 42 is positioned on the bottom surface of described briquetting 41.

Preferably, described battery label to be detected be positioned at described friction block 4 under.

Preferably, the top of described friction block 4 is placed with counterweight 6.

The technical scheme that is provided by above the utility model as seen; compared with prior art; a kind of battery label friction testing tool that the utility model provides; it is simple to operation, can control the pressure that battery label is rubbed, when keeping the pressure fixing that battery label is rubbed; measure the scratch-resistant performance of battery label exactly; guaranteed the consistance that the label scratch-resistant performance is measured, can form the scale of industry, be of great practical significance.

Description of drawings

The structural representation of a kind of battery label friction testing tool that Fig. 1 provides for the utility model;

The right view of a kind of battery label friction testing tool that Fig. 2 provides for the utility model;

The right view of a kind of battery label friction testing tool when being placed with counterweight that Fig. 3 provides for the utility model;

The vertical view of a kind of battery label friction testing tool when being placed with counterweight that Fig. 4 provides for the utility model;

Among the figure, 1 is the chassis, and 2 is sliding block, and 3 is litter, and 4 is friction block, and 41 is briquetting, and 42 is rubber, and 5 is depression bar, and 6 is counterweight.

Embodiment

In order to make those skilled in the art person understand the utility model scheme better, the utility model is described in further detail below in conjunction with drawings and embodiments.

The structural representation of a kind of battery label friction testing tool that Fig. 1 provides for the utility model.

Referring to Fig. 1, the utility model provides a kind of battery label friction testing tool, includes chassis 1, and the rear and front end on described chassis 1 is set with two litter parallel to each other 3, and described two litter 3 run through the rear and front end of the sliding block 2 of a hollow;

On the specific implementation, the rear and front end of described sliding block 2 all has through hole, and litter 3 passes this through hole, thereby sliding block 2 can carry out move left and right along this litter 3;

Referring to Fig. 2, described sliding block 2 tops are vertically run through and are provided with four depression bars 5, and described depression bar 5 can move in vertical direction;

In the utility model, fixedly connected with a friction block 4 in the bottom of described four depression bars 5, described friction block 4 is positioned at described sliding block 2 the insides, battery label to be detected be positioned on the described chassis 1 with friction block 4 corresponding positions on, described battery label to be detected specifically be preferably be positioned at described friction block 4 under;

On the specific implementation, described friction block 4 comprises interconnected briquetting 41 and rubber 42, described briquetting 41 is the briquetting of rectangle, fixedly connected with the bottom of described four depression bars 5 respectively in four angles of described briquetting 41, described rubber 42 is positioned on the bottom surface of described briquetting 41, described battery label to be detected be positioned at described rubber 42 under;

In the utility model, described briquetting 41 is the metal briquetting, and described rubber 42 is industrial rubber;

Referring to Fig. 3, on the specific implementation, the top of described friction block 4 can be placed with counterweight 6, the top that is specially described briquetting 41 can be placed with counterweight 6, thereby specific requirement according to different battery label friction testings, by placing the counterweight of Different Weight, can allow depression bar 5 move down different distances in vertical direction, adjust the pressure that 4 pairs of friction blocks are positioned at the battery label of its below simultaneously, therefore, the utility model can be under the fixing prerequisite that keep-ups pressure, by move left and right sliding block 2, friction block 4 can rub to battery label, thereby can avoid because the rubbing contact area that manual friction causes changes, the variation of exerting pressure rubs, problems such as rubbing surface discontinuity, guarantee to measure the scratch-resistant performance of battery label exactly, and guaranteed the consistance that the label scratch-resistant performance is measured.

In sum; compared with prior art; the utility model provides a kind of battery label friction testing tool; it is simple to operation, can control the pressure that battery label is rubbed, when keeping the pressure fixing that battery label is rubbed; measure the scratch-resistant performance of battery label exactly; guaranteed the consistance that the label scratch-resistant performance is measured, can form the scale of industry, be of great practical significance.

The above only is a preferred implementation of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. a battery label friction testing tool is characterized in that, includes chassis (1), is set with two litter parallel to each other (3) on described chassis (1), and described two litter (3) run through the rear and front end of the sliding block (2) of a hollow;

Described sliding block (2) top is run through and is provided with at least one depression bar (5), fixedlys connected with a friction block (4) in the bottom of described depression bar (5), battery label to be detected be positioned at that described chassis (1) is gone up and the corresponding position of friction block (4) on.

2. battery label as claimed in claim 1 friction testing tool is characterized in that, described sliding block (2) top is vertically run through and is provided with four depression bars (5), fixedlys connected with described friction block (4) in the bottom of described four depression bars (5).

3. battery label friction testing tool as claimed in claim 2, it is characterized in that, described friction block (4) comprises interconnected briquetting (41) and rubber (42), described briquetting (41) is the briquetting of rectangle, fixedly connected with the bottom of described four depression bars (5) respectively in four angles of described briquetting (41), described rubber (42) is positioned on the bottom surface of described briquetting (41).

4. battery label as claimed in claim 1 friction testing tool is characterized in that, described battery label to be detected be positioned at described friction block (4) under.

5. as each described battery label friction testing tool in the claim 1 to 4, it is characterized in that the top of described friction block (4) is placed with counterweight (6).