CN209542658U - A kind of lithium battery group detection electrode screen work - Google Patents

Abstract

A kind of lithium battery group detection electrode screen work, including frame and the multiple closed slides being arranged in frame, it is slided in frame in the direction that the guide rail can be moved towards perpendicular to guide rail, multiple sliding blocks are provided on the closed slide, the electrode plate of two mutually insulateds in left and right is provided on sliding block, the closed slide is made of the sub- rail of two groups of mutually insulateds, and two on the sliding block electrode plate is connect with a sub- rail conducting wire respectively.It can make each battery electrode of the assembled good lithium battery group of sliding block alignment by adjusting the position of guide rail and sliding block using lithium battery group detection electrode screen work described in the utility model, realization is facilitated quickly to detect the batch of identical lithium battery group.

Description

A kind of lithium battery group detection electrode screen work

Technical field

The utility model belongs to machinery field, is related to a kind of use in lithium battery detection equipment, and in particular to a kind of lithium battery group Detection electrode screen work.

Background technique

After lithium battery production is installed, for many applicable cases, require after being assembled into a lithium battery array group The performance of the integrated testability lithium battery group, such as output voltage again export electric current and power etc.；But in the prior art to lithium battery group When performance test, independent connecting wire is needed to each lithium battery, is not only easy to happen connection error, but also connects or weld consumption When the time it is long, efficiency is lower.

Utility model content

To overcome technological deficiency present in existing lithium battery group detection process, the utility model discloses a kind of lithium batteries Group detection electrode screen work.

Lithium battery group detection electrode screen work described in the utility model, it is multiple parallel with what is be arranged in frame including frame Guide rail, the direction that the guide rail can be moved towards perpendicular to guide rail are slided in frame, and multiple sliding blocks are provided on the closed slide, The electrode plate of two mutually insulateds in left and right is provided on sliding block, the closed slide is made of the sub- rail of two groups of mutually insulateds, institute Two on sliding block electrode plates are stated to connect with a sub- rail by conducting wire respectively.

Preferably, insulating interlayer is provided between the sub- rail and sub- rail.

Preferably, pass through one or more elastomeric layer connections, two elasticity between the electrode plate and sliding block bottom surface It is isolated between material layer by hard plate.

Further, the elastomeric layer is rubber.

Preferably, the sub- rail is made of the electric connection layer for being located at the top layer at top and being connected to below top layer, the top Layer both ends are provided with pulley, and the sliding slot with pulley cooperation is provided on the inside of the frame.

Preferably, the electrode plate is at circle.

Using lithium battery group detection electrode screen work described in the utility model, by adjusting the position of guide rail and sliding block, The each battery electrode that can make the assembled good lithium battery group of sliding block alignment, facilitates realization quick to the batch of identical lithium battery group Detection.

Detailed description of the invention

Fig. 1 is a kind of specific embodiment structural representation that electrode screen work is used in lithium battery group described in the utility model detection Figure,

Fig. 2 is another specific embodiment structural representation that electrode screen work is used in lithium battery group described in the utility model detection Figure;

Fig. 3 is another specific embodiment structural representation that electrode screen work is used in lithium battery group described in the utility model detection Figure;

The entitled 1- frame of appended drawing reference, 2- guide rail, 3- sliding block, 4- electrode plate, 5- insulating interlayer, 6- conducting wire, 7- in figure Elastomeric layer, 8- hard plate.

Specific embodiment

With reference to the accompanying drawing, specific embodiment of the present utility model is described in further detail.

As shown in Figure 1, lithium battery group detection electrode screen work described in the utility model, including frame and setting are in frame 1 Interior multiple closed slides 2, the direction that the guide rail can be moved towards perpendicular to guide rail are slided in frame, are set on the closed slide Multiple sliding blocks 3 are equipped with, the electrode plate 4 of two mutually insulateds in left and right is provided on sliding block, the closed slide is mutually exhausted by two groups The sub- rail of edge forms, and two electrode plates on the sliding block are connect with a sub- rail by conducting wire 6 respectively.

The same model lithium battery group that the utility model is arranged generally directed to rectangular array format, in use, according to lithium electricity The arrangement and distribution of electrodes of pond group, adjust the position of guide rail and the position of sliding block, are allowed to be directed at each battery electrode, by electrode plate Side is placed towards lithium battery group, contacts electrode plate with electrode of lithium cell, and guide rail and sliding block use the son of mutually insulated in advance Rail and electrode plate are mutually coupled respectively the positive electrode and negative electrode of each lithium battery together, to fast implement all batteries Anode connects with cathode and reaches the effect in parallel of all batteries, can detecte the electrical parameter of lithium battery group.

It is generally insulated using such as plastic sheet of insulating interlayer 5 or insulating coating realization between sub- rail and sub- rail.

In specific implementation shown in Fig. 2, pass through one or more elastic materials between the electrode plate and sliding block bottom surface The bed of material 7 connects, and is isolated between two elastomeric layers by hard plate 8.Elastomeric layer is usually rubber, be may be implemented in this way There are when lesser difference in height between electrode of lithium cell, weight is placed by electrode screen work self gravity or on screen work, is made Electrode plate elastomeric layer corresponding to higher electrode is compressed, and screen work height reduces, and each electrode can be with electrode plate reality Now good contact, electrode plate are traditionally arranged to be circle.It, can by the isolation such as hard plate such as PVC board between multiple elastomeric layers To avoid elastic layer shrink when off-axis, cause electrode plate that cannot be directed at electrode of lithium cell.

As shown in figure 3, sub- rail can be made of the electric connection layer for being located at the top layer at top and being connected to below top layer, it is described Top layer both ends are provided with pulley, and the sliding slot with pulley cooperation is provided on the inside of the frame.Top layer realizes mechanical connection, electrical connection Layer realizes and is electrically connected that the two is mutually isolated, avoids voltage crosstalk, and top layer is generally insulating materials and is made, pulley and sliding slot Cooperation slides sliding rail along frame.

Using lithium battery group detection electrode screen work described in the utility model, by adjusting the position of guide rail and sliding block, The each battery electrode that can make the assembled good lithium battery group of sliding block alignment, facilitates realization quick to the batch of identical lithium battery group Detection.

Previously described each preferred embodiment for the utility model, the preferred embodiment in each preferred embodiment If not obvious contradictory or premised on a certain preferred embodiment, each preferred embodiment can be arbitrarily superimposed It is applied in combination, the design parameter in the embodiment and embodiment is merely to clearly state the utility model of utility model people Verification process, not to limit the scope of patent protection of the utility model, the scope of patent protection of the utility model still with Subject to its claims, the variation of equivalent structure made by all specifications and accompanying drawing content with the utility model, similarly It should be included in the protection scope of the utility model.

Claims (6)

1. a kind of lithium battery group detection electrode screen work, which is characterized in that multiple parallel with what is be arranged in frame including frame Guide rail, the direction that the guide rail can be moved towards perpendicular to guide rail are slided in frame, and multiple sliding blocks are provided on the closed slide, The electrode plate of two mutually insulateds in left and right is provided on sliding block, the closed slide is made of the sub- rail of two groups of mutually insulateds, institute Two on sliding block electrode plates are stated to connect with a sub- rail by conducting wire respectively.

2. lithium battery group detection electrode screen work as described in claim 1, which is characterized in that set between the sub- rail and sub- rail It is equipped with insulating interlayer.

3. lithium battery group detection electrode screen work as described in claim 1, which is characterized in that the electrode plate and sliding block bottom surface Between by one or more elastomeric layers connections, pass through hard plate isolation between two elastomeric layers.

4. lithium battery group detection electrode screen work as claimed in claim 3, which is characterized in that the elastomeric layer is rubber Glue.

5. lithium battery group detection electrode screen work as described in claim 1, which is characterized in that the sub- rail is by being located at top Top layer and the electric connection layer being connected to below top layer form, and the top layer both ends are provided with pulley, are provided on the inside of the frame With the sliding slot of pulley cooperation.

6. lithium battery group detection electrode screen work as described in claim 1, which is characterized in that the electrode plate is at circle.