CN210778860U - Polymer lithium ion battery formation clamp - Google Patents

Abstract

The utility model discloses a polymer lithium ion battery formation clamp, which comprises a mounting rack, clamping mechanisms and a conductive mechanism, wherein the clamping mechanisms are arranged on the mounting rack and used for clamping a lithium ion battery, and the conductive mechanism is used for connecting the clamping mechanisms and a charging point of a pre-charging cabinet; the clamping assembly comprises a positive conductive clamp and a negative conductive clamp which are oppositely arranged, and the opening of the conductive clamp faces to the direction far away from the side plate; the conductive mechanism comprises a positive conductive plate and a negative conductive plate which are horizontally inserted into the side plate and far away from one side of the lower substrate, the positive conductive plate is connected with the positive conductive clamp through a conductive wire, and the negative conductive plate is connected with the negative conductive clamp through a conductive wire. The utility model discloses a fixture is used for centre gripping lithium ion battery on the mounting bracket in the setting, simple structure, and working property is stable, utilizes electrically conductive mechanism to be used for connecting the charge position of fixture and pre-charging cabinet, will this become anchor clamps and pre-charging cabinet charge the position and be connected, has thoroughly optimized the single problem of pre-charging cabinet position, and easy to operate can recycle.

Description

Polymer lithium ion battery formation clamp

Technical Field

The utility model belongs to the technical field of polymer lithium ion battery production facility, especially, relate to a polymer lithium ion battery ization becomes anchor clamps.

Background

After the lithium ion battery is manufactured, the internal positive and negative electrode substances of the lithium ion battery need to be activated in a certain charging and discharging mode, the charging and discharging performance, the self-discharging performance, the storage performance and other comprehensive performances of the battery are improved, the process is called formation, the formation is a key process in the production process of the polymer lithium ion battery, and the formation result is directly related to the performance and the service life of the battery. The traditional formation method comprises the following steps: the pre-charging batteries are all carried out by adopting a pre-charging cabinet, the pre-charging cabinet is provided with a plurality of charging point positions, each point position can only pre-charge one battery, the time and labor are consumed, each point position of the pre-charging cabinet can only pre-charge 1 battery, and the next battery can be pre-charged again only after the pre-charging is finished.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, provide a polymer lithium ion battery ization becomes anchor clamps, through setting up fixture is used for centre gripping lithium ion battery on the mounting bracket, simple structure, and the working property is stable, utilizes electrically conductive mechanism is used for connecting the charge site of fixture and pre-charging cabinet is connected this becomes anchor clamps and pre-charging cabinet charge site, has thoroughly optimized the single problem of pre-charging cabinet site, and easy to operate can recycle.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a polymer lithium ion battery ization becomes anchor clamps which characterized in that: the device comprises a mounting rack, clamping mechanisms and a conductive mechanism, wherein the clamping mechanisms are arranged on the mounting rack and used for clamping the lithium ion battery, and the conductive mechanism is used for connecting the clamping mechanisms and a charging point position of a pre-charging cabinet;

the mounting frame comprises an upper substrate, a lower substrate and a support column, wherein the upper substrate is horizontally arranged, the lower substrate is horizontally arranged right below the upper substrate, the support column is vertically supported between the upper substrate and the lower substrate, one sides of the upper substrate and the lower substrate are connected through a side plate, and the upper substrate, the lower substrate and the side plate are processed into a whole;

the clamping mechanism comprises a plurality of first clamping assemblies arranged on an upper substrate and a plurality of second clamping assemblies arranged on a lower substrate, the first clamping assemblies and the second clamping assemblies are identical in structural size, each clamping assembly comprises a positive conductive clamp and a negative conductive clamp which are oppositely arranged, and an opening of each conductive clamp faces to a direction far away from the side plate;

the conductive mechanism comprises a positive conductive plate and a negative conductive plate which are horizontally inserted into one side of the side plate far away from the lower substrate, the positive conductive plate is connected with the positive conductive clamp through a conductive wire, and the negative conductive plate is connected with the negative conductive clamp through a conductive wire.

The polymer lithium ion battery formation clamp is characterized in that: the structure size of upper substrate and infrabasal plate all is the same, upper substrate, infrabasal plate and curb plate are the rectangular plate, support column and curb plate all lay along the width direction of infrabasal plate, the width of curb plate equals with the width of infrabasal plate.

The polymer lithium ion battery formation clamp is characterized in that: the support column is fixedly connected with the upper substrate and the lower substrate through fastening bolts.

The polymer lithium ion battery formation clamp is characterized in that: the first clamping components are arranged along the length direction of the upper substrate, the second clamping components are arranged along the length direction of the lower substrate, and the number of the first clamping components is equal to that of the second clamping components.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses a setting is in fixture is used for centre gripping lithium ion battery on the mounting bracket, simple structure, and working property is stable, utilizes electrically conductive mechanism is used for connecting the charge site of fixture and pre-charging cabinet will this become anchor clamps and pre-charging cabinet charge the site and be connected, has thoroughly optimized the single problem of pre-charging cabinet site, and easy to operate can recycle.

2. The utility model discloses a support column of vertical support between upper substrate and infrabasal plate installs the upper substrate directly over the infrabasal plate, has guaranteed the stability when upper substrate and infrabasal plate use, prevents to use lead to the fact the deformation of upper substrate and infrabasal plate in the fixed lithium ion battery process of conductive clamp; when the formation clamp is used for pre-charging, the lithium ion battery to be pre-charged can be placed on the formation clamp for preparation before lifting, the utilization rate of equipment is increased, and formation time is saved.

3. The utility model discloses in positive current conducting plate passes through the conductor wire and is connected with the electrically conductive clamp of positive pole, the negative pole current conducting plate passes through the conductor wire and is connected with the electrically conductive clamp of negative pole, constitutes parallelly connected mode, becomes to a plurality of lithium ion battery simultaneously, has saved the shared space of lithium ion battery formation anchor clamps, has improved the manual formation efficiency, replaces traditional pre-charging cabinet charge point position can only pre-charge a lithium ion battery's drawback, realizes a plurality of lithium ion battery of pre-charging simultaneously.

To sum up, the utility model discloses a set up fixture is used for centre gripping lithium ion battery on the mounting bracket, simple structure, and working property is stable, utilizes electrically conductive mechanism is used for connecting the charge point location of fixture and pre-charging cabinet is connected this one-tenth anchor clamps and pre-charging cabinet charge point location, has thoroughly optimized the single problem of pre-charging cabinet point location, and easy to operate can recycle.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

Description of reference numerals:

1-negative conductive plate; 2-an upper substrate; 3-lower substrate;

4-a support column; 5, a side plate; 6, fastening bolts;

7-positive conductive clip; 8-a negative conductive clip; 9-positive conductive plate.

Detailed Description

As shown in fig. 1 and 2, the present invention comprises a mounting frame, a clamping mechanism disposed on the mounting frame for clamping a lithium ion battery, and a conductive mechanism for connecting the clamping mechanism with a charging point of a pre-charging cabinet;

the mounting frame comprises an upper base plate 2, a lower base plate 3 and a supporting column 4, wherein the upper base plate 2 is horizontally arranged, the lower base plate 3 is horizontally arranged right below the upper base plate 2, the supporting column 4 is vertically supported between the upper base plate 2 and the lower base plate 3, one sides of the upper base plate 2 and the lower base plate 3 are connected through a side plate 5, and the upper base plate 2, the lower base plate 3 and the side plate 5 are processed and manufactured into a whole;

the clamping mechanism comprises a plurality of first clamping assemblies arranged on the upper substrate 2 and a plurality of second clamping assemblies arranged on the lower substrate 3, the first clamping assemblies and the second clamping assemblies are identical in structural size, each clamping assembly comprises a positive conductive clamp 7 and a negative conductive clamp 8 which are oppositely arranged, and an opening of each conductive clamp faces to a direction far away from the side plate 5;

the conductive mechanism comprises a positive conductive plate 9 and a negative conductive plate 1 which are horizontally inserted into one side of the side plate 5 far away from the lower substrate 3, the positive conductive plate 9 is connected with a positive conductive clamp 7 through a conductive wire, and the negative conductive plate 1 is connected with a negative conductive clamp 8 through a conductive wire.

During the in-service use, through setting up fixture is used for centre gripping lithium ion battery on the mounting bracket, simple structure, and working property is stable, utilizes electrically conductive mechanism is used for connecting fixture and the position of charging of pre-charging cabinet are connected this one-tenth anchor clamps and pre-charging cabinet position of charging, have thoroughly optimized the single problem of pre-charging cabinet position, and easy to operate can recycle.

The upper substrate 2 is arranged right above the lower substrate 3 through the support columns 4 vertically supported between the upper substrate 2 and the lower substrate 3, so that the stability of the upper substrate 2 and the lower substrate 3 in use is ensured, and the deformation of the upper substrate 2 and the lower substrate 3 caused in the process of fixing the lithium ion battery by using the conductive clips is prevented; when the formation clamp is used for pre-charging, the lithium ion battery to be pre-charged can be placed on the formation clamp for preparation before lifting, the utilization rate of equipment is increased, and formation time is saved.

The positive electrode conducting plate 9 is connected with the positive electrode conducting clamp 7 through a conducting wire, the negative electrode conducting plate 1 is connected with the negative electrode conducting clamp 8 through a conducting wire, a parallel connection mode is formed, a plurality of lithium ion batteries are formed simultaneously, the space occupied by the lithium ion battery forming clamp is saved, the manual forming efficiency is improved, the defect that only one lithium ion battery can be precharged at the charging point of a traditional precharging cabinet is replaced, and a plurality of lithium ion batteries are precharged simultaneously is realized.

It should be noted that, upper substrate 2, infrabasal plate 3, support column 4 and curb plate 5 all adopt the ABS material to make, can mould plastics the production and can alleviate the weight of this formation anchor clamps to it, insulating, improvement factor of safety simultaneously. Particularly, the conductive wires connecting the positive conductive clamp 7 and the negative conductive clamp 8 are uniformly distributed in the mounting frame, and the mounting frame can keep the appearance of the clamp.

In this embodiment, the structural dimensions of the upper substrate 2 and the lower substrate 3 are the same, the upper substrate 2, the lower substrate 3 and the side plates 5 are rectangular plates, the supporting columns 4 and the side plates 5 are arranged along the width direction of the lower substrate 3, and the width of the side plates 5 is equal to the width of the lower substrate 3.

As shown in fig. 1, one side of the side plate 5 is fixedly connected with the bottom of the lower substrate 3, the other side of the side plate 5 extends to the upper side of the upper substrate 2, the side plate 5 connects the upper substrate 2 and the lower substrate 3 for connecting the conductive mechanism, and the side plate 5 extending to the upper side of the upper substrate 2 can be used as a handle for use and convenient to move when the forming clamp is moved. The number of the support columns 4 is two, and the two support columns 4 are symmetrically arranged along the width direction of the lower substrate 3.

In this embodiment, the supporting posts 4 are fixedly connected with the upper substrate 2 and the lower substrate 3 through fastening bolts 6.

As shown in fig. 1 and 2, the supporting columns 4 are disposed between the upper substrate 2 and the lower substrate 3 by fastening bolts 6, which play a role of supporting and fixing, and prevent the first clamping assembly mounted on the upper substrate 2 from being unstable in fixing and affecting the second clamping assembly mounted on the lower substrate 3. And mounting holes for mounting the fastening bolts 6 are formed in the upper substrate 2 and the lower substrate 3.

In this embodiment, the first clamping assemblies are arranged along the length direction of the upper substrate 2, the second clamping assemblies are arranged along the length direction of the lower substrate 3, and the number of the first clamping assemblies is equal to that of the second clamping assemblies.

As shown in fig. 1, the conductive clip is composed of a rectangular clip plate and a fold line-shaped clip plate, one side of the two clip plates forms a clip opening of the conductive clip, and the other side of the two clip plates is fixedly connected through a connecting spring.

The utility model discloses during the use, install the lithium ion battery that will change into earlier on this becomes anchor clamps, press from both sides lithium ion battery's positive pole on the electrically conductive clamp 7 of positive pole, lithium ion battery's negative pole presss from both sides on the electrically conductive clamp 8 of negative pole, then with the corresponding installation of positive current conducting plate 9 and negative pole current conducting plate 1 on the curb plate 5 on the positive pole and the negative pole of the position of charging of preliminary filling cabinet, change into the lithium ion battery of installing on this becomes anchor clamps.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (4)

1. The utility model provides a polymer lithium ion battery ization becomes anchor clamps which characterized in that: the device comprises a mounting rack, clamping mechanisms and a conductive mechanism, wherein the clamping mechanisms are arranged on the mounting rack and used for clamping the lithium ion battery, and the conductive mechanism is used for connecting the clamping mechanisms and a charging point position of a pre-charging cabinet;

the mounting frame comprises an upper base plate (2) arranged horizontally, a lower base plate (3) arranged below the upper base plate (2) horizontally and a supporting column (4) vertically supported between the upper base plate (2) and the lower base plate (3), one sides of the upper base plate (2) and the lower base plate (3) are connected through a side plate (5), and the upper base plate (2), the lower base plate (3) and the side plate (5) are processed into a whole;

the clamping mechanism comprises a plurality of first clamping assemblies arranged on an upper substrate (2) and a plurality of second clamping assemblies arranged on a lower substrate (3), the first clamping assemblies and the second clamping assemblies are identical in structural size, each clamping assembly comprises a positive conductive clamp (7) and a negative conductive clamp (8) which are oppositely arranged, and an opening of each conductive clamp faces to a direction far away from the side plate (5);

the conductive mechanism comprises an anode conductive plate (9) and a cathode conductive plate (1) which are horizontally inserted into the side plate (5) and far away from one side of the lower substrate (3), the anode conductive plate (9) is connected with an anode conductive clamp (7) through a conductive wire, and the cathode conductive plate (1) is connected with a cathode conductive clamp (8) through a conductive wire.

2. The polymer lithium ion battery formation fixture of claim 1, wherein: the structure size of upper substrate (2) and infrabasal plate (3) is the same, upper substrate (2), infrabasal plate (3) and curb plate (5) are the rectangular plate, support column (4) and curb plate (5) all lay along the width direction of infrabasal plate (3), the width of curb plate (5) equals with the width of infrabasal plate (3).

3. The polymer lithium ion battery formation fixture of claim 1, wherein: the support column (4) is fixedly connected with the upper substrate (2) and the lower substrate (3) through fastening bolts (6).

4. The polymer lithium ion battery formation jig of claim 2, wherein: the first clamping components are arranged along the length direction of the upper substrate (2), the second clamping components are arranged along the length direction of the lower substrate (3), and the number of the first clamping components is equal to that of the second clamping components.

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