CN115000610A - Charging energy storage device for lithium battery and cooling operation method - Google Patents

Abstract

The invention provides a charging energy storage device for a lithium battery and a cooling operation method, wherein the charging energy storage device comprises a lithium battery bearing device, a conversion connector and an electricity storage box, wherein the lithium battery bearing device is connected with the electricity storage box through the conversion connector; the lithium battery bearing device comprises a lithium battery bearing box with an opening at one end, an accommodating cavity for placing a lithium battery, and a partition plate arranged on the side wall of the lithium battery bearing box and used for isolating adjacent lithium batteries; the bottom of the lithium battery bearing box is provided with a protective assembly, the protective assembly comprises a cover plate arranged at the bottom of the lithium battery bearing box, a cushion pad and a fixed clamping block which are arranged between the lithium battery bearing box and the cover plate, and the fixed clamping block is arranged on the battery bearing box in a sliding manner and used for opening and closing the cover plate; the conversion connector is positioned in the accommodating cavity and is connected with the lithium battery bearing box in a buckling mode; the invention realizes the quick assembly of the lithium battery and the cover plate thereof, and effectively improves the heat dissipation performance in the charging process.

Description

Charging energy storage device for lithium battery and cooling operation method

Technical Field

The invention mainly relates to the technical field of electric energy storage, in particular to a charging energy storage device for a lithium battery and a cooling operation method.

Background

Lithium batteries refer to batteries that contain lithium (including metallic lithium, lithium alloys and lithium ions, lithium polymers) in an electrochemical system. Lithium batteries can be broadly classified into two types: lithium metal batteries and lithium ion batteries. Lithium metal batteries are generally non-rechargeable and contain lithium in a metallic state. Lithium ion batteries do not contain lithium in the metallic state and are rechargeable.

Current lithium ion battery is in charging process, need use the battery apron to assemble the protection to the battery, and traditional apron and battery equipment in-process, the process is loaded down with trivial details, and the not convenient to use person carries out fast assembly to the battery apron, simultaneously, in transportation or use, causes the battery to collide each other because of jolting, leads to the life of battery and battery apron to reduce.

In addition, the existing lithium ion battery is used for many electronic products, which needs to be charged frequently, however, the existing charging device can only charge a single battery, and during charging, the power storage device can generate large heat in the output process, so that the battery is heated and expanded, the service life of the battery is finally shortened, and the charging device is easily damaged due to overheating, and the practicability of the charging device is not very strong.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a charging energy storage device for a lithium battery and a cooling operation method, which realize the quick assembly and effective protection of the lithium battery and a cover plate thereof, effectively improve the heat dissipation performance in the charging process, and solve the problems of complicated assembly, poor protection performance and poor heat dissipation performance in the charging process of the conventional lithium battery and the cover plate.

In order to realize the purposes of quickly assembling and effectively protecting the lithium battery and the cover plate thereof and effectively improving the heat dissipation performance in the charging process, the invention provides the following technical scheme: a charging energy storage device for a lithium battery comprises a lithium battery bearing device, a conversion connector and an electricity storage box, wherein the lithium battery bearing device is connected with the electricity storage box through the conversion connector;

the lithium battery bearing device comprises a lithium battery bearing box with an opening at one end, an accommodating cavity for placing a lithium battery, and a partition plate arranged on the side wall of the lithium battery bearing box and used for isolating adjacent lithium batteries;

the protection assembly is arranged at the bottom of the lithium battery bearing box and comprises a cover plate arranged at the bottom of the lithium battery bearing box, a cushion pad and a fixed fixture block which are arranged between the lithium battery bearing box and the cover plate, and the fixed fixture block is arranged on the battery bearing box in a sliding manner and is used for opening and closing the cover plate;

the conversion connector is located and holds the intracavity to bear the weight of the box with the lithium cell and pass through the buckle mode and be connected.

Furthermore, above-mentioned conversion connector is including the plate electrode that is used for connecting the lithium cell, with the fixing base that plate electrode formula structure as an organic whole was used for connecting the electricity storage box to and establish on the fixing base and be used for pegging graft the binding post in electricity storage box 1.

Furthermore, electricity storage device and temperature sensor are arranged in the cavity of the electricity storage box, one end, away from the wiring terminal, of the electricity storage box is connected with a charging connector in an inserting mode, and the charging connector is electrically connected with the wiring terminal through the electricity storage device.

Furthermore, the inner side wall of the power storage box cavity is provided with a heat radiation fan communicated to the outside.

Furthermore, the surface of the electricity storage box is provided with a control unit and an indicator light for displaying the electric quantity of the electricity storage device.

Furthermore, the side wall of the electricity storage box is provided with a dustproof cover corresponding to the charging connector in a sliding mode.

Furthermore, the electricity storage box is composed of a shell with an opening at one end and an end cover connected to the opening end of the shell, and the end cover is fixedly connected with the shell through a bolt.

A cooling operation method of a charging energy storage device for a lithium battery comprises the following steps:

step S1, placing the lithium battery in the accommodating cavity, wherein the lithium battery is isolated from the outside;

step S2, judging whether the power storage device needs to be connected with an external power supply according to the energy storage threshold value displayed by the indicator light;

step S3, starting charging the lithium battery;

in step S4, the control unit drives the cooling fan to maintain the power storage device at the optimum operating temperature according to the feedback from the temperature sensor.

Further, the above-mentioned energy storage threshold value that shows when the pilot lamp is less than the lithium cell and needs to supply the electric quantity value, connects external power source with this energy storage device that charges for the lithium cell, charges again, and the energy storage threshold value that shows when the pilot lamp is greater than the lithium cell and needs to supply the electric quantity value, need not to connect external power source, directly charges.

Further, the control unit drives the cooling fan to cool according to the fact that the temperature of the power storage device detected by the temperature sensor is larger than a preset value, and shuts down the cooling fan when the temperature of the power storage device detected is lower than the preset value, wherein the preset value is within a range of +10 ℃.

The invention has the beneficial effects that:

firstly, aiming at solving the problems that the conventional lithium battery and cover plate are complex to assemble, poor in protection performance and poor in heat dissipation performance in the charging process, the charging energy storage device for the lithium battery is connected with the conversion connector in a buckling mode to realize quick assembly, and meanwhile, due to the arrangement of the partition plate and the protection assembly, the collision of the lithium battery in the lithium battery bearing box is reduced, and the service lives of the lithium battery and the lithium battery bearing box are prolonged;

furthermore, the control unit is arranged, and the heat dissipation fan is driven to dissipate heat according to the temperature change of the power storage device, so that the stability of the lithium battery in the charging process is ensured;

furthermore, this lithium cell is with energy storage device that charges, whole adaptability is high, and portable not only can store the power and charge to the lithium cell, can also external other power to lithium cell charging.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is a schematic view of a connection structure of a lithium battery carrying device and a conversion connector according to the present invention;

FIG. 4 is a cross-sectional view of the structure of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of the connection structure of the conversion connector and the electricity storage box according to the present invention;

FIG. 6 is a cross-sectional view of the structure of FIG. 5 in accordance with the present invention;

in the figure, the position of the upper end of the main shaft,

1. a power storage box; 2. a lithium battery carrying case; 3. an accommodating chamber; 4. a partition plate; 5. a cover plate; 6. a cushion pad; 7. fixing the fixture block; 8. an electrode plate; 9. a fixed seat; 10. a wiring terminal; 11. an electricity storage device; 12. a temperature sensor; 13. a charging connector; 14. a heat radiation fan; 15. a dust cover; 16 an indicator light; 17. a control unit.

Detailed Description

In order to make the technical solutions of the present invention better understood and make the above features, objects, and advantages of the present invention more comprehensible, the present invention is further described with reference to the following examples. The examples are intended to illustrate the invention only and are not intended to limit the scope of the invention.

Example 1: as shown in fig. 1-6, the present invention provides a charging energy storage device for a lithium battery, which comprises a lithium battery carrying device, a conversion connector, and an energy storage box 1; the lithium battery carrying device is connected with the power storage box 1 through the conversion connector.

The lithium battery bearing device comprises a lithium battery bearing box 2, an accommodating cavity 3 and a partition plate 4, wherein one end of the lithium battery bearing box 2 is open, the accommodating cavity 3 is used for accommodating a lithium battery, and the partition plate 4 is arranged on the side wall of the lithium battery bearing box 2 and used for isolating adjacent lithium batteries to prevent the lithium batteries from unnecessary friction; the lithium cell bears 2 bottoms on the box and is equipped with protective assembly, protective assembly includes and comprises apron 5, blotter 6 and fixed fixture block 7, and apron 5 is located the lithium cell and is born 2 bottoms on the box, and blotter 6 and fixed fixture block 7 are all located the lithium cell and are born between box 2 and the apron 5, and blotter 6 is used for providing and provides the buffering in jolting, avoids causing the collision, and fixed fixture block 7 slides and establishes on battery bears box 2 and is used for opening and close apron 5.

The conversion connector is positioned in the accommodating cavity 3 and connected with the lithium battery bearing box 2 in a buckling mode, so that the assembly and disassembly are convenient, and the use efficiency is improved; conversion connector includes to be become by electrode board 8, fixing base 9 and binding post 10, and electrode board 8 is used for connecting the lithium cell of placing in holding chamber 3, and fixing base 9 and 8 formula structures as an organic whole of electrode board are used for connecting storage box 1, and binding post 10 establishes on fixing base 9 and is used for pegging graft in storage box 1.

An electric storage device 11 and a temperature sensor 12 are arranged in a cavity of the electric storage box 1, a charging connector 13 is inserted into one end of the electric storage box 1, which is far away from the wiring terminal 10, and the charging connector 13 is preferably a tail socket, a USB interface, two vertical jacks or three vertical jacks; the side wall of the electricity storage box 1 is slidably provided with a dustproof cover 15 corresponding to the charging connector 13, so that dust is prevented from entering the charging connector 13 when an external power supply is not connected; the charging connector 13 is electrically connected with the connecting terminal 10 through the electricity storage device 11; a heat radiation fan 14 communicated to the outside is arranged on the inner side wall of the cavity of the electricity storage box 1; the surface of the electricity storage box 1 is provided with a control unit 17 and an indicator light 16 for displaying the electricity quantity of the electricity storage device 11.

Wherein, electricity storage box 1 is the shell of opening form by one end to and connect the end cover at the shell open end and constitute, and the end cover passes through bolt and shell fixed connection, conveniently installs and maintains the part of 1 intracavity in electricity storage box.

Example 2: the invention also provides a cooling operation method of the charging energy storage device for the lithium battery, which comprises the following steps:

first, place the lithium cell in holding chamber 3, the lithium cell is isolated with external.

And secondly, judging whether the electricity storage device 11 needs to be connected with an external power supply or not according to the energy storage threshold value displayed by the indicating lamp 16, connecting the charging energy storage device for the lithium battery with the external power supply when the energy storage threshold value displayed by the indicating lamp 16 is smaller than the lithium battery electricity supplementing value, then charging, and directly charging when the energy storage threshold value displayed by the indicating lamp 16 is larger than the lithium battery electricity supplementing value without being connected with the external power supply.

And thirdly, charging the lithium battery.

Fourthly, the control unit 17 drives the heat dissipation fan 14 to enable the power storage device 11 to be at the optimal working temperature according to the feedback of the temperature sensor 12, drives the heat dissipation fan 14 to dissipate heat when the temperature of the power storage device 11 detected by the temperature sensor 12 is greater than the preset value, and shuts down the heat dissipation fan 14 when the temperature of the power storage device 11 detected is less than the preset value, wherein the preset value is within a range of +10 ℃.

In use,

when the lithium cell need charge, only need place the lithium cell and hold in chamber 3, bear the box 2 with the lithium cell again through conversion connector with store up electric box 1 connect can, when the storage device 11 electric quantity in the storage box 1 is not enough, be connected the joint 13 that charges on the storage box 1 with external power source, alright realize continuing to charge.

To sum up, this lithium cell is with energy storage device that charges, the dismouting and the installation of being convenient for, the maintenance in the later stage of also being convenient for.

The above-described embodiments are merely illustrative of the principles and utilities of the present patent application and are not intended to limit the present patent application. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of this patent application. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical concepts disclosed in the present application shall be covered by the claims of this patent application.

Claims (10)

1. The charging energy storage device for the lithium battery is characterized by comprising a lithium battery bearing device, a conversion connector and an energy storage box (1), wherein the lithium battery bearing device is connected with the energy storage box (1) through the conversion connector;

the lithium battery bearing device comprises a lithium battery bearing box (2) with one open end, an accommodating cavity (3) for accommodating a lithium battery, and a partition plate (4) which is arranged on the side wall of the lithium battery bearing box (2) and used for isolating adjacent lithium batteries;

the protection assembly is arranged at the bottom of the lithium battery bearing box (2), and comprises a cover plate (5) arranged at the bottom of the lithium battery bearing box (2), a cushion pad (6) and a fixed fixture block (7) which are arranged between the lithium battery bearing box (2) and the cover plate (5), wherein the fixed fixture block (7) is arranged on the lithium battery bearing box (2) in a sliding manner and is used for opening and closing the cover plate (5);

the conversion connector is positioned in the accommodating cavity (3) and connected with the lithium battery bearing box (2) in a buckling mode.

2. The charging energy storage device for a lithium battery as claimed in claim 1, wherein: the conversion connector comprises an electrode plate (8) used for connecting a lithium battery, a fixing seat (9) which is in an integrated structure with the electrode plate (8) and used for connecting the electricity storage box (1), and a wiring terminal (10) which is arranged on the fixing seat (9) and used for being inserted into the electricity storage box (1).

3. The charging energy storage device for a lithium battery as claimed in claim 2, wherein: the solar battery charging box is characterized in that an electricity storage device (11) and a temperature sensor (12) are arranged in the cavity of the electricity storage box (1), one end, far away from the wiring terminal (10), of the electricity storage box (1) is connected with a charging connector (13) in an inserting mode, and the charging connector (13) is electrically connected with the wiring terminal (10) through the electricity storage device (11).

4. The charging energy storage device for a lithium battery as claimed in claim 3, wherein: and a heat radiation fan (14) communicated to the outside is arranged on the inner side wall of the cavity of the electricity storage box (1).

5. The charging and energy storage device for a lithium battery as claimed in claim 4, wherein: the surface of the electricity storage box (1) is provided with a control unit (17) and an indicator light (16) for displaying the electric quantity of the electricity storage device (11).

6. The charging energy storage device for a lithium battery as claimed in claim 3, wherein: the side wall of the electricity storage box (1) is slidably provided with a dustproof cover (15) which is arranged corresponding to the charging connector (13).

7. The charging and energy storage device for a lithium battery as claimed in claim 1, wherein: the electricity storage box (1) is composed of a shell with an opening at one end and an end cover connected to the opening end of the shell, and the end cover is fixedly connected with the shell through a bolt.

8. A cooling operation method of a charging energy storage device for a lithium battery comprises the following steps:

step S1, placing the lithium battery in the accommodating cavity (3), wherein the lithium battery is isolated from the outside;

step S2, judging whether the power storage device (11) needs to be connected with an external power supply according to the energy storage threshold value displayed by the indicator light (16);

step S3, starting charging the lithium battery;

in step S4, the control unit (17) drives the heat dissipation fan (14) to bring the power storage device (11) to the optimum operating temperature based on the feedback from the temperature sensor (12).

9. The cooling operation method of the charging energy storage device for the lithium battery as claimed in claim 8, wherein: in the step S2, when the energy storage threshold displayed by the indicator light (16) is smaller than the electric quantity value required to be supplemented by the lithium battery, the charging energy storage device for the lithium battery is connected to an external power supply for charging, and when the energy storage threshold displayed by the indicator light (16) is larger than the electric quantity value required to be supplemented by the lithium battery, the lithium battery is directly charged without being connected to the external power supply.

10. The cooling operation method of the charging energy storage device for the lithium battery as claimed in claim 8, wherein: in the step S4, according to the temperature of the power storage device (11) detected by the temperature sensor (12) being greater than the predetermined value, the control unit (17) drives the heat dissipation fan (14) to dissipate heat, and shuts down the heat dissipation fan (14) when the temperature of the power storage device (11) being less than the predetermined value, and the predetermined value is within +10 ℃.

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