CN215284419U

CN215284419U - Intelligent battery replacement system

Info

Publication number: CN215284419U
Application number: CN202022819212.6U
Authority: CN
Inventors: 薛振山; 何建; 唐添
Original assignee: Shenzhen Long Power Technology Co ltd
Current assignee: Shenzhen Long Power Technology Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-12-24
Anticipated expiration: 2030-11-30

Abstract

The utility model provides an intelligent battery replacement system, which comprises a battery replacement cabinet and a lithium battery; the power exchange cabinet comprises a power exchange cabinet shell, a power exchange cabinet main control board, a charging and power exchange program main control board, a charging power supply, a thermoelectric refrigeration assembly and a temperature monitoring device; the shell of the power exchange cabinet comprises a power supply cabin, a charging cabin and a control cabin; the main control board of the battery replacement cabinet is respectively connected with the main control board of the charging and battery replacement program, the charging power supply, the thermoelectric refrigeration assembly and the temperature monitoring device; the lithium cell that can compatible multiple specification, the temperature in cabin of charging can be regulated and control automatically, but also can heat up or cool down the lithium cell through the electric core temperature in the monitoring lithium cell to and put out a fire through water jet equipment when cabin or lithium cell surface of charging are on fire, thereby can avoid the lithium cell to take place violent explosion in charging process, solve the technical problem that exists when the lithium cell charges and trades the electricity among the prior art.

Description

Intelligent battery replacement system

Technical Field

The utility model relates to a battery technology field especially relates to an intelligence trades electric system.

Background

At present, electric bicycles, electric motorcycles and electric tricycles are important transportation tools for urban and rural residents in China, the number of the electric bicycles, the electric motorcycles and the electric tricycles is more than 3 hundred million vehicles kept in the country, and the vehicles use a large number of lithium batteries. And the lithium battery often takes place the explosion accident of catching fire when charging, causes the serious consequence of casualties, house or whole parking shed burnout. At present, governments, organizations and enterprises in many places recommend and even enforce the adoption of a charging box mode to charge the lithium battery.

The lithium battery may suffer the following problems when charged in a charging box.

1. In winter in the north, the air temperature is lowered to below zero, and most lithium batteries cannot be charged below zero. In summer in the south, the temperature in the charging box under direct sunlight can reach 60 ℃. However, most lithium batteries affect the performance at a temperature above 45 ℃, and as the temperature continues to rise, the risk of fire and explosion increases accordingly.

2. There is still a possibility of fire and explosion of the lithium battery when charged in the charging box. A passive fire extinguishing system is usually installed in the existing charging box, namely, a fire disaster is judged through smoke and temperature sensors arranged in the charging box, and the fire extinguishing system is automatically started. However, this method is basically ineffective, mainly because when the ambient temperature of the charging box reaches the starting temperature of the fire extinguishing system or smoke is generated, the lithium battery is completely out of control, and the lithium battery cannot be basically prevented from violent explosion.

3. The charging cabinet can only charge one or a small number of lithium batteries, and the charging cabinet needs to be replaced when the batteries are replaced.

SUMMERY OF THE UTILITY MODEL

In view of the above shortcoming of prior art, the utility model aims to provide an intelligence trades electric system and method can compatible multiple specification lithium cell, automatic regulation and control charging cabin temperature, active fire prevention etc to solve the common problem when the lithium cell charges and trades the electricity.

In order to achieve the above objects and other related objects, the present invention provides an intelligent battery replacement system, which comprises a battery replacement cabinet and a lithium battery; the power exchange cabinet comprises a power exchange cabinet shell, a power exchange cabinet main control board, a charging and power exchange program main control board, a charging power supply, a thermoelectric refrigeration assembly and a temperature monitoring device; the shell of the power exchange cabinet comprises a power supply cabin, a charging cabin and a control cabin; the main control board of the battery replacement cabinet is respectively connected with the main control board of the charging and battery replacement program, the charging power supply, the thermoelectric refrigeration assembly and the temperature monitoring device;

the power supply cabin is used for accommodating a charging power supply;

the charging cabin is used for accommodating a lithium battery, and the lithium battery is charged by the charging power supply;

the control cabin is used for accommodating a main control panel of the battery replacement cabinet and a charging and battery replacement program control panel, and the charging and battery replacement program control panel is connected and communicated with a battery management system BMS in the lithium battery;

the radiator is positioned at the upper part of the charging cabin, and circulating water is communicated with the inside of the radiator;

the thermoelectric refrigeration assembly is attached to the radiator and serves as a heating source of the circulating water;

the temperature monitoring device is used for monitoring the temperature of the battery cell in the lithium battery; when the temperature monitoring device monitors that the temperature of a battery core in a lithium battery is lower than the corresponding charging temperature, the main control board of the battery changing cabinet controls the thermoelectric refrigeration assembly to heat the power supply cabin; when the temperature monitoring device monitors that the temperature of the battery cell in the lithium battery is higher than the safe temperature, the main control board of the battery changing cabinet controls the radiator to radiate and cool the power supply cabin.

Optionally, the power exchange cabinet further comprises a water spraying device connected with the main control board of the point changing cabinet, and the water spraying device is located at the upper part of the charging cabin; when the temperature monitoring device monitors that the temperature of the battery core in the lithium battery exceeds the early warning temperature or monitors that the surface of the lithium battery is on fire, the main control board of the battery changing cabinet opens an electromagnetic valve for controlling the water spraying device to be opened and closed, and the water spraying device is used for spraying water to the charging cabin and the surface of the lithium battery.

Optionally, the charging power supply is an intelligent power supply, and the output voltage and current of the intelligent power supply are continuously adjustable in the process of charging the lithium battery.

Optionally, the charging system also comprises a water tank positioned in the power supply cabin, a pipeline connected to each charging cabin and a water circulation pressurization system;

the radiator, the water spraying device, the water tank positioned in the power supply cabin, the pipeline connected to each charging cabin and the water circulation pressurization system form a water circulation system; and the power supply cabin is heated, cooled and sprayed with water through the water circulation system.

Optionally, the method further comprises using waste heat generated when the power supply in the power supply cabin works as a heating source of the circulating water.

Optionally, a camera supporting face recognition is installed on the front surface of the power transformation cabinet.

Optionally, the temperature monitoring device is composed of a charging power supply temperature monitoring sensor, a lithium battery cell temperature monitoring sensor, a thermoelectric refrigeration assembly surface temperature monitoring sensor and a water temperature monitoring sensor.

Optionally, the method further comprises the steps of combining the electricity changing cabinet main control panel, the charging and electricity changing program control panel and the battery management system BMS in the lithium battery, identifying the lithium batteries with different specifications, and providing special charging programs for the different batteries according to preset logics.

The utility model also provides an as in any one above-mentioned intelligence trades electric method, including following step:

monitoring the cell temperature in the lithium battery;

when the temperature of a battery core in the lithium battery is monitored to be lower than the corresponding charging temperature, the thermoelectric refrigeration assembly is controlled by the main control board of the battery replacement cabinet to heat the power supply cabin;

or when the temperature of the battery cell in the lithium battery is monitored to be higher than the safe temperature, the heat radiator is controlled by the main control board of the battery changing cabinet to radiate and cool the power supply cabin;

or when the temperature of the battery core in the lithium battery exceeds the early warning temperature, the main control board of the battery changing cabinet opens an electromagnetic valve for controlling the water spraying device to open and close, and the water spraying device is used for spraying water to the charging cabin and the surface of the lithium battery.

As above, the utility model provides an intelligence trades electric system has following beneficial effect: the lithium cell that can compatible multiple specification, the temperature in cabin of charging can be regulated and control automatically, but also can heat up or cool down the lithium cell through the electric core temperature in the monitoring lithium cell to and put out a fire through water jet equipment when cabin or lithium cell surface of charging are on fire, thereby can avoid the lithium cell to take place violent explosion in charging process, solve the technical problem that exists when the lithium cell charges and trades the electricity among the prior art.

Drawings

Fig. 1 is a schematic diagram of a hardware structure of an intelligent battery swapping system;

fig. 2 is a schematic flow chart of the intelligent battery swapping method.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

Referring to fig. 1, the utility model provides an intelligent battery replacement system, which comprises a battery replacement cabinet and a lithium battery; the power exchange cabinet comprises a power exchange cabinet shell, a power exchange cabinet main control board, a charging and power exchange program main control board, a charging power supply, a thermoelectric refrigeration assembly and a temperature monitoring device; the shell of the power exchange cabinet comprises a power supply cabin, a charging cabin and a control cabin; the main control board of the battery replacement cabinet is respectively connected with the main control board of the charging and battery replacement program, the charging power supply, the thermoelectric refrigeration assembly and the temperature monitoring device;

the power supply cabin is used for accommodating a charging power supply;

In an exemplary embodiment, the power exchange cabinet further comprises a water spraying device connected with the main control board of the point exchange cabinet, and the water spraying device is positioned at the upper part of the charging cabin; when the temperature monitoring device monitors that the temperature of the battery core in the lithium battery exceeds the early warning temperature or monitors that the surface of the lithium battery is on fire, the main control board of the battery changing cabinet opens an electromagnetic valve for controlling the water spraying device to be opened and closed, and the water spraying device is used for spraying water to the charging cabin and the surface of the lithium battery. The system can prevent the lithium battery from exploding on fire or extinguishing the fire for the lithium battery out of control by spraying water into the charging cabin and the surface of the lithium battery.

According to the above description, the charging power supply in the system is an intelligent power supply, and the output voltage and current of the intelligent power supply are continuously adjustable in the process of charging the lithium battery.

In an exemplary embodiment, the charging system further comprises a water tank positioned in the power supply cabin, a pipeline connected to each charging cabin and a water circulation pressurization system; the radiator, the water spraying device, the water tank positioned in the power supply cabin, the pipeline connected to each charging cabin and the water circulation pressurization system form a water circulation system; and the power supply cabin is heated, cooled and sprayed with water through the water circulation system.

In an exemplary embodiment, the heat pump further comprises a heat source for heating the circulating water by using the residual heat generated when the power supply in the power supply cabin works.

In an exemplary embodiment, a camera supporting face recognition is installed on the front face of the power change cabinet.

In an exemplary embodiment, the temperature monitoring device is composed of a charging power supply temperature monitoring sensor, a lithium battery cell temperature monitoring sensor, a thermoelectric cooling assembly surface temperature monitoring sensor and a water temperature monitoring sensor.

In an exemplary embodiment, the method further comprises the steps of combining the main control board of the electricity changing cabinet, the charging and electricity changing program control board and the battery management system BMS in the lithium battery, identifying the lithium batteries with different specifications, and providing special charging programs for the different batteries according to preset logic.

As an example, the utility model particularly provides a lithium cell trades electric system, including: the power exchange cabinet and the lithium battery. The power exchange cabinet comprises a power exchange cabinet shell, a power exchange cabinet main control board, a charging and power exchange program control board, a charging power supply, a water circulation system, a refrigerating and heating system, a fireproof water spraying system and a temperature monitoring system. The lithium battery is an intelligent lithium battery, and a Battery Management System (BMS) of the intelligent lithium battery has the functions of monitoring parameters such as the electric quantity of the battery, the temperature of a battery cell and the like and can be communicated with a charging program control panel. The battery replacement cabinet shell comprises a power supply cabin, a control cabin and a plurality of charging cabins. The radiator is positioned at the upper part in the charging cabin, and circulating water is introduced into the radiator. The refrigerating and heating system adopts a thermoelectric refrigerating assembly, the assembly is attached to a radiator, and heat generated during working is taken away through circulating water. The assembly also serves as a heating source for heating the circulating water. The water spraying device is positioned at the upper part in the charging box; the battery core temperature of the lithium battery pack is completely monitored in the charging process, and when the system monitors that the battery core temperature is lower than the charging temperature of the lithium battery, the thermoelectric refrigeration assembly starts to heat the battery compartment; when the system monitors that the temperature of the battery core is higher than the safety temperature of the lithium battery, the refrigerating system is started to cool the interior of the charging box and the lithium battery; when the system monitors that the temperature of the battery core exceeds the early warning temperature or the battery has the risk of fire explosion, the system opens the electromagnetic valve, water can be sprayed to the cabin and the surface of the lithium battery, and the lithium battery is prevented from being exploded by fire or put out of fire for the lithium battery which is out of control and has been ignited. Wherein, all control panels are located in the control cabin, and all charging power supplies and strong electric equipment are located in the power supply cabin. The charging power supply is an intelligent power supply, and the output voltage and current of the charging power supply are continuously adjustable. The water circulation system consists of a water tank positioned in the power supply cabin, a pipeline connected to each charging cabin, a radiator, a water spraying device and a water circulation pressurization control system. The refrigerating and heating system adopts a thermoelectric refrigerating assembly, the assembly is attached to a radiator, and heat generated during refrigerating work is taken away through circulating water. The component is also a main heating source for heating circulating water, and the other heating source is waste heat generated by the power supply in the power supply cabin during working. The fireproof water spraying system consists of a water spraying device, a water spraying control valve and a control system, wherein the water spraying device is installed at the upper part of the charging cabin. And when the control system monitors that the temperature of the battery core in the lithium battery is too high, the water spraying control valve is opened to spray water to the charging cabin and the lithium battery. The temperature monitoring system is composed of a charging power supply temperature monitoring sensor, a lithium battery cell temperature monitoring sensor, a thermoelectric refrigeration assembly surface temperature monitoring sensor and a water temperature monitoring sensor. The front side of the power exchange cabinet is provided with a camera which supports a face recognition power exchange function. The charging management control system composed of the main control board, the charging and battery replacing program control board and the lithium battery BMS can identify lithium batteries with different specifications and provide special charging programs for different batteries according to preset logic. The charging management control system composed of the main control board, the charging and battery replacing program control board and the lithium battery BMS actively enters the fire prevention and extinguishing program in advance by monitoring the temperature of the lithium battery cell.

To sum up, the lithium cell that this system can compatible multiple specification can regulate and control the temperature in cabin of charging automatically, but also can heat up or cool down the lithium cell through the electric core temperature in the monitoring lithium cell to and put out a fire through the water jet equipment water spray when cabin or lithium cell surface of charging are on fire, thereby can avoid the lithium cell to take place violent explosion in the charging process, has solved the technical problem that exists when the lithium cell charges and trades the electricity among the prior art.

As shown in fig. 2, the utility model also provides an intelligence method of swapping battery for in the intelligence system of swapping battery of above-mentioned arbitrary, the method includes following step:

monitoring the cell temperature in the lithium battery;

The specific functions of the method can be realized by referring to the embodiments, and the details are not repeated herein. The method can be compatible with lithium batteries of various specifications, can automatically regulate and control the temperature of the charging cabin, can also heat or cool the lithium batteries by monitoring the temperature of the battery core in the lithium batteries, and can extinguish fire by spraying water through the water spraying device when the charging cabin or the surfaces of the lithium batteries are on fire, thereby avoiding the severe explosion of the lithium batteries in the charging process and solving the technical problem existing in the prior art when the lithium batteries are charged and replaced.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. 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 the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. An intelligent battery replacement system is characterized by comprising a battery replacement cabinet and a lithium battery; the power exchange cabinet comprises a power exchange cabinet shell, a power exchange cabinet main control board, a charging and power exchange program main control board, a charging power supply, a thermoelectric refrigeration assembly and a temperature monitoring device; the shell of the power exchange cabinet comprises a power supply cabin, a charging cabin and a control cabin; the main control board of the battery replacement cabinet is respectively connected with the main control board of the charging and battery replacement program, the charging power supply, the thermoelectric refrigeration assembly and the temperature monitoring device;

the power supply cabin is used for accommodating a charging power supply;

2. The intelligent battery replacement system according to claim 1, further comprising a water spraying device connected with the main control board of the battery replacement cabinet, wherein the water spraying device is located at the upper part of the charging cabin; when the temperature monitoring device monitors that the temperature of the battery core in the lithium battery exceeds the early warning temperature or monitors that the surface of the lithium battery is on fire, the main control board of the battery changing cabinet opens an electromagnetic valve for controlling the water spraying device to be opened and closed, and the water spraying device is used for spraying water to the charging cabin and the surface of the lithium battery.

3. The intelligent battery replacement system according to claim 1, wherein the charging power supply is an intelligent power supply, and the output voltage and current of the intelligent power supply are continuously adjustable during charging of the lithium battery.

4. The intelligent battery replacement system according to claim 1, further comprising a water tank located in the power supply compartment, a pipeline connected to each charging compartment, and a water circulation pressurization system;

5. The intelligent battery replacement system according to claim 1, further comprising a heating source for using waste heat generated by the power supply in the power supply cabin during operation as the circulating water.

6. The intelligent battery replacement system according to claim 1, wherein a camera supporting face recognition is mounted on the front face of the battery replacement cabinet.

7. The intelligent battery replacement system according to claim 1, wherein the temperature monitoring device is composed of a charging power supply temperature monitoring sensor, a lithium battery cell temperature monitoring sensor, a thermoelectric cooling assembly surface temperature monitoring sensor and a water temperature monitoring sensor.