CN113809799A

CN113809799A - Battery concentrated cluster charging system based on charging pile

Info

Publication number: CN113809799A
Application number: CN202111061638.2A
Authority: CN
Inventors: 葛福胜; 李�杰; 匡旭; 费剑伟
Original assignee: Shenzhen Yidian New Power Co ltd
Current assignee: Shenzhen Yidian New Power Co ltd
Priority date: 2021-09-10
Filing date: 2021-09-10
Publication date: 2021-12-17

Abstract

The invention discloses a charging pile-based battery centralized cluster charging system which comprises an integrated container trailer, a power supply module, an environment control module and a monitoring module, wherein a battery frame is arranged in the integrated container trailer and used for placing a rechargeable battery, the power supply module is provided with a charging power supply by a charging pile, the power supply module is electrically connected with the battery, the monitoring module comprises a battery management unit, an intelligent terminal, a warehouse control unit and an environment monitoring unit, the battery management unit is in communication connection with the charging pile, the intelligent terminal is in communication connection with the battery management unit, the warehouse control unit and the environment monitoring unit, the battery management unit controls the charging pile to output charging information, the warehouse control unit controls the power supply module to charge the battery, the environment control module is used for monitoring the environment information in real time, and the environment monitoring unit is in communication connection with the environment control module. The convenient position adjustment of integral type container trailer satisfies the user demand when the battery peak period, fills electric pile and improves battery charge rate as the power.

Description

Battery concentrated cluster charging system based on charging pile

Technical Field

The invention relates to a battery charging system, in particular to a battery centralized cluster charging system based on a charging pile, which is used for the field of battery charging.

Background

In recent years, the domestic electric vehicle industry is rapidly developed, particularly express enterprises, take-out enterprises and fresh electric suppliers, the rapid development of the take-out and express delivery industries and other immediate delivery industries, professional riders conspired by electric vehicles also show a rapidly increasing trend, and for the part of users, the requirement on the endurance mileage of the electric vehicle is increasingly greater, the battery capacity is increasingly greater, and the requirement on the charging time is increasingly shorter.

Particularly, in first-line cities such as wide and deep north with huge urban population, the number of the replacement cabinets laid in the current market is limited, the situation that the replacement cabinets are laid is limited, and the situation that no battery can be replaced at all or the battery needs to be replaced in a remote place far away in a peak period is frequently heard, so that the economic benefit in the peak period is seriously influenced. If enough batteries in the power exchange cabinet can be replaced in a peak period, more power exchange cabinets need to be laid, a very large area of power exchange cabinet installation site is needed, and obviously, the condition cannot be met at a plurality of positions; the need to increase the battery charging rate, several times the charging current, the need to modify the switchgear or increase the battery charging rate, obviously bring high modification costs or the risk of thermal failure of the battery.

Disclosure of Invention

Aiming at the problems that batteries are replaced in a non-battery replaceable or remote place to be moved and the batteries are charged slowly in the prior art, and the economic benefit in the peak period is seriously influenced, the invention provides a battery centralized cluster charging system based on charging piles, which can conveniently adjust the position by adopting an integrated container trailer, meet the use requirement of the batteries in the use peak period, and simultaneously improve the charging rate of the batteries by adopting the charging piles as a power supply, thereby solving the problems that the batteries are replaced in the non-battery replaceable or remote place to be moved and the batteries are charged slowly in the prior art.

In order to achieve the purpose, the invention provides a battery centralized cluster charging system based on a charging pile, which comprises an integrated container trailer, a power supply module, an environment control module and a monitoring module, wherein a battery frame is arranged in the integrated container trailer and used for placing a charging battery, the power supply module is used for providing charging power by the charging pile, the power supply module is electrically connected with the battery, the monitoring module comprises a battery management unit, an intelligent terminal, a bin control unit and an environment monitoring unit, the battery management unit is in communication connection with the charging pile, the intelligent terminal is in communication connection with the battery management unit, the bin control unit and the environment monitoring unit, the battery management unit controls the charging pile to output charging information, the bin control unit controls the power supply module to charge the battery, the environment control module is used for monitoring environment information in real time, and the environment monitoring unit is in communication connection with the environment control module.

Furthermore, the power supply module comprises a charging power supply and a charging interface, the charging power supply is in communication connection with the charging interface, the warehouse control unit controls the charging power supply to charge the battery, and the charging interface is used for connecting the battery.

Furthermore, the battery rack comprises more than one battery bin, one battery bin corresponds to one bin control unit, one charging power supply and one charging interface, the bin control unit is communicated with the charging power supply through RS485, the bin control unit is communicated with the intelligent terminal through CAN, and the bin control unit is communicated with the battery through RS485 or CAN.

Further, the environment control module still includes fire control unit and heptafluoropropane extinguishing device, be equipped with in the integral type container trailer heptafluoropropane extinguishing device, fire control unit gathers fire information, fire control module with fire information send to the environment monitoring unit, the shower nozzle of environment monitoring unit control heptafluoropropane extinguishing device is opened.

Further, the environment control module includes fire-fighting water pipe interface, water tank, fire-fighting water pipe and water pipe shower nozzle, the integral type container trailer outside is equipped with the fire-fighting water pipe interface, be equipped with in the integral type container trailer water tank, fire-fighting water pipe and the water pipe shower nozzle of being connected with fire-fighting water pipe, fire-fighting water pipe interface with fire-fighting water pipe is linked together, the water tank with fire-fighting water pipe is linked together, the environment monitoring unit controls the water pipe shower nozzle and opens.

Further, the environment control module further comprises an air conditioner, the air conditioner is arranged in the integrated container trailer, the environment monitoring unit collects environment information, and the air conditioner is adjusted in real time according to the environment information.

Further, the integral type container trailer outside is equipped with the rifle interface that charges.

Further, the maximum output voltage of the charging pile is 400V, the maximum output power of the charging power supply is 1KW, and the voltage output voltage range of the charging power supply is 35-75V.

Furthermore, the power supply module further comprises a group of UPS power supplies, and the UPS power supplies power to the monitoring module and the environment control module.

Further, the system further comprises an access control module, the monitoring module collects information of the access control module in real time and controls the charging pile to charge the battery according to the collected information of the access control module.

The invention has the beneficial effects that: the invention provides a charging pile-based battery centralized cluster charging system, which is convenient to adjust the position by adopting an integrated container trailer, meets the use requirement of a battery in a peak period of use, simultaneously adopts a charging pile as a power supply to charge so as to improve the charging rate of the battery, is also convenient to connect with a cluster charging system, and solves the problems that the battery can be replaced without the battery or the battery can be replaced in a remote place and the battery charging is slow in the prior art.

Drawings

Fig. 1 is a schematic flow chart of a charging system for a centralized battery cluster based on charging piles according to the present invention;

fig. 2 is a schematic flow chart of a monitoring module of a charging pile-based battery cluster charging system according to the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-2, the present invention provides a charging pile-based battery centralized cluster charging system, which includes an integrated container trailer, a power supply module 3, an environment control module 2 and a monitoring module 1, wherein a battery rack is disposed in the integrated container trailer, the battery rack is used for placing a rechargeable battery, the power supply module 3 is powered by a charging pile 4, the power supply module 3 is electrically connected to the battery, the monitoring module 1 includes a battery management unit 12, an intelligent terminal 11, a cabin control unit 13 and an environment monitoring unit 14, the battery management unit 12 is in communication connection with the charging pile 4, the intelligent terminal 11 is in communication connection with the battery management unit 12, the cabin control unit 13 and the environment monitoring unit 14, the battery management unit 12 controls the charging pile 4 to output charging information, the cabin control unit 13 controls the power supply module 3 to charge the battery, the environment control module 2 is used for monitoring the environment information in real time, the environment monitoring unit 14 is in communication connection with the environment control module 2. Through adopting integral type container trailer conveniently to carry out the transport to battery cluster charging system, power module 3 is by filling electric pile 4 and providing the direct current, it is the car direct current that wherein fills electric pile 4 and adopt fills electric pile, power module 3 is conveniently connected at any time, and fill electric pile 4 by battery management unit 12 control and whether output charging information for the battery, wherein output charging information is output voltage, the current isoparametric, the convenient effect of supervising in real time of monitoring module 1, can carry out the manual work by the porter to appointed battery changing cabinet to the battery that is full of the electricity, for the user provides the battery and trades the electric service. Meanwhile, the intelligent terminal 11 is used for collecting and controlling the battery management unit 12, the bin control unit 13 and the environment monitoring unit 14, the environment control module 2 monitors environment information in real time and interacts the environment information with the environment monitoring unit 14, the intelligent terminal 11 judges whether to stop charging or reduce charging current or voltage according to the environment information, wherein the environment information comprises the environment temperature in the integrated container trailer, if the environment temperature in the integrated container trailer is overhigh, the intelligent terminal 11 sends charging stopping information to the bin control unit 13 according to the environment information and controls the power supply module 3 to stop charging, if the environment temperature in the integrated container trailer is higher than normal temperature, the intelligent terminal 11 sends charging information for reducing charging current and charging voltage to the battery management unit 12 according to the environment information, safe charging is realized, and fire caused by overhigh temperature is prevented, the intelligent terminal 11 is a smart phone or a computer.

It should be noted that the battery centralized cluster charging system further comprises a cloud monitoring platform and mobile phone APP data, the intelligent terminal is interacted with the cloud monitoring platform and the mobile phone APP data through a 4G/Ethernet communication mode, remote signaling, remote measuring, remote control and remote regulation are achieved, wherein the mobile phone APP is used for a mobile phone of a battery owner to know the charging degree condition in real time, and the cloud monitoring platform monitors the charging process.

In this embodiment, the power supply module 3 includes a charging source and a charging interface, the charging source is in communication connection with the charging interface, the bin control unit 13 controls the charging source to charge the battery, the charging interface is used for connecting the battery, the power supply module 3 is connected in parallel with a plurality of charging sources and charging interfaces, each bin control unit 13 controls a single charging source to start up for one charging source and one charging interface, and therefore independent management of charging of each battery is achieved, and charging is safer.

In this embodiment, the battery rack includes more than one battery compartment, one battery compartment corresponds to one compartment control unit, one charging source and one charging interface, the compartment control unit 13 communicates with the charging source through RS485, the compartment control unit 13 communicates with the intelligent terminal 11 through CAN, the compartment control unit 13 communicates with the battery through RS485 or CAN, wherein the battery is conveniently placed through arranging a plurality of battery compartments on the battery rack, so that the space utilization is maximized, each battery compartment is further provided with one compartment control unit 13, one charging source and one charging interface, so that better charging CAN be conveniently performed, and it needs to be noted that communication connections among other components in the present invention mostly adopt RS485, CAN communication, 4G or ethernet mode communication.

In this embodiment, environmental control module 2 still includes fire control unit and heptafluoropropane extinguishing device, is equipped with heptafluoropropane extinguishing device in the integral type container trailer, and fire control unit gathers fire information, and fire control module sends fire information to environmental monitoring unit, and environmental monitoring unit control heptafluoropropane extinguishing device's shower nozzle is opened. In order to further ensure the safety of the integrated container trailer, the fire-fighting information is acquired through the fire-fighting module, wherein the fire-fighting information is smoke, open fire and the like, and after the fire-fighting information is detected, the environment monitoring unit 14 opens the spray head of the heptafluoropropane fire extinguishing device according to the fire-fighting information to process the fire situation. It should be noted that if a fire occurs, the environment monitoring unit 14 sends the fire-fighting information to the intelligent terminal 11, and the intelligent terminal gives an alarm.

In this embodiment, in order to further have better fire control effect, it still includes fire water pipe interface at environmental control module 2, the water tank, fire water pipe and water pipe shower nozzle, the integral type container trailer outside is equipped with fire water pipe interface, be equipped with the water tank in the integral type container trailer, fire water pipe and the water pipe shower nozzle of being connected with fire water pipe, fire water pipe interface is linked together with fire water pipe, the water tank is linked together with fire water pipe, environment monitoring unit 14 control water pipe shower nozzle is opened, if when taking place the condition of a fire, if the battery spontaneous combustion, when water in the water tank can't satisfy the use, can insert near fire pipeline temporarily and put out a fire for integral type container trailer, further increase the security.

In this embodiment, environmental control module 2 still includes the air conditioner, be equipped with the air conditioner in the integral type container trailer, environmental monitoring unit 14 gathers environmental information, adjust the air conditioner in real time according to environmental information, when gathering environmental information to environmental monitoring unit 14, if the too high condition of leaving the high temperature when integral type container trailer internal environment temperature, environmental monitoring unit 14 control air conditioner is opened, and can regulate and control the temperature size of air conditioner in real time according to environmental information, cooperate the regulation of 11 voltage and the electric current to battery charging of intelligent terminal, reduce the potential safety hazard.

In this embodiment, integral type container trailer outside is equipped with the rifle interface 5 that charges, can be equipped with more than two, satisfies two direct current rifle that charge simultaneously and inserts, and the input power of power can reach 160KW the highest, satisfies the battery charging demand.

In this embodiment, fill electric pile maximum output voltage and give power module for 400V, charging source's maximum output power 1KW, charging source's voltage output voltage range is 35-75V, adopts to fill electric pile charging and improves battery charge rate, satisfies people and is the user demand to quick charge.

In this embodiment, the power supply module 3 further includes a set of UPS power supplies, and the UPS power supplies power to the monitoring module 1 and the environmental control module 2. Adopt the UPS power to prevent the condition that takes place to have a power failure, supply power for monitoring module 1 and environmental control module 2 through the UPS power, satisfy the user demand of outage, the UPS power is the DC48V battery pack.

In this embodiment, the system still includes access control module 6, and monitoring module 1 gathers access control module 6's information in real time, fills electric pile and charges for the battery according to the information control who gathers access control module 6, and wherein gather access control module 6's information in real time and whether someone comes for gather access control module in real time, and monitoring module 1 control is allowed to charge or is prohibited to charge, guarantees that someone gets into in the integral type container trailer and is uncharged, increases the safety in utilization.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A battery centralized cluster charging system based on charging piles is characterized by comprising an integrated container trailer, a power supply module, an environment control module and a monitoring module, wherein a battery frame is arranged in the integrated container trailer and used for placing a charging battery, the power supply module is used for providing charging power by the charging piles, the power supply module is electrically connected with the battery, the monitoring module comprises a battery management unit, an intelligent terminal, a bin control unit and an environment monitoring unit, the battery management unit is in communication connection with the charging piles, the intelligent terminal is in communication connection with the battery management unit, the bin control unit and the environment monitoring unit, the battery management unit controls the charging piles to output charging information, the bin control unit controls the power supply module to charge the battery, the environment control module is used for monitoring the environment information in real time, and the environment monitoring unit is in communication connection with the environment control module.

2. The charging pile-based battery centralized cluster charging system according to claim 1, wherein the power supply module comprises a charging source and a charging interface, the charging source is in communication connection with the charging interface, the warehouse control unit controls the charging source to charge the battery, and the charging interface is used for connecting the battery.

3. The charging pile-based battery centralized cluster charging system according to claim 2, wherein the battery rack comprises more than one battery compartment, one battery compartment corresponds to one compartment control unit, one charging power supply and one charging interface, the compartment control unit communicates with the charging power supply through RS485, the compartment control unit communicates with the intelligent terminal through CAN, and the compartment control unit communicates with the battery through RS485 or CAN.

4. The charging pile-based battery centralized cluster charging system according to claim 1, wherein the environment control module further comprises a fire fighting unit and a heptafluoropropane fire extinguishing device, the heptafluoropropane fire extinguishing device is arranged in the integrated container trailer, the fire fighting unit collects fire fighting information, the fire fighting module sends the fire fighting information to the environment monitoring unit, and the environment monitoring unit controls a spray head of the heptafluoropropane fire extinguishing device to be opened.

5. The charging pile-based battery cluster charging system according to claim 1, wherein the environment control module comprises a fire water pipe interface, a water tank, a fire water pipe and a water pipe nozzle, the fire water pipe interface is arranged outside the integrated container trailer, the water tank, the fire water pipe and the water pipe nozzle connected with the fire water pipe are arranged in the integrated container trailer, the fire water pipe interface is communicated with the fire water pipe, the water tank is communicated with the fire water pipe, and the environment monitoring unit controls the water pipe nozzle to be opened.

6. The charging pile-based battery centralized cluster charging system according to claim 1, wherein the environment control module further comprises an air conditioner, the integrated container trailer is internally provided with an air conditioner, the environment monitoring unit collects environment information, and the air conditioner is adjusted in real time according to the environment information.

7. The charging pile-based battery cluster charging system according to claim 1, wherein a charging gun interface is arranged outside the integrated container trailer.

8. The charging pile-based battery centralized cluster charging system according to claim 2, wherein the maximum output voltage of the charging pile is 400V for the power supply module, the maximum output power of the charging power supply is 1KW, and the voltage output voltage range of the charging power supply is 35-75V.

9. The system of claim 1, wherein the power module further comprises a UPS power supply, and the UPS power supply supplies power to the monitoring module and the environmental control module.

10. The system of claim 1, further comprising an entrance guard module, wherein the monitoring module collects information of the entrance guard module in real time, and controls the charging pile to charge the battery according to the collected information of the entrance guard module.