CN110535214A - Power exchange cabinet system - Google Patents

Abstract

The invention belongs to the technical field of battery sharing, and is particularly a power exchange cabinet system, including a main board, an external antenna, an electric meter, an external temperature sensor, a speaker, a heating plate, a fan, an RS485 bus and multiple lock control boards, and is characterized in that : The external antenna, electric meter, external temperature sensor, loudspeaker, heating plate, fan and RS485 bus are all connected to the main board, and a plurality of lock control boards are all connected to the RS485 bus. The invention can detect the temperature and humidity in the battery cabinet and the temperature outside the cabinet, and can dynamically adjust the operating temperature and humidity in the battery cabinet according to the detection results, so as to ensure that the temperature and humidity in the battery cabinet are suitable, and it is beneficial to prolong the service life of each component , can automatically match the appropriate charging voltage and charging current according to the battery model, with stronger applicability, and can intelligently set the charging current of the battery during the peak and valley periods of battery replacement, so as to shorten the charging time and save energy.

Description

Power exchange cabinet system

technical field

The present invention relates to a technical field, in particular to a power exchange cabinet system.

Background technique

The battery replacement cabinet, also known as the shared battery cabinet, is a quick battery replacement product for riders, outsourced delivery guys, express delivery guys and other battery car users. It can help these users quickly complete the replacement of battery car batteries, thereby improving this category To improve the work efficiency, and then better serve the society.

The power exchange cabinet system in the prior art has the following disadvantages. One is the lack of temperature and humidity control functions. Due to the large number of electronic devices in the power exchange cabinet, a large amount of heat will be generated during operation, which needs to be dissipated in time, otherwise it will accelerate. The electronic components in the cabinet are aging, and the power exchange cabinets are mostly placed outdoors. If the humidity in the cabinet is too high in humid weather, it is easy to cause short-circuit failures in the electronic devices in the cabinet; secondly, the power exchange cabinet system in the prior art cannot Automatically adapting the charging power source and current according to different types of batteries has poor applicability, low charging efficiency, and poor energy-saving effect. Therefore, a power exchange cabinet system is proposed.

Contents of the invention

The object of the present invention is to solve the shortcomings in the prior art, and propose a power exchange cabinet system.

In order to achieve the above-mentioned purpose, the present invention adopts the following technical solutions: a power exchange cabinet system, including a main board, an external antenna, an electric meter, an external temperature sensor, a speaker, a heating plate, a fan, an RS485 bus and a plurality of lock control boards. In that: the external antenna, electric meter, external temperature sensor, loudspeaker, heating plate, fan and RS485 bus are all connected to the main board, and a plurality of lock control boards are all connected to the RS485 bus.

Preferably, the main board includes an MCU, a backup battery, a voice playback circuit, a 4G communication module, a heating control module, a fan control module and an onboard temperature and humidity sensor.

Preferably, the 4G communication module is connected with an external antenna.

Preferably, the lock control board is connected with two chargers and two battery boxes, and the two chargers are respectively connected with the two battery boxes.

Preferably, the battery box is provided with a battery, an electromagnetic lock and an infrared sensor.

Preferably, the electromagnetic lock, the infrared sensor and the battery are all connected to the lock control board, and the battery is connected to the charger.

Compared with prior art, the beneficial effect of the present invention is:

①The present invention mounts multiple lock control boards on the RS485 bus, which can freely combine the number of any battery compartments, and the control is simple. When the mains power is cut off, the backup battery can be used to complete the power-off report function, which is more reliable;

②The present invention can know the current temperature and humidity in the battery cabinet through the on-board temperature and humidity sensor, and can detect the temperature value of the external environment of the battery cabinet through the external temperature sensor, and control the operation and shutdown of the fan and heating plate according to the detection results , in order to dynamically adjust the temperature and humidity of the operating environment in the battery cabinet to ensure that the temperature and humidity in the battery cabinet are appropriate, which is conducive to prolonging the service life of each component;

③The present invention can obtain detailed information of the battery through the lock control board, send instructions to the charger according to the obtained information, set the suitable charging voltage and charging current, and can automatically adapt to different types of batteries, with stronger applicability; change batteries during the day During peak hours, the lock control board can send instructions to the charger to set high-current charging to shorten the charging time. When the frequency of battery replacement is low at night, the lock control board can send instructions to the charger to set low-current charging to achieve the purpose of energy saving;

④ The present invention can communicate with the battery in the battery compartment in real time through the lock control board to judge whether the returned battery is correct. When the battery fails, it can detect whether there is a battery in the compartment according to the infrared sensor. It is beneficial for the relevant staff to carry out maintenance in time.

Description of drawings

Fig. 1 is a block diagram of the present invention;

Fig. 2 is a block diagram of the lock control board system in the present invention.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Please refer to Figures 1-2, the present invention provides a technical solution: power exchange cabinet system, including a main board, an external antenna, an electric meter, an external temperature sensor, a speaker, a heating plate, a fan, an RS485 bus and multiple locks The control board is characterized in that: external antenna, electric meter, external temperature sensor, speaker, heating plate, fan and RS485 bus are all connected to the main board, and multiple lock control boards are all connected to the RS485 bus;

The main board includes MCU, backup battery, voice playback circuit, 4G communication module, heating control module, fan control module and onboard temperature and humidity sensor. The 4G communication module is connected to an external antenna, and the lock control board is connected to two chargers and two battery box, and two chargers are connected with two battery boxes respectively, battery box, electromagnetic lock and infrared sensor are arranged in battery box, electromagnetic lock, infrared sensor and battery are all connected with lock control board, battery is connected with charger, in Multiple lock control boards are mounted on the RS485 bus, and the number of any battery compartments can be freely combined. The control is simple. When the mains power is cut off, the backup battery can be used to complete the power-off reporting function, which is more reliable; through the on-board temperature and humidity sensor The current temperature and humidity in the battery cabinet can be known, and the temperature value of the external environment of the battery cabinet can be detected through an external temperature sensor, and the operation and shutdown of the fan and heating plate can be controlled according to the detection results, so as to dynamically adjust the operation in the battery cabinet temperature and humidity to ensure a suitable environment in the battery cabinet, which is conducive to prolonging the service life of each component; the detailed information of the battery can be obtained through the lock control board, and the charger can be sent instructions according to the obtained information to set the appropriate charging voltage and charging current. Automatically adapt to different types of batteries; during the peak time of battery replacement during the day, the lock control board can send instructions to the charger to set high current charging, shortening the charging time, and at night when the frequency of battery replacement is low, the lock control board can send instructions to the charger Set low current charging to achieve the purpose of energy saving; the lock control board can communicate with the battery in the battery compartment in real time to judge whether the returned battery is correct. When the battery fails, it can detect whether there is a battery in the compartment according to the infrared sensor. If the battery fails to communicate, it will report the fault, which is beneficial for the relevant staff to carry out timely maintenance.

In this embodiment, multiple lock control boards are mounted on the RS485 bus, and any number of battery compartments can be freely combined. The 4G communication module can communicate with the server in real time, report the overall status and data of the battery cabinet, and receive various data from the server. Instructions, when the mains power is cut off, the backup battery can be used to complete the power-off report function. During the power-changing operation, the user can control the speaker through the voice playback circuit to prompt the user for the operation steps and the warehouse door number, which can be known through the on-board temperature and humidity sensor. The current temperature and humidity in the battery cabinet, and send the temperature and humidity in the battery cabinet to the server in real time through the 4G communication module. The main board communicates with the meter to complete the remote meter reading function and remotely obtain the power consumption of the battery cabinet; The sensor can detect the temperature value of the external environment of the battery cabinet, and control the operation and shutdown of the fan and heating plate according to the comparison results, so as to dynamically adjust the operating temperature and humidity of the battery cabinet to ensure a suitable environment in the battery cabinet;

The lock control board can obtain the detailed information of the battery, and then know the detailed type of the battery, and then send instructions to the charger according to the obtained information to set the appropriate charging voltage and charging current, so that it can automatically adapt to different types of batteries; change batteries during the day During peak hours, in order to shorten the charging time, the lock control board sends instructions to the charger to set a high current charging. At this time, the charger runs at high power. When the frequency of battery replacement is low at night, the battery can be charged slowly, and the lock control board charges the battery. The charger sends an instruction to set a low current charging. At this time, the charger runs at a low power, so as to achieve the purpose of energy saving; the lock control board can also communicate with the battery in the battery compartment in real time to judge whether the returned battery is correct. According to the battery replacement process , control the opening of the electromagnetic lock of the battery compartment door, and detect the closing of the compartment door in real time; when the battery fails, it can detect whether there is a battery in the compartment according to the infrared sensor, and report the fault for the battery that has a battery but fails to communicate.

The above is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, any person familiar with the technical field within the technical scope disclosed in the present invention, according to the technical solution of the present invention Any equivalent replacement or change of the inventive concepts thereof shall fall within the protection scope of the present invention.

Claims (6)

1. The power exchange cabinet system includes a main board, an external antenna, an electric meter, an external temperature sensor, a speaker, a heating plate, a fan, an RS485 bus and multiple lock control boards, and is characterized in that: the external antenna, electric meter, external The temperature sensor, loudspeaker, heating plate, fan and RS485 bus are all connected to the main board, and multiple lock control boards are all connected to the RS485 bus. 2. The power exchange cabinet system according to claim 1, wherein the main board includes an MCU, a backup battery, a voice playback circuit, a 4G communication module, a heating control module, a fan control module and an onboard temperature and humidity sensor. 3. The power exchange cabinet system according to claim 2, wherein the 4G communication module is connected with an external antenna. 4. The power exchange cabinet system according to claim 1, wherein two chargers and two battery boxes are connected to the lock control board, and the two chargers are respectively connected to the two battery boxes. 5. The power exchange cabinet system according to claim 4, wherein a battery, an electromagnetic lock and an infrared sensor are arranged in the battery box. 6. The power exchange cabinet system according to claim 5, wherein the electromagnetic lock, the infrared sensor and the battery are all connected to the lock control board, and the battery is connected to the charger.