CN219067884U - Intelligent charging cabinet and intelligent charging management system - Google Patents

Abstract

The utility model discloses an intelligent charging cabinet and an intelligent charging management system, wherein the intelligent charging cabinet comprises a cabinet, a plurality of intelligent charging units, a host unit, and an electric door lock, an electric exhaust valve and a smoke sensor which are electrically connected with the host unit; the cabinet comprises a cabinet body and a cabinet door arranged on the cabinet body, wherein a plurality of charging compartments are formed in the cabinet body in a separated mode, and an intelligent charging unit is arranged in one charging compartment; the intelligent charging unit comprises an intelligent control module and a charging voltage output module, wherein the intelligent control module is integrated with a switching circuit for controlling the charging voltage output module to be electrified and powered off; the host unit is provided with an operation end for a user to operate and can control the electric door lock to open or close the cabinet door; the electric exhaust valve is arranged on the cabinet body, and the host unit can control the electric exhaust valve to be opened or closed. The intelligent charging management system comprises a material management platform and an intelligent charging cabinet. Through the scheme, the risk of fire and the loss of fire are effectively reduced.

Description

Intelligent charging cabinet and intelligent charging management system

Technical Field

The utility model relates to the technical field of charging devices, in particular to an intelligent charging cabinet and an intelligent charging management system.

Background

Along with the progress of life, intelligent charging cabinet walks into people's life, the storage battery of some intelligent charging cabinet power supply bottle car charges, place in the public region of district, some intelligent charging cabinet power supply cell-phones, the flat board, notebook computer, electronic equipment such as wireless headset charges, place in market etc. still some intelligent charging cabinet power supply power tools charge, such as electronic screw driver, electronic percussion drill, intelligent safety helmet, flashlight etc. consider the battery and lead to the risk of getting on fire to improve greatly because of overcharging when charging, therefore, some intelligent charging cabinet is provided with intelligent control module, some intelligent control module can be according to the time length automatic cutout that charges, still some intelligent control module can detect battery electric quantity and automatic power off when battery electric quantity reaches a certain amount, the risk of getting on fire that the battery overcharging brought has effectively been avoided.

However, for some equipment with damage and faults of the storage battery, even if the storage battery is not overcharged, the intelligent charging cabinet is extremely easy to cause fire under the condition of normal charging, and particularly for some electric tools with severe working environments, the storage battery is easy to damage, and accidents are more easy to occur.

Disclosure of Invention

The utility model mainly aims to provide an intelligent charging cabinet, which aims to reduce loss caused by fire in the intelligent charging cabinet.

In order to achieve the above object, the present utility model provides an intelligent charging cabinet, comprising: the intelligent charging system comprises a cabinet, a plurality of intelligent charging units, a host unit, an electric door lock electrically connected with the host unit, an electric exhaust valve and a smoke sensor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the cabinet comprises a cabinet body and a cabinet door arranged on the cabinet body, wherein a plurality of charging compartments with storage spaces are formed in the cabinet body in a separated mode, and one intelligent charging unit is arranged in one charging compartment;

the intelligent charging unit comprises an intelligent control module and a charging voltage output module for charging external equipment, wherein the intelligent control module is integrated with a switch circuit for controlling the charging voltage output module to be electrified and powered off;

the host unit is provided with an operation end for a user to operate and can control the electric door lock to open or close the cabinet door;

the electric exhaust valve is arranged on the cabinet body to control the internal and external gas circulation of the cabinet body, the smoke sensor is used for detecting whether smoke is generated in the cabinet or not and sending a smoke detection signal to the host unit, and the host unit controls the electric exhaust valve to be opened or closed according to the smoke detection signal.

In an embodiment of the utility model, the intelligent charging cabinet further comprises a temperature and humidity sensor, the temperature and humidity sensor is electrically connected with the host unit, the temperature and humidity sensor is used for detecting the temperature and humidity in the cabinet body and sending a temperature and humidity detection signal to the host unit, and the host unit controls the electric exhaust valve to be opened or closed according to the temperature and humidity detection signal.

In an embodiment of the utility model, the electric exhaust valve, the smoke sensor and the temperature and humidity sensor are all arranged at the top of the cabinet body.

In an embodiment of the utility model, the intelligent charging cabinet further includes an exhaust fan, and the exhaust fan is fixedly installed on the cabinet body corresponding to the electric exhaust valve and is electrically connected with the host unit, so as to accelerate the circulation of air inside and outside the cabinet body after the electric exhaust valve is opened.

In an embodiment of the utility model, the intelligent charging cabinet further comprises an RFID sensor, the intelligent control module further comprises an RFID antenna electrically connected with the RFID sensor, and the RFID sensor is electrically connected with the host unit to detect charging equipment information through the RFID antenna and send the charging equipment information to the host unit.

In an embodiment of the present utility model, the RFID sensor is further capable of detecting whether a charging device is in the charging compartment through the RFID antenna, and sending a detection signal to the host unit, and the intelligent control module is configured to control the charging voltage output module to be powered on when the host unit receives the detection signal that the charging device is in the charging compartment, and to control the charging voltage output module to be powered off when the host unit receives the detection signal that the charging device is not in the charging compartment.

In an embodiment of the present utility model, the operation end is used for an operator to input and log in account information, and the host unit is used for receiving tag information of the charging device placed in the charging compartment by the operator and detected by the RFID sensor, and binding the tag information with the account information of the operator.

In an embodiment of the present utility model, the operation end includes a touch display screen, and the host unit further includes at least one of a fingerprint module, a face recognition module, a card swiping module, and a voice module, so as to verify the identity of the user.

In an embodiment of the present utility model, the intelligent control module is electrically connected to the host unit, and the intelligent control module is integrated with at least one of an electric quantity detection circuit, an energy consumption detection circuit, a charging power detection circuit, and a charging time detection circuit, and is capable of transmitting the collected detection information to the host unit.

In an embodiment of the utility model, a roller is arranged at the bottom of the cabinet body.

The utility model also provides an intelligent charging management system, which comprises a material management platform and an intelligent charging cabinet;

the intelligent charging cabinet includes: the intelligent charging system comprises a cabinet, a plurality of intelligent charging units, a host unit, an electric door lock electrically connected with the host unit, an electric exhaust valve and a smoke sensor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the cabinet comprises a cabinet body and a cabinet door arranged on the cabinet body, wherein a plurality of charging compartments with storage spaces are formed in the cabinet body in a separated mode, and one intelligent charging unit is arranged in one charging compartment;

the intelligent charging unit comprises an intelligent control module and a charging voltage output module for charging external equipment, wherein the intelligent control module is integrated with a switch circuit for controlling the charging voltage output module to be electrified and powered off;

the host unit is provided with an operation end for a user to operate and can control the electric door lock to open or close the cabinet door;

the electric exhaust valve is arranged on the cabinet body to control the circulation of gas inside and outside the cabinet body, the smoke sensor is used for detecting whether smoke is generated in the cabinet or not and sending a smoke detection signal to the host unit, and the host unit controls the electric exhaust valve to be opened or closed according to the smoke detection signal;

the host unit of the intelligent charging cabinet performs data interaction with the material management platform, and the material management platform is used for remotely controlling the intelligent charging cabinet, checking the operation information of the intelligent charging cabinet and sending prompt information outwards when the intelligent charging cabinet is charged.

In an embodiment of the present utility model, the intelligent charging management system is further configured with a user mobile terminal that communicates with the material management platform, and the user mobile terminal is configured to view operation information of the intelligent charging cabinet and remotely control the intelligent charging cabinet through the material management platform.

According to the scheme, when a user charges the equipment to be charged by using the intelligent charging cabinet, the electric door lock can be unlocked through the operation end of the host unit, so that the cabinet door is opened, the equipment to be charged is placed in the empty storage compartment and is electrically connected with the charging voltage output module, and finally the cabinet door is closed, and the electric door lock is locked.

When the cabinet is on fire, the smoke sensor can detect smoke generated in the cabinet, so that a detection signal is sent to the host unit, the host unit controls the electric door lock and the electric exhaust valve to be closed, the cabinet is in a closed state, flame and smoke cannot spread outside the cabinet, and loss is controlled in the cabinet.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of an intelligent charging cabinet of the present utility model;

FIG. 2 is a schematic diagram of a cabinet door in an embodiment of the intelligent charging cabinet of the present utility model after the cabinet door is opened;

fig. 3 is a schematic diagram of an embodiment of an intelligent charging management system according to the present utility model.

Reference numerals illustrate:

100. an intelligent charging cabinet; 110. a cabinet; 111. a cabinet body; 112. a charging compartment; 113. a cabinet door; 114. a roller; 115. a storage drawer; 120. an intelligent charging unit; 121. an intelligent control module; 122. a charging voltage output module; 123. an RFID antenna; 120', RFID sensors; 130. a host unit; 131. an operation end; 132. touching the display screen; 140. an electric door lock; 150. an electric exhaust valve; 160. a smoke sensor; 180. a temperature and humidity sensor; 190. an exhaust fan; 200. a material management platform; 300. a user mobile terminal; 1000. an intelligent charging management system.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Along with the progress of life, intelligent charging cabinet walks into people's life, the storage battery of some intelligent charging cabinet power supply bottle car charges, place in the public region of district, some intelligent charging cabinet power supply cell-phones, the flat board, notebook computer, electronic equipment such as wireless headset charges, place in market etc. still some intelligent charging cabinet power supply power tools charge, such as electronic screw driver, electronic percussion drill, intelligent safety helmet, flashlight etc. consider the battery and lead to the risk of getting on fire to improve greatly because of overcharging when charging, therefore, some intelligent charging cabinet is provided with intelligent control module, some intelligent control module can be according to the time length automatic cutout that charges, still some intelligent control module can detect battery electric quantity and automatic power off when battery electric quantity reaches a certain amount, the risk of getting on fire that the battery overcharging brought has effectively been avoided.

However, for some equipment with damage and faults of the storage battery, even if the storage battery is not overcharged, the intelligent charging cabinet is extremely easy to cause fire under the condition of normal charging, and particularly for some electric tools with severe working environments, the storage battery is easy to damage, and accidents are more easy to occur.

Referring to fig. 1 and 2, in order to solve the above-mentioned problems, the present utility model provides an intelligent charging cabinet 100, comprising: a cabinet 110, a plurality of intelligent charging units 120, a host unit 130, an electric door lock 140 electrically connected with the host unit 130, an electric exhaust valve 150, and a smoke sensor 160; wherein, the cabinet 110 includes a cabinet body 111 and a cabinet door 113 mounted on the cabinet body 111, a plurality of charging compartments 112 having storage spaces are formed in the cabinet body 111, and an intelligent charging unit 120 is disposed in one of the charging compartments 112; the intelligent charging unit 120 includes an intelligent control module 121 and a charging voltage output module 122 for charging an external device, the intelligent control module 121 being integrated with a switching circuit for controlling the charging voltage output module 122 to be powered on and off; the host unit 130 has an operation end 131 for a user to operate, and is capable of controlling the electric door lock 140 to open or close the cabinet door 113; the electric exhaust valve 150 is installed on the cabinet 111 to control the ventilation of the cabinet 111, and the smoke sensor 160 is used for detecting whether smoke is generated in the cabinet 110 and sending a smoke detection signal to the host unit 130, and the host unit 130 controls the electric exhaust valve 150 to be opened or closed according to the smoke detection signal.

In the above-mentioned cabinet 110, the cabinet door 113 may be a rotary door or a sliding door, and the materials of the cabinet body 111 and the cabinet door 113 are generally made of alloy with higher strength, however, in order to facilitate the user to observe the charging condition of the charging device in the charging compartment 112, the cabinet body 111 and the cabinet door 113 may also be made of explosion-proof glass, which is convenient for the user to observe and has higher safety; the cabinet door 113 is used for closing the charging compartments 112, and each charging compartment 112 may be partially closed by the cabinet door 113, partially opened, or entirely closed by a cabinet door 113, or may be disposed corresponding to a cabinet door 113, where the cabinet 110 is not further limited.

In the above-mentioned intelligent charging unit 120, the intelligent control module 121 may be a PLC, a single chip microcomputer, etc., and the intelligent control module 121 may perform power on/off control according to the electric quantity condition of the charging device, may be electrically connected to the smoke sensor 160 and perform power on/off control according to the detection signal of the smoke sensor 160, and may also be electrically connected to the host unit 130, so that a user may send a control instruction to the intelligent control module 121 through the host unit 130; the charging voltage output module 122 may be a socket, plug, unlimited charger, etc.

The operation end 131 of the host unit 130 may be a touch screen, a button, a knob, a brake-off, etc., and the electric door locks 140 have various structures, and generally the electric door locks 140 include a control board and an electromagnetic actuator, further, some electric door locks 140 are further provided with a buzzer, and the intelligent charging unit 120 and the host unit 130 and the electric door locks 140 have many structures, which are not exemplified herein, in response to the open and close information fed back to the user during the open and close.

The electric exhaust valve 150 is mounted on the cabinet 111 in various manners, such as welding, bolting, and clamping, and is not limited herein, and it should be noted that when the cabinet door 113 is closed, the air in the cabinet 110 can only be exhausted through the electric exhaust valve 150, so as to ensure that when the interior of the cabinet 110 catches fire, the electric exhaust valve 150 is closed, and the smoke and flame cannot spread outside the cabinet 110.

The smoke sensor 160 is generally made of a photoelectric smoke sensor 160, which uses the characteristic that smoke generated when a fire is generated can change the light transmission, or may be a gas-sensitive smoke sensor 160, which converts the information about the type of gas and its concentration into electric signals, and obtains the information about the presence of the gas to be measured in the environment based on the intensity of these electric signals, thereby realizing the monitoring of smoke, and the types of the smoke sensor 160 are many, which are not listed here.

According to the scheme, when a user uses the intelligent charging cabinet 100 to charge equipment to be charged, the electric door lock 140 can be unlocked through the operation end 131 of the host unit 130, so that the cabinet door 113 is opened, the equipment to be charged is placed in an empty storage compartment and is electrically connected with the charging voltage output module 122, and finally the cabinet door 113 is closed, and the electric door lock 140 is locked, wherein the intelligent control module 121 controls the on-off of the charging voltage output module 122, so that the ignition caused by overcharge of a storage battery can be avoided.

Referring to fig. 3, the present utility model further provides an intelligent charging management system 1000, which includes a material management platform 200 and an intelligent charging cabinet 100, wherein a host unit 130 of the intelligent charging cabinet 100 performs data interaction with the material management platform 200, and the material management platform 200 is configured to remotely control the intelligent charging cabinet 100, check operation information of the intelligent charging cabinet 100, and send out prompt information when the intelligent charging cabinet 100 is charged. So set up, intelligent charging cabinet 100 links to each other with material management platform 200, and material management platform 200 carries out unified management to the material that contains instrument, intelligent charging cabinet 100. The intelligent charging cabinet 100 can be remotely checked and managed through the material management platform 200.

Further, in an embodiment of the present utility model, the intelligent charging management system 1000 is further configured with a user mobile terminal 300 in communication with the material management platform 200, and the user mobile terminal 300 is configured to view the operation information of the intelligent charging cabinet 100 and remotely control the intelligent charging cabinet 100 through the material management platform 200. The setting is that the user can look over the condition of interior tool of cabinet through user mobile terminal 300 in real time, such as humiture condition, tool charge condition, can carry out tool deposit, charge, take the application, can carry out operations such as permission approval.

When the fire occurs in the cabinet 110, the smoke sensor 160 can detect the smoke generated in the cabinet 110, so as to send a detection signal to the host unit 130, the host unit 130 controls the electric door lock 140 and the electric exhaust valve 150 to be closed, the cabinet 110 is in a closed state, and the flame and the smoke cannot spread outside the cabinet 110, so that the loss is controlled in the cabinet body 111.

Further, referring to fig. 2, in an embodiment of the present utility model, the intelligent charging cabinet 100 further includes an RFID sensor 120', the intelligent control module 121 further includes an RFID antenna 123 electrically connected to the RFID sensor 120', and the RFID sensor 120' is electrically connected to the host unit 130 to detect charging device information through the RFID antenna 123 and transmit the charging device information to the host unit 130. So configured, the host unit 130 can receive information of the device provided with the RFID tag, such as a type, a model, a rated voltage, a rated power, etc., and the host unit 130 can feed back the information to the user through a display or a wireless connection to the user mobile terminal 300, and the user can view information of the real-time charging device, the historical charging device, the use time of each device, etc. in the cabinet at any time.

Further, in an embodiment of the present utility model, the RFID sensor 120' is further capable of detecting whether there is a charging device in the charging compartment 112 through the RFID antenna 123 and sending a detection signal to the host unit 130, and the intelligent control module 121 is configured to control the charging voltage output module 122 to be powered on when the host unit 130 receives the detection signal that there is a charging device in the charging compartment 112, and to control the charging voltage output module 122 to be powered off when the host unit 130 receives the detection signal that there is no charging device in the charging compartment 112. So set up, the user is putting into the battery and charging in certain interval, and RIFD sensor automatic identification article information, intelligent detection module automatic switch-on, if take out the battery from the interval in the charging process temporarily, RIFD sensor detects that the battery takes out, intelligent control module 121 will be automatic outage, and intelligent degree is high, has further reduced the risk of firing.

Further, in an embodiment of the present utility model, the operation end 131 is used for an operator to input and log in account information, and the host unit 130 is used for receiving the tag information of the charging device detected by the RFID sensor 120' and put into the charging compartment 112 by the operator, and binding the tag information with the account information of the operator. So set up, the operating personnel is logged in the intelligent charging cabinet 100 at login account, put into the instrument that needs to charge and charge, and intelligent charging cabinet 100 automatic identification is to instrument information to bind this instrument with the operating personnel account. When the tool is charged, the intelligent charging cabinet 100 informs an operator through the material management platform 200 in a short message or APP mode, so that the operator can take the tool in time for use.

Further, in an embodiment of the present utility model, the intelligent control module 121 is electrically connected to the host unit 130, and the intelligent control module 121 is integrated with at least one of a power detection circuit, an energy consumption detection circuit, a charging power detection circuit, and a charging time detection circuit, and is capable of transmitting the collected detection information to the host unit 130. So configured, the user can not only control the power on/off of the intelligent control module 121 through the host unit 130, but also receive detection information fed back by the intelligent control module 121.

Further, in an embodiment of the present utility model, the host unit 130 is provided with a communication module for interacting with the user mobile terminal 300, so as to send the detection information received by the host unit 130 to the user mobile terminal 300. So configured, the user can remotely control the host unit 130 through the user mobile terminal 300, and can remotely receive real-time information and history information of the intelligent charging cabinet 100.

Further, in an embodiment of the present utility model, the operation end 131 includes a touch display 132, and the host unit 130 further includes at least one of a fingerprint module, a face recognition module, a card swiping module, and a voice module for verifying the identity of the user. So configured, the use of the touch screen 132 facilitates user operation and conveys information to the user; in addition, the host unit 130 can also verify the identity of the user, so as to prevent illegal personnel from illegal operation, and the security is higher.

In summary, when using the intelligent charging cabinet 100, the user can log in the host unit 130 by using a fingerprint or the like, and open the cabinet door 113. And placing the battery to be charged and the charger into a charging interval, and connecting the circuit. The host unit 130 automatically recognizes the item information of the interval, remotely controls the intelligent control module 121 through the user mobile terminal 300, energizes the charge voltage output module 122, and when the battery is full, the intelligent control module 121 automatically de-energizes and transmits full state information to the host unit 130. For a battery without an RFID tag, the intelligent control module 121 may be manually operated through the operation terminal 131 to energize the charging voltage output module 122.

Further, in an embodiment of the present utility model, the intelligent charging cabinet 100 further includes a temperature and humidity sensor 180, the temperature and humidity sensor 180 is electrically connected to the host unit 130, the temperature and humidity sensor 180 is used for detecting the temperature and humidity in the cabinet 111 and sending a temperature and humidity detection signal to the host unit 130, and the host unit 130 controls the electric exhaust valve 150 to open or close according to the temperature and humidity detection signal. So configured, when the temperature and humidity sensor 180 detects that the temperature and humidity in the cabinet 110 exceed the set values and is not suitable for the intelligent charging cabinet 100 to perform charging operation, the temperature and humidity sensor can send a temperature and humidity detection signal to the host unit 130, and the host unit 130 controls the electric exhaust valve 150 to be opened or closed according to the temperature and humidity detection signal, so that the air inside and outside the cabinet 110 circulates; when a fire occurs in the cabinet 110, the temperature and humidity sensor 180 detects that the temperature reaches the warning temperature, the humidity sensor sends a detection signal to the host unit 130, the host unit 130 controls the electric door lock 140 to lock, the electric exhaust valve 150 is closed, dual detection of the temperature and humidity sensor 160 and 180 is realized, and the situation that some smoke is small, the smoke sensor 160 cannot detect in time, and then the fire is spread outside the cabinet 110 is avoided.

Further, considering that smoke generally floats up when a fire occurs in the cabinet 110, in one embodiment of the present utility model, the smoke sensor 160 is disposed at the top of the cabinet 111; considering that when the fire is on, the temperature of the vicinity of the temperature and humidity sensor 180 increases slowly when the fire is higher than the temperature and humidity sensor 180, the temperature and humidity sensor 180 may not react timely, so in an embodiment of the utility model, the temperature and humidity sensor 180 is disposed at the top of the cabinet 111; also considering the low density of the steam, most of the steam is located in the upper position in the cabinet 110, so in an embodiment of the utility model, the electrically operated exhaust valve 150 is disposed at the top of the cabinet 111 for exhausting the steam.

Further, in an embodiment of the present utility model, the intelligent charging cabinet 100 further includes an exhaust fan 190, and the exhaust fan 190 is fixedly installed on the cabinet body 111 corresponding to the electric exhaust valve 150 and is electrically connected to the host unit 130, so as to accelerate the ventilation of the air inside and outside the cabinet body 111 after the electric exhaust valve 150 is opened.

To facilitate movement of the intelligent charging cabinet 100, in one embodiment of the present utility model, a roller 114 is disposed at the bottom of the cabinet 111; further, in an embodiment of the present utility model, the cabinet 111 is further provided with a storage drawer 115, so as to facilitate storing articles such as a charger or a battery.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (12)

1. An intelligent charging cabinet, which is characterized by comprising: the intelligent charging system comprises a cabinet, a plurality of intelligent charging units, a host unit, an electric door lock electrically connected with the host unit, an electric exhaust valve and a smoke sensor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the cabinet comprises a cabinet body and a cabinet door arranged on the cabinet body, wherein a plurality of charging compartments with storage spaces are formed in the cabinet body in a separated mode, and one intelligent charging unit is arranged in one charging compartment;

the intelligent charging unit comprises an intelligent control module and a charging voltage output module, wherein the intelligent control module is integrated with a switching circuit for controlling the charging voltage output module to supply power or cut off power;

the host unit is provided with an operation end for a user to operate and can control the electric door lock to unlock so as to open or close the cabinet door;

the electric exhaust valve is arranged on the cabinet body to control the internal and external gas circulation of the cabinet body, the smoke sensor is used for detecting whether smoke is generated in the cabinet or not and sending a smoke detection signal to the host unit, and the host unit controls the electric exhaust valve to be opened or closed according to the smoke detection signal.

2. The intelligent charging cabinet of claim 1, further comprising a temperature and humidity sensor electrically connected to the host unit, the temperature and humidity sensor configured to detect temperature and humidity within the cabinet and send a temperature and humidity detection signal to the host unit, the host unit controlling the opening or closing of the electrically operated exhaust valve based on the temperature and humidity detection signal.

3. The intelligent charging cabinet of claim 2, wherein the electrically operated exhaust valve, the smoke sensor, and the temperature and humidity sensor are all disposed on the top of the cabinet body.

4. The intelligent charging cabinet of claim 1, further comprising an exhaust fan fixedly mounted to the cabinet body in response to the electrically operated exhaust valve and electrically connected to the host unit for accelerating the flow of gas between the cabinet body and the outside after the electrically operated exhaust valve is opened.

5. The intelligent charging cabinet of claim 1, wherein the intelligent charging cabinet further comprises an RFID sensor, the intelligent control module further comprises an RFID antenna electrically connected to the RFID sensor, the RFID sensor is electrically connected to the host computer to detect tag information of the charging device via the RFID antenna and transmit to the host computer unit.

6. The intelligent charging cabinet of claim 5, wherein the RFID sensor is further configured to detect whether a charging device is present in the charging compartment via the RFID antenna and to send a detection signal to the host unit, and wherein the intelligent control module is configured to control the charging voltage output module to be powered on when the host unit receives the detection signal of the charging device being present in the charging compartment, and to control the charging voltage output module to be powered off when the host unit receives the detection signal of the no charging device being present in the charging compartment.

7. The intelligent charging cabinet of claim 5, wherein the operating terminal is configured to allow an operator to input and log in account information, and the host unit is configured to receive tag information of a charging device placed in the charging compartment by the operator and detected by the RFID sensor, and bind the tag information with the account information of the operator.

8. The intelligent charging cabinet of claim 1, wherein the operator terminal comprises a touch display screen, and the host unit further comprises at least one of a fingerprint module, a face recognition module, a swipe card module, and a voice module for verifying the identity of the user.

9. The intelligent charging cabinet of claim 1, wherein the intelligent control module is electrically connected to the host unit, and wherein the intelligent control module is integrated with at least one of a power detection circuit, an energy consumption detection circuit, a charging power detection circuit, and a charging time detection circuit, and is capable of transmitting the collected detection information to the host unit.

10. An intelligent charging cabinet in accordance with any one of claims 1 to 9, wherein the bottom of the cabinet is provided with rollers.

11. An intelligent charging management system, comprising a material management platform and an intelligent charging cabinet according to any one of claims 1 to 10, wherein a host unit of the intelligent charging cabinet performs data interaction with the material management platform, and the material management platform is used for remotely controlling the intelligent charging cabinet, checking operation information of the intelligent charging cabinet, and sending prompt information outwards when the intelligent charging cabinet is charged.

12. The intelligent charge management system of claim 11, wherein the intelligent charge management system is further configured with a user mobile terminal in communication with the materials management platform, the user mobile terminal configured to view operational information of the intelligent charge cabinet and remotely control the intelligent charge cabinet through the materials management platform.

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