CN113855837A - Remote control steam disinfection method, system and device based on 4GCAT1 - Google Patents

Abstract

The invention relates to a remote control steam disinfection system, method and device based on 4GCAT1, wherein the method comprises the following steps: the evaporator device was turned on/off by the 4G CAT1 main control panel; outputting prompt information for displaying the working state of the evaporator equipment through loudspeaker equipment; the temperature information of the evaporator equipment is collected in real time through temperature detection equipment, and the temperature information and the corresponding timestamp are sent to a 4G CAT1 main control board; if the temperature information is higher than a preset high temperature threshold value or lower than a preset low temperature threshold value, the 4GCAT1 main control board is used for closing the evaporator equipment; if the temperature information is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, starting the evaporator equipment through the 4G CAT1 main control board; and the working state and the temperature information of the evaporator equipment are displayed in real time through LED display equipment. The working state of the evaporator equipment can be remotely monitored and controlled through the 4G CAT1 connected with the cloud platform, and meanwhile, the equipment cost is saved.

Description

Remote control steam disinfection method, system and device based on 4GCAT1

Technical Field

The invention relates to the technical field of cold chain equipment monitoring, in particular to a remote control steam disinfection method, system and device based on 4GCAT 1.

Background

2G networks were built starting in 1994 and have been in network operation for 25 years. The 2G network technology is not fallen behind, the equipment is old, the energy consumption efficiency is low, the maintenance is difficult, and limited spectrum resources are not fully utilized due to the occupation of high-quality gold spectrum resources. From the international market, 2G network shutdown has become a common consensus, and operators in many countries and regions start to shut down 2G networks in the 4G era, and accelerate the shutdown of 2G networks in the 5G era. Since the 4G CAT1 network was established and popularized in 2019, the steam sterilization industry still uses a heating wire or a steam generator for heating, the sterilization time and the sterilization mode are set through keys, and the sterilization temperature and the state of the sterilization process cannot be detected or displayed remotely. However, other industry CAT1 uses MCU + CAT1 module + peripheral circuit architecture scheme, which results in high equipment cost due to higher and higher price of chip module.

Disclosure of Invention

In order to overcome the problems in the related art, the invention discloses and provides a remote control steam disinfection method, system and device based on 4GCAT 1.

According to a first aspect of the disclosed embodiments of the present invention, there is provided a 4GCAT1 based remote control steam sterilization method for application in a 4GCAT1 based remote control steam sterilization system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment; the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment, and the cloud platform is in communication connection with a mobile terminal of a user; the method comprises the following steps:

turning on/off the evaporator device by the 4G CAT1 main control board according to the received on/off command, wherein the on/off command is sent by the cloud platform;

outputting prompt information for displaying the working state of the evaporator equipment through the loudspeaker equipment;

the temperature detection equipment is used for acquiring the temperature information of the evaporator equipment in real time and sending the temperature information and the corresponding timestamp information to a 4G CAT1 main control board;

if the temperature information of the evaporator equipment is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value, the evaporator equipment is closed through the 4G CAT1 main control board;

if the temperature information of the evaporator equipment is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, starting the evaporator equipment through the 4G CAT1 main control board;

and displaying the working state and the temperature information of the evaporator equipment in real time through the LED display equipment.

Optionally, the turning on/off the evaporator device by the 4G CAT1 main control board according to a received on/off command, where the on/off command is sent by the cloud platform, and the turning on/off command includes:

receiving an opening/closing instruction sent by a user through a mobile terminal through the cloud platform;

sending the opening/closing instruction to the 4G CAT1 master control board through the cloud platform;

sending the on/off command to the strong electric drive device through the 4G CAT1 main control board;

the evaporator device is turned on/off by the strong electric driving device.

Optionally, the system further includes: a water level sensor electrically connected to the evaporator apparatus and the 4G CAT1 main control board, respectively, the method further comprising:

acquiring water level information in the evaporator equipment in real time through the water level sensor, and sending the water level information to the 4G CAT1 main control board;

when the water level information of the evaporator equipment is lower than a preset water shortage threshold value, the evaporator equipment is closed through the 4G CAT1 main control board;

and when the water level information is higher than or equal to a preset water shortage threshold value, starting the evaporator equipment through the 4G CAT1 main control board.

Optionally, the system further includes: the Bluetooth device is electrically connected with the 4G CAT1 main control board and is in communication connection with the mobile terminal of the user; the method further comprises the following steps:

when the 4G CAT1 master control board cannot detect the signal of the cloud platform, establishing communication connection with the Bluetooth device through the 4G CAT1 master control board;

and receiving an opening/closing instruction sent by a user through a mobile terminal through the Bluetooth device, and sending the opening/closing instruction to the 4G CAT1 main control board.

Optionally, the system further includes: the anti-prying equipment is embedded into the evaporator equipment shell and is electrically connected with the 4G CAT1 main control board;

when the anti-prying equipment receives an alarm signal of abnormally disassembling the evaporator equipment, the alarm information is sent to the 4G CAT1 main control board;

sending the alarm signal to the cloud platform or the Bluetooth device through the 4G CAT1 main control board, and sending the alarm signal to a mobile terminal of a user through the cloud platform or the Bluetooth device

According to a second aspect of the disclosed embodiments of the present invention, there is provided a 4GCAT1 based remote control steam sterilization system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment;

the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment;

the cloud platform is in communication connection with a mobile terminal of a user.

Optionally, the system further includes: a water level sensor;

the water level sensor is electrically connected with the evaporator device and the 4G CAT1 main control board respectively.

Optionally, the system further includes: a Bluetooth device;

the Bluetooth device is electrically connected with the 4G CAT1 main control board and is in communication connection with the mobile terminal of the user.

Optionally, the system further includes: anti-prying equipment;

the anti-prying device is embedded in the evaporator device shell and is electrically connected with the 4G CAT1 main control board.

According to a third aspect of the disclosed embodiments of the present invention, there is provided a 4GCAT 1-based remote control steam sterilizer apparatus for use in a 4GCAT 1-based remote control steam sterilizer system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment; the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment, and the cloud platform is in communication connection with a mobile terminal of a user; the device comprises:

a control module that turns on/off the evaporator device according to a received on/off command sent by the cloud platform through the 4G CAT1 main control board;

the information prompt module is connected with the control module and outputs prompt information for displaying the working state of the evaporator equipment through the loudspeaker equipment;

the temperature detection module is connected with the control module, collects the temperature information of the evaporator equipment in real time through the temperature detection equipment, and sends the temperature information and the corresponding timestamp information to the 4GCAT1 main control board;

the closing module is connected with the temperature detection module, and closes the evaporator equipment through the 4G CAT1 main control board if the temperature information of the evaporator equipment is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value;

the starting module is connected with the temperature detection module, and if the temperature information of the evaporator equipment is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, the evaporator equipment is started through the 4G CAT1 main control board;

and the display module is connected with the control module and used for displaying the working state and the temperature information of the evaporator equipment in real time through the LED display equipment.

In summary, the present invention relates to a system, a method and a device for remotely controlling steam sterilization based on 4GCAT1, wherein the method comprises: the evaporator device was turned on/off by the 4G CAT1 main control panel; outputting prompt information for displaying the working state of the evaporator equipment through loudspeaker equipment; the temperature information of the evaporator equipment is collected in real time through temperature detection equipment, and the temperature information and the corresponding timestamp are sent to a 4GCAT1 main control board; if the temperature information is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value, the 4G CAT1 main control board is used for closing the evaporator equipment; if the temperature information is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, starting the evaporator equipment through the 4G CAT1 main control board; and the working state and the temperature information of the evaporator equipment are displayed in real time through LED display equipment. The working state of the evaporator equipment can be remotely monitored and controlled through the 4G CAT1 connected with the cloud platform, and meanwhile, the equipment cost is saved.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a flow diagram illustrating a method of remotely controlled steam sterilization based on 4GCAT1 in accordance with an exemplary embodiment;

FIG. 2 is a schematic diagram of a 4GCAT 1-based remote control steam sterilization system according to an exemplary embodiment;

FIG. 3 is a schematic diagram illustrating a user controlling an evaporator device via a mobile terminal according to an exemplary embodiment;

FIG. 4 is a flow chart of a water level monitoring method according to FIG. 1;

FIG. 5 is a flow chart of a tamper-resistant method according to FIG. 1;

fig. 6 is a block diagram illustrating a configuration of a 4GCAT 1-based remote control steam sterilizer according to an exemplary embodiment.

Detailed Description

The following detailed description of the disclosed embodiments will be made in conjunction with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

FIG. 1 is a flow diagram illustrating a 4GCAT 1-based remote control steam sterilization method according to an exemplary embodiment, as shown in FIG. 1, applied to a 4GCAT 1-based remote control steam sterilization system as shown in FIG. 2, the system 200 comprising: the cloud platform 210, the evaporator device 220, the 4G CAT1 main control board 230, the strong electric drive device 240, the LED display device 250, the bluetooth device 260, the speaker device 270, and the temperature detection device 280; the 4G CAT1 main control board 230 is electrically connected to the cloud platform 210, the evaporator device 220, the strong electric driving device 240, the LED display device 250, the bluetooth device 260, the speaker device 270 and the temperature detection device 280, respectively, and the cloud platform 210 is communicatively connected to the mobile terminal of the user.

In addition, the system 200 further includes: the system comprises a water level sensor, Bluetooth equipment and anti-prying equipment; the water level sensor is electrically connected to the evaporator apparatus 220 and the 4G CAT1 main control board 230, respectively; the bluetooth device 260 is electrically connected with the 4G CAT1 main control board 230 and is in communication connection with the mobile terminal of the user; the tamper resistant device is embedded in the evaporator unit 220 housing and electrically connected to the 4G CAT1 main control board 230.

In step 101, the 4G CAT1 master control board turns on/off the evaporator device according to the received on/off command, which is sent by the cloud platform.

Specifically, an opening/closing instruction sent by a user through a mobile terminal is received through the cloud platform; sending the on/off instruction to the 4G CAT1 master control board through the cloud platform; sending the on/off command to the strong electric driving device through the 4G CAT1 main control board; the evaporator device is turned on/off by the strong electric driving device.

Illustratively, the 4G CAT1 main control board is a main control board capable of seamlessly accessing an external network, achieving data communication with a cloud platform and controlling the evaporator device to be turned on/off, and the 4G CAT1 main control board is further connected with peripheral circuits (i.e., a strong electric driving device, an LED display device, a bluetooth device, a speaker device, and a temperature detection device). The peripheral circuit integrates 220V power input by the counterattack type power supply module, can be directly converted into 12V/1A direct current to supply power to the 4GCAT1 main control board, does not need to provide a separate power supply module for the 4GCAT1 main control board, and reduces the cost of a plurality of power supply modules. When the evaporator is used, a user sends a control command (an opening/closing command) to the cloud platform through an APP (application) of the mobile terminal, a webpage end or a WeChat applet, a Paibao applet and the like, the cloud platform sends the control command to the platform gateway through an MQTT-TCP protocol, the platform gateway sends the control command to the 4GCAT1 main control board, and the 4GCAT1 main control board controls the evaporator equipment to be opened/closed through a peripheral circuit (strong current driving equipment) after receiving the command.

As shown in fig. 3, which is a schematic diagram of a user controlling evaporator devices through a mobile terminal, it can be seen that the user sends an on/off command to a cloud platform through the mobile terminal, and after receiving the on/off command, the cloud platform transmits the on/off command to a 4GCAT1 main control board through a cloud platform gateway via a 4GCAT1 wide area network, where the 4GCAT1 main control board may be connected to a plurality of evaporator devices to control one or more of the evaporator devices, respectively. In addition, in the condition that the 4GCAT1 can be in a weak signal state or a no-signal state, the 4GCAT1 module can establish a connection with an APP (application program), a web page side or WeChat applet, a Paibao applet, and the like of the mobile terminal through a bluetooth device (e.g., a BLE bluetooth device), perform non-contact control on/off of the evaporator device and monitor the working state of the evaporator device, and solve the operation application in an extreme environment without signals.

Furthermore, the 4GCAT1 module can actively upload information such as equipment position and network signals to the platform, so that a user can dynamically track equipment distribution, and equipment positioning and signal intensity tracking and analysis are guaranteed.

In step 102, a prompt message for displaying the working state of the evaporator device is output through the speaker device.

Illustratively, the speaker device is electrically connected to the 4GCAT1 main control board, and is capable of outputting prompt information for displaying an operation state of evaporation (i.e., an on/off state of the evaporator device) when the 4GCAT1 main control board controls the evaporator device to be turned on/off by a strong electric driving device.

Typically, the prompting message is a prompt tone for prompting a worker around the evaporator apparatus.

In step 103, the temperature information of the evaporator device is collected in real time by the temperature detection device, and the temperature information and the corresponding timestamp information are sent to the 4G CAT1 main control board.

For example, when the evaporator device is in a working state, in order to guarantee safety problems in the working process of the evaporator device, the temperature detection device needs to acquire temperature information and timestamp information of the evaporator device in real time and send the information to the 4G CAT1 main control board, so that when the temperature of the evaporator device is abnormal, the evaporator device is controlled to stop working (i.e. to enter a closed state) through the 4G CAT1 main control board in time, or when the temperature of the evaporator device returns to normal, the evaporator device is controlled to enter the working state through the 4G CAT1 main control board again.

In step 104, if the temperature information of the evaporator device is higher than a preset high temperature threshold or lower than a preset low temperature threshold, the evaporator device is turned off through the 4G CAT1 main control board.

For example, a high temperature threshold and a low temperature threshold are preset, and if the temperature of the evaporator device collected by the temperature detection device is higher than the high temperature threshold or lower than the low temperature threshold, it is indicated that an abnormality occurs in the temperature of the evaporator device during operation, and at this time, in consideration of safety issues of the evaporator device and field workers, the evaporator device needs to be closed through the 4G CAT1 main control board in time.

In addition, since the temperature detection device can acquire the temperature information of the evaporator device and the corresponding timestamp information, the evaporator device can also be turned off by the 4G CAT1 main control board when the temperature of the evaporator device is continuously higher (the duration is greater than the preset time threshold) or continuously lower (the duration is greater than the preset time threshold) than the high temperature threshold.

In addition, when the temperature of the evaporator device is abnormal, alarm information prompting the temperature abnormality of the evaporator device can be output through the loudspeaker device.

In step 105, if the temperature information of the evaporator device is lower than or equal to a preset high temperature threshold and higher than or equal to a preset low temperature threshold, the evaporator device is turned on through the 4G CAT1 main control board.

Illustratively, when the temperature of the evaporator device is between the high temperature threshold and the low temperature threshold (lower than or equal to the preset high temperature threshold and higher than or equal to the preset low temperature threshold), the temperature of the evaporator device is returned to normal, and at this time, the evaporator device is started through the 4G CAT1 main control board.

In step 106, the operating status and the temperature information of the evaporator device are displayed in real time through the LED display device.

Exemplarily, the 4G CAT1 main control board is further connected with an LED display device, and when the 4G CAT1 main control board receives the uploaded temperature information of the temperature detection device and controls the evaporator device to be turned on/off, the temperature information and the on/off instruction are sent to the LED display device, so that the operating state and the temperature information of the evaporator device can be displayed in real time through the LED display device.

Fig. 4 is a flowchart of a water level monitoring method according to fig. 1, as shown in fig. 4, the method further comprising:

in step 401, water level information in the evaporator apparatus is collected in real time by the water level sensor and sent to the 4G CAT1 main control board.

In step 402, the 4G CAT1 main control board turns off the evaporator device when the water level information of the evaporator device is below a preset water shortage threshold.

In step 403, the 4GCAT1 main control board turns on the evaporator device when the water level information is higher than or equal to a preset water shortage threshold.

Illustratively, the steam sterilizing system in the embodiment of the present disclosure further includes: the water level sensor is connected with the 4GCAT1 main control board, can automatically acquire a sensing water shortage signal (the water level information acquired by the water level sensor is lower than a preset water shortage threshold value) and a water level recovery signal (the water level information acquired by the water level sensor is higher than or equal to the preset water shortage threshold value), and closes the evaporator equipment through the 4G CAT1 main control board when sensing the water shortage signal, and opens the evaporator equipment through the 4G CAT1 main control board when sensing the water level recovery signal.

Fig. 5 is a flow chart of a method of picking prevention according to fig. 1, as shown in fig. 5, the method further comprising:

in step 501, when the anti-prying device receives an alarm signal of abnormally detaching the evaporator device, the alarm signal is sent to the 4G CAT1 main control board.

In step 502, the alarm signal is sent to the cloud platform or the bluetooth device through the 4G CAT1 master control board, and the alarm signal is sent to the mobile terminal of the user through the cloud platform or the bluetooth device.

For example, the bottom of the casing of the evaporator device is provided with a pick-proof device (usually a pick-proof button) which can receive an alarm signal when the evaporator device is abnormally disassembled from the outside and send the alarm signal to the 4G CAT1 main control board. The 4G CAT1 master control board sends the alarm information to the mobile terminal of the user through a cloud platform (when the network signal environment is good) or a Bluetooth device (when the network signal is not good), and the mobile terminal of the user timely acquires corresponding processing measures according to the alarm signal after receiving the alarm signal.

Fig. 6 is a block diagram illustrating a 4GCAT 1-based remote control steam sterilizer apparatus according to an exemplary embodiment, as shown in fig. 6, which is applied to a 4GCAT 1-based remote control steam sterilizer system, comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment; the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment, and the cloud platform is in communication connection with the mobile terminal of a user; the apparatus 600 comprises:

a control module 610 that turns on/off the evaporator device according to a received on/off command sent by the cloud platform through the 4G CAT1 main control board;

an information prompt module 620, connected to the control module 610, for outputting prompt information for displaying the working state of the evaporator device through the speaker device;

the temperature detection module 630 is connected with the control module 610, collects temperature information of the evaporator equipment in real time through the temperature detection equipment, and sends the temperature information and corresponding timestamp information to the 4GCAT1 main control board;

a shutdown module 640, connected to the temperature detection module 630, for shutting down the evaporator device through the 4G CAT1 main control board if the temperature information of the evaporator device is higher than a preset high temperature threshold or lower than a preset low temperature threshold;

the starting module 650 is connected to the temperature detecting module 630, and starts the evaporator device through the 4G CAT1 main control board if the temperature information of the evaporator device is lower than or equal to a preset high temperature threshold and higher than or equal to a preset low temperature threshold;

and the display module 660 is connected with the control module 610, and displays the working state and the temperature information of the evaporator device in real time through the LED display device.

In summary, the present invention relates to a system, a method and a device for remotely controlling steam sterilization based on 4GCAT1, wherein the method comprises: the evaporator device was turned on/off by the 4G CAT1 main control panel; outputting prompt information for displaying the working state of the evaporator equipment through loudspeaker equipment; the temperature information of the evaporator equipment is collected in real time through temperature detection equipment, and the temperature information and the corresponding timestamp are sent to a 4GCAT1 main control board; if the temperature information is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value, the 4G CAT1 main control board is used for closing the evaporator equipment; if the temperature information is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, starting the evaporator equipment through the 4G CAT1 main control board; and the working state and the temperature information of the evaporator equipment are displayed in real time through LED display equipment. The working state of the evaporator equipment can be remotely monitored and controlled through the 4G CAT1 connected with the cloud platform, and meanwhile, the equipment cost is saved.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A 4GCAT 1-based remote control steam sterilization method, which is applied to a 4GCAT 1-based remote control steam sterilization system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment; the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment, and the cloud platform is in communication connection with a mobile terminal of a user; the method comprises the following steps:

turning on/off the evaporator device by the 4G CAT1 main control board according to the received on/off command, wherein the on/off command is sent by the cloud platform;

outputting prompt information for displaying the working state of the evaporator equipment through the loudspeaker equipment;

the temperature detection equipment is used for acquiring the temperature information of the evaporator equipment in real time and sending the temperature information and the corresponding timestamp information to a 4G CAT1 main control board;

if the temperature information of the evaporator equipment is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value, the evaporator equipment is closed through the 4G CAT1 main control board;

if the temperature information of the evaporator equipment is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, starting the evaporator equipment through the 4G CAT1 main control board;

and displaying the working state and the temperature information of the evaporator equipment in real time through the LED display equipment.

2. The 4GCAT 1-based remote control steam sanitization method according to claim 1, wherein the evaporator device is turned on/off by the 4G CAT1 main control board according to received on/off commands sent by the cloud platform, comprising:

receiving an opening/closing instruction sent by a user through a mobile terminal through the cloud platform;

sending the opening/closing instruction to the 4G CAT1 master control board through the cloud platform;

sending the on/off command to the strong electric drive device through the 4G CAT1 main control board;

the evaporator device is turned on/off by the strong electric driving device.

3. The 4GCAT 1-based remote control steam sterilization method according to claim 1, wherein the system further comprises: a water level sensor electrically connected to the evaporator apparatus and the 4G CAT1 main control board, respectively, the method further comprising:

acquiring water level information in the evaporator equipment in real time through the water level sensor, and sending the water level information to the 4G CAT1 main control board;

when the water level information of the evaporator equipment is lower than a preset water shortage threshold value, the evaporator equipment is closed through the 4G CAT1 main control board;

and when the water level information is higher than or equal to a preset water shortage threshold value, starting the evaporator equipment through the 4G CAT1 main control board.

4. The 4GCAT 1-based remote control steam sterilization method according to claim 1, wherein the system further comprises: the Bluetooth device is electrically connected with the 4G CAT1 main control board and is in communication connection with the mobile terminal of the user; the method further comprises the following steps:

when the 4G CAT1 master control board cannot detect the signal of the cloud platform, establishing communication connection with the Bluetooth device through the 4G CAT1 master control board;

and receiving an opening/closing instruction sent by a user through a mobile terminal through the Bluetooth device, and sending the opening/closing instruction to the 4G CAT1 main control board.

5. The 4GCAT 1-based remote control steam sterilization method according to claim 1 or 4, wherein the system further comprises: the anti-prying equipment is embedded into the evaporator equipment shell and is electrically connected with the 4G CAT1 main control board;

when the anti-prying equipment receives an alarm signal of abnormally disassembling the evaporator equipment, the alarm information is sent to the 4G CAT1 main control board;

the alarm signal is sent to the cloud platform or the Bluetooth device through the 4G CAT1 main control board, and the alarm signal is sent to a mobile terminal of a user through the cloud platform or the Bluetooth device.

6. A 4GCAT 1-based remote control steam sterilization system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment;

the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment;

the cloud platform is in communication connection with a mobile terminal of a user.

7. The 4GCAT 1-based remote control steam sanitization system of claim 6, further comprising: a water level sensor;

the water level sensor is electrically connected with the evaporator device and the 4G CAT1 main control board respectively.

8. The 4GCAT 1-based remote control steam sanitization system of claim 6, further comprising: a Bluetooth device;

the Bluetooth device is electrically connected with the 4G CAT1 main control board and is in communication connection with the mobile terminal of the user.

9. The 4GCAT 1-based remote control steam sanitization system of claim 6, further comprising: anti-prying equipment;

the anti-prying device is embedded in the evaporator device shell and is electrically connected with the 4G CAT1 main control board.

10. A4 GCAT 1-based remote control steam sterilization device, which is applied to a 4GCAT 1-based remote control steam sterilization system, the system comprising: the system comprises a cloud platform, evaporator equipment, a 4G CAT1 main control board, strong-current driving equipment, LED display equipment, Bluetooth equipment, loudspeaker equipment and temperature detection equipment; the 4G CAT1 main control board is respectively and electrically connected with the cloud platform, the evaporator equipment, the strong current driving equipment, the LED display equipment, the Bluetooth equipment, the loudspeaker equipment and the temperature detection equipment, and the cloud platform is in communication connection with a mobile terminal of a user; the device comprises:

a control module that turns on/off the evaporator device according to a received on/off command sent by the cloud platform through the 4G CAT1 main control board;

the information prompt module is connected with the control module and outputs prompt information for displaying the working state of the evaporator equipment through the loudspeaker equipment;

the temperature detection module is connected with the control module, collects the temperature information of the evaporator equipment in real time through the temperature detection equipment, and sends the temperature information and the corresponding timestamp information to the 4GCAT1 main control board;

the closing module is connected with the temperature detection module, and closes the evaporator equipment through the 4G CAT1 main control board if the temperature information of the evaporator equipment is higher than a preset high-temperature threshold value or lower than a preset low-temperature threshold value;

the starting module is connected with the temperature detection module, and if the temperature information of the evaporator equipment is lower than or equal to a preset high-temperature threshold and higher than or equal to a preset low-temperature threshold, the evaporator equipment is started through the 4G CAT1 main control board;

and the display module is connected with the control module and used for displaying the working state and the temperature information of the evaporator equipment in real time through the LED display equipment.

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