CN113131619B - Power supply control system and method for intelligent cabinet - Google Patents

Abstract

The application discloses a power control system and a power control method for an intelligent cabinet, and relates to the technical field of intelligent cabinets. The method comprises the following steps: firstly, acquiring system running state information of an intelligent cabinet; then the system running state information is sent to an internet of things platform server; then receiving a power control task of the industrial personal computer of the intelligent cabinet, which is issued by the server; and finally, powering on and powering off the industrial personal computer according to the power control task. The intelligent cabinet system restarting method and the intelligent cabinet system restarting device can realize remote monitoring of the system running state information of the intelligent cabinet, and can restart the intelligent cabinet system in time when the intelligent cabinet system is abnormal, so that the intelligent cabinet can be maintained in time.

Description

Power supply control system and method for intelligent cabinet

Technical Field

The application relates to the technical field of intelligent cabinets, in particular to a power supply control system and method of an intelligent cabinet.

Background

In recent years, various intelligent cabinets (such as express cabinets, takeaway cabinets, self-service sales cabinets and the like) have widely entered into daily life of people. However, due to unstable industrial computer system and Application (APP), the intelligent cabinet is prone to abnormal situations such as downtime of the system or failure of the APP to connect with a server.

At present, in order to solve the abnormal condition that the intelligent cabinet appears, need maintainer to regularly or according to user opinion feedback go to the intelligent cabinet scene and maintain, not only need more cost of labor, intelligent cabinet maintains untimely moreover, and then can influence the user to the use of intelligent cabinet.

Disclosure of Invention

In view of the above, the present application provides a power control system and method for an intelligent cabinet, which aims to solve the technical problems of high labor cost and untimely maintenance of the intelligent cabinet caused by the current manual on-site maintenance of the intelligent cabinet.

According to one aspect of the present application, there is provided a power control system for an intelligent cabinet, the system comprising: the system comprises a power control module and an internet of things (Internet of Things, IOT) platform server which is connected with the power control module through a network;

the power supply control module is connected with an industrial personal computer (Industrial Personal Computer, IPC) of the intelligent cabinet, acquires system running state information of the intelligent cabinet and sends the system running state information to the server;

and the server transmits a power control task to the industrial personal computer to the power control module.

Optionally, the power supply control system further includes: a relay;

the relay is connected with a switching power supply of the industrial personal computer, and the power supply control module and the relay are used for controlling the industrial personal computer to be powered on and powered off.

Optionally, the power control module includes a clock unit;

and the power control module counts time through the clock unit according to the power control task issued by the server, and executes power-on and power-off control on the industrial personal computer when reaching the designated time.

Optionally, an embedded system is designed in the power control module, and the power control module is connected with the server through the embedded system.

Optionally, the power control module is connected with the industrial personal computer through 485 communication.

According to another aspect of the present application, there is provided a power control method of an intelligent cabinet, the method comprising:

acquiring system running state information of the intelligent cabinet;

the system running state information is sent to an Internet of things platform server;

receiving a power control task issued by the server and applied to the industrial personal computer of the intelligent cabinet;

and carrying out power-on and power-off control on the industrial personal computer according to the power control task.

Optionally, the acquiring the system operation state information of the intelligent cabinet specifically includes:

if the system running state information is not acquired within the set time, the industrial personal computer is controlled in a power-on and power-off mode so as to actively restart the industrial personal computer;

and acquiring the system running state information sent after the industrial personal computer is restarted.

Optionally, the receiving the power control task of the industrial personal computer of the intelligent cabinet, which is issued by the server, specifically includes:

and receiving the power control task issued by the server according to the system running state information.

Optionally, the power-on/power-off control of the industrial personal computer according to the power control task specifically includes:

and executing power-on and power-off control on the industrial personal computer according to the control time designated by the power control task.

Optionally, before the power-on and power-off control is performed on the industrial personal computer according to the power control task, the method further includes:

updating the existing power control task according to the received power control task;

and the power-on and power-off control is performed on the industrial personal computer according to the power control task, and the power-on and power-off control method specifically comprises the following steps of:

and (5) carrying out power-on and power-off control on the industrial personal computer according to the updated power control task.

Optionally, the method further comprises:

and acquiring the latest system running state information of the intelligent cabinet at regular time and sending the latest system running state information to the server.

By means of the technical scheme, compared with the mode that the intelligent cabinet is required to be maintained manually at site at present, the power control system and the power control method for the intelligent cabinet can realize remote monitoring of the system running state information of the intelligent cabinet, and can remotely and real-timely check the running state of the system of the intelligent cabinet. The intelligent cabinet industrial personal computer can be controlled remotely to power on and off, so that the intelligent cabinet system can be restarted in time when the intelligent cabinet system is abnormal or the APP cannot be connected with a server, further, the intelligent cabinet can be maintained in time, the condition of manually maintaining the intelligent cabinet on site is reduced, and labor cost can be saved. In addition, the restarting task of the intelligent cabinet can be remotely modified, so that the intelligent cabinet can be suitable for different application scenes, and more requirements are met.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

fig. 1 shows a schematic structural diagram of a power control system of an intelligent cabinet according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a power control method of an intelligent cabinet according to an embodiment of the present application;

fig. 3 shows a schematic structural diagram of an application example provided by an embodiment of the present application.

Detailed Description

The application will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

In order to solve the technical problems that the existing mode of manually maintaining the intelligent cabinet on site causes high labor cost and the intelligent cabinet is not maintained timely. The embodiment provides a power control system of an intelligent cabinet, as shown in fig. 1, the power control system includes: the system comprises a power control module 11 and an Internet of things platform server 12 which is connected with the power control module 11 through a network.

The power control module 11 is connected with an industrial personal computer of an intelligent cabinet (such as an express cabinet, a meal taking cabinet and the like), and the power control module 11 acquires system operation state information (such as a use state, an abnormal state, hardware parameter data, an APP operation state and the like of each cabinet) of the intelligent cabinet and sends the system operation state information to the remote internet of things platform server 12; the internet of things platform server 12 issues a power control task to the intelligent cabinet industrial personal computer to the power control module 11.

The power control module 11 may be a circuit board, i.e. a power control board, installed inside the intelligent cabinet and capable of controlling the power of the industrial personal computer of the intelligent cabinet. The intelligent cabinet industrial personal computer can be industrial personal computer equipment for controlling the operation of the intelligent cabinet, such as controlling the opening of a cabinet lattice in the intelligent cabinet, collecting the opening and closing states of each cabinet lattice, collecting the temperature in the cabinet lattice and the like.

The power control module 11 performs power-on and power-off control on the intelligent cabinet industrial personal computer according to a power control task issued by the internet of things platform server 12. By controlling the power-on and power-off of the intelligent cabinet industrial personal computer, the system restarting control of the intelligent cabinet industrial personal computer can be realized. Therefore, the remote control of the system on/off of the intelligent cabinet can be realized through the platform server 12 of the Internet of things, the restarting task is modified, and the like, and the intelligent cabinet system on/off control method can be suitable for different application scenes.

The power control module 11 can also be connected with a connecting channel of the intelligent cabinet industrial personal computer to acquire system running state information of the intelligent cabinet, and then the system running state information is reported to the remote internet of things platform server 12, and the internet of things platform server 12 can issue a power control task for the intelligent cabinet industrial personal computer to the power control module 11 according to the reported system running state information of the intelligent cabinet. For example, when it is determined that the intelligent cabinet system is abnormal or the APP cannot be connected to the server according to the reported system operation state information of the intelligent cabinet, a power control task for the intelligent cabinet industrial personal computer is issued to the power control module 11, so that the intelligent cabinet system is restarted and returns to a normal use state.

Compared with the mode of manually maintaining the intelligent cabinet on site at present, the power control system of the intelligent cabinet provided by the embodiment can realize remote monitoring of the system running state information of the intelligent cabinet, and can remotely and real-timely check the running state of the system of the intelligent cabinet. The intelligent cabinet industrial personal computer can be controlled remotely to power on and off, so that the intelligent cabinet system can be restarted in time when the intelligent cabinet system is abnormal or the APP cannot be connected with a server, further, the intelligent cabinet can be maintained in time, the condition of manually maintaining the intelligent cabinet on site is reduced, and labor cost can be saved. In addition, the restarting task of the intelligent cabinet can be remotely modified, so that the intelligent cabinet can be suitable for different application scenes, and more requirements are met.

Further, as a refinement and expansion of the foregoing embodiment, in order to accurately control the restarting of the main power supply of the intelligent cabinet industrial personal computer, optionally, the power supply control system may further include: a relay; the relay is connected with a switching power supply of the intelligent cabinet industrial personal computer, and in the embodiment, the power supply control module 11 and the relay perform power-on and power-off control on the intelligent cabinet industrial personal computer. For example, the power control module 11 and the relay are used for controlling the power on and power off of the main power supply of the intelligent cabinet industrial personal computer so as to control the restarting of the intelligent cabinet system.

In this embodiment, there are various alternative ways to time the intelligent cabinet system to start and stop. As an alternative way, the platform server 12 of the internet of things issues a power-on or power-off instruction when the platform server needs to be powered on or powered off, and the power control module 11 controls the intelligent cabinet industrial personal computer to power on or power off according to the received task instruction; as another alternative, the platform server 12 of the internet of things issues a task of powering up and down in a fixed time, and the power control module 11 performs timing by an internal clock to reach a specified time to perform a corresponding operation. Accordingly, the power control module 11 may specifically include: a clock unit; the power control module 11 performs timing through the clock unit according to the power control task issued by the platform server 12 of the internet of things, and performs power-on and power-off control on the intelligent cabinet industrial personal computer when reaching the designated time.

Optionally, an embedded system is designed in the power control module 11, and the power control module 11 is connected with the internet of things platform server 12 through the embedded system in a network manner. The remote control communication and management of the power control module 11 can be better performed through the embedded system.

Optionally, the power control module 11 is connected with the intelligent cabinet industrial personal computer through 485 communication. So as to ensure the accurate transmission of communication messages between the power control module 11 and the intelligent cabinet industrial personal computer. For example, 485 communication is designed between the power control module 11 and the intelligent cabinet industrial personal computer, and the running state of the intelligent cabinet system is periodically acquired and reported to the platform server 12 of the internet of things by making a responsive communication protocol.

It will be appreciated by those skilled in the art that the configuration of the power control system of the intelligent cabinet provided in this embodiment is not limited to the present apparatus, and may include more or fewer components, or may combine certain components, or may have different arrangements of components. The device may also include a user interface, a network interface, a camera, radio Frequency (RF) circuitry, other sensors, audio circuitry, WI-FI modules, etc. The user interface may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), a mouse, etc., and the optional user interface may also include a USB interface, a card reader interface, etc. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), etc.

Further, in order to illustrate a specific application process of the system, as shown in fig. 2, the embodiment provides a power control method of an intelligent cabinet, which can be applied to the power control system of the intelligent cabinet, and the method includes:

step 201, system operation state information of the intelligent cabinet is obtained.

The main execution body of the method of the present embodiment may be the power control module 11 described above. The system running state information can comprise the use state, abnormal state, hardware parameter data, APP running state and the like of each cabinet in the intelligent cabinet. For example, intelligent cabinets currently include a number of active cabinets, wherein there are B number of heating devices in the cabinet, or there are C number of cabinet opening and closing door anomalies (e.g., door jams cannot open the door, etc.), or there are D number of cabinets to which a control command is sent without a long time response, etc. For another example, among the currently running APPs of the intelligent cabinet, those that need to communicate with the server networking have been disconnected, etc.

In this embodiment, the system running state information of the intelligent cabinet is acquired and can be reported to the platform server of the internet of things, and sometimes the industrial personal computer of the intelligent cabinet may be down, so that in order to quickly solve the abnormal problem of the intelligent cabinet system, the intelligent cabinet system can be directly restarted actively. Accordingly, step 201 may specifically include: if the running state information of the intelligent cabinet system is not obtained in the set time, the intelligent cabinet industrial personal computer is controlled in a power-on and power-off mode so as to actively restart the intelligent cabinet industrial personal computer; and acquiring the running state information of the intelligent cabinet system sent after the intelligent cabinet industrial personal computer is restarted.

For example, the power control module 11 and the intelligent cabinet industrial personal computer periodically report the running state of the intelligent cabinet system by making a response communication protocol, if the power control module 11 does not receive a related instruction sent by the intelligent cabinet industrial personal computer within a set time, the intelligent cabinet system is considered to be abnormal, the power control module 11 performs control of powering down and powering up the intelligent cabinet industrial personal computer, and then performs active restarting on the intelligent cabinet system, so that abnormal maintenance can be performed on the intelligent cabinet in time.

After the intelligent cabinet system is actively restarted, whether the intelligent cabinet system running state information returned by the intelligent cabinet industrial personal computer can be acquired within a preset time period can be further judged, if the intelligent cabinet system running state information is acquired within the preset time period, the intelligent cabinet system is indicated to be normal again, the information is continuously reported to the internet of things platform server 12, and the time for restarting the intelligent cabinet and the information of the restarting reason (such as downtime of the intelligent cabinet system) can be additionally obtained. If the system running state information is not acquired within the preset time, the intelligent cabinet system can be actively restarted again to eliminate the abnormal condition that the power-on and power-off control is in short failure. And then judging whether the running state information of the intelligent cabinet system returned by the intelligent cabinet industrial personal computer is acquired within a preset time period, if the running state information of the intelligent cabinet system returned by the intelligent cabinet industrial personal computer is not acquired within the preset time period, continuously retrying the intelligent cabinet system for N times according to actual requirements, or directly reporting to the Internet of things platform server 12, wherein the intelligent cabinet system is abnormal, the active restarting is still not maintained successfully, and the like.

In addition to the above manner that the power control module 11 can actively execute restarting of the intelligent cabinet system to solve the problem of downtime of the system, if the power control module 11 does not receive the related instruction sent by the intelligent cabinet industrial personal computer within a set time, it is considered that the intelligent cabinet system is abnormal, then the abnormal situation is timely reported to the platform server 12 of the internet of things, and the platform server 12 of the internet of things issues a power control task restarting of the intelligent cabinet system according to the reported abnormal alarm content to instruct the power control module 11.

And 202, sending system running state information of the intelligent cabinet to an Internet of things platform server.

The power control module 11 can specifically report the system operation state information of the intelligent cabinet to the remote internet of things platform server 12 through the network channel, and the identification information (such as the name, the number and the ID number of the intelligent cabinet) of the intelligent cabinet, so that the internet of things platform server 12 can determine which intelligent cabinet system operation state information is reported. The power control module 11 may not upload the identification information of the intelligent cabinet, and the platform server 12 of the internet of things may also query the corresponding intelligent cabinet (e.g. record the identifications of the power control modules corresponding to different intelligent cabinets in advance) through the identifications of the power control module 11.

And 203, receiving a power control task of the industrial personal computer of the intelligent cabinet, which is issued by the platform server of the Internet of things.

The internet of things platform server 12 can remotely issue a power control task to the power control module 11 for the industrial personal computer of the intelligent cabinet. In this embodiment, the platform server 12 of the internet of things may issue a power control task to the industrial personal computer of the intelligent cabinet according to the actual requirement. Optionally, in order to accurately implement remote maintenance of the intelligent cabinet system in time, step 203 may specifically include: and receiving a power control task issued by the platform server of the Internet of things according to the running state information of the intelligent cabinet system. The internet of things platform server 12 analyzes according to the reported system operation state information of the intelligent cabinet a, and in combination with the system operation state information of other intelligent cabinets, predicts a time point when the intelligent cabinet a needs to be restarted, and then issues a power control task for restarting the system according to the time point, so that when the power control module of the intelligent cabinet a reaches the specified time point, the intelligent cabinet system of the intelligent cabinet a is actively restarted.

For example, when the intelligent cabinet system runs for a long time, the risk of downtime may exist, or an APP cannot be connected with a server, etc., according to the system running state information reported by each intelligent cabinet, the accumulated running time when the other intelligent cabinet systems of the same model as the intelligent cabinet a are abnormal is collected, an average value can be calculated, and by combining with the current accumulated running time of the intelligent cabinet a, the time point when the intelligent cabinet a needs to be restarted is estimated, and a power control task for restarting the system according to the time point is issued, so that the system of the intelligent cabinet a can be restarted for maintenance on time. Through the optional mode, the abnormal time point of the intelligent cabinet system can be perceived in advance, so that timely restarting maintenance is performed in advance, and in order not to influence the use of a user, the intelligent cabinet user can select a few time periods to perform restarting maintenance, such as a period from 1 point to 3 points in the morning, so that the influence of the restarting system on the use of the intelligent cabinet by the user is reduced.

And 204, powering on and powering off the industrial personal computer of the intelligent cabinet according to the received power control task.

Optionally, step 204 may specifically include: and executing power-on and power-off control on the intelligent cabinet industrial personal computer according to the control time designated by the power control task.

Prior to step 204, the method of the present embodiment may further include: updating the existing power control task according to the received power control task; accordingly, step 204 may specifically include: and (5) carrying out power-on and power-off control on the intelligent cabinet industrial personal computer according to the updated power control task. By the method, the remote control intelligent cabinet system can be started and shut down, the restarting task is modified, different application scenes are adapted, and the pain point of the control task which needs to be modified manually on site is solved.

Further optionally, the method of this embodiment may further include: and acquiring the latest system running state information of the intelligent cabinet at regular time and sending the latest system running state information to the platform server of the Internet of things. By the mode of the embodiment, the operation of the intelligent cabinet system can be monitored in real time, and the system is actively restored when the intelligent cabinet system is abnormal; the pain point of the intelligent cabinet system, which is needed to be restarted on site manually during system abnormality, is solved; the running state of the intelligent cabinet system is reported in real time, and can be checked in real time through the platform of the Internet of things.

To illustrate the implementation of the above embodiments, the following application examples are given, but not limited thereto:

the existing intelligent cabinet is unstable in industrial personal computer system and APP, so that system downtime is easy to occur or the APP cannot be connected with an abnormal pain point such as a server, and operation and maintenance personnel are required to restart on site at present, so that efficiency is low and labor cost is high. And the intelligent cabinet needs to perform power-off treatment on main parts of the cabinet in a designated time due to power saving or other reasons. To solve these problems, the embodiment can perform forced system reset when necessary by adding a hardware detection and control module.

As shown in fig. 3, (1) the main power supply of the intelligent cabinet industrial personal computer is controlled in a power-on and power-off mode through a power supply control module and a relay; (2) An embedded system is designed in the power control module and can be connected with the IOT platform, and the control task issued by the platform is responded remotely and the running state information of the intelligent cabinet system is uploaded; (3) 485 communication is designed between the power control module and the intelligent cabinet industrial personal computer, and reporting of the running state of the intelligent cabinet system is periodically carried out by making a communication protocol of response; if the power control module does not receive the related instruction sent by the intelligent cabinet industrial personal computer within the set time, the power control module considers that the system is abnormal, and accordingly the system is actively restarted.

The three points can be combined to realize real-time remote control and operation monitoring of the intelligent cabinet system. According to the scheme, the power control module and the relay can be used for controlling the power on and power off of the intelligent cabinet industrial personal computer and executing timing tasks. The operation state of the intelligent cabinet can be monitored through 485 communication with the industrial personal computer of the intelligent cabinet, and if the operation state is abnormal, the system is actively reset, so that the normal operation of the system is restored. The instruction of the platform can be received through communication with the IOT platform, so that the power-off time can be remotely changed; meanwhile, the system state can be reported; the system can be turned on or off at fixed time in two modes, one is that the server issues a power-on or power-off instruction when the power-on or power-off is needed; the other is that the server issues a task of powering up and down in a fixed time, and the power control module counts time by an internal clock to reach the designated time to execute corresponding operation.

Based on such understanding, the technical solution of the method of the present embodiment may also be embodied in the form of a software product, where the software product may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disc, a mobile hard disk, etc.), and includes several instructions for causing a computer device (may be a personal computer, a smart cabinet, or a network device, etc.) to execute the method of each implementation scenario of the present application. The storage medium may also include an operating system, a network communication module. An operating system is a program that manages the hardware and software resources of the device, supporting the execution of information handling programs and other software and/or programs. The network communication module is used for realizing communication among all components in the storage medium and communication with other hardware and software in the device.

By applying the technical scheme of the embodiment, compared with the mode of manually maintaining the intelligent cabinet on site at present, the system running state information of the intelligent cabinet can be remotely monitored, and the running state of the intelligent cabinet system can be remotely checked in real time. The intelligent cabinet industrial personal computer can be controlled remotely to power on and off, so that the intelligent cabinet system can be restarted in time when the intelligent cabinet system is abnormal or the APP cannot be connected with a server, further, the intelligent cabinet can be maintained in time, the condition of manually maintaining the intelligent cabinet on site is reduced, and labor cost can be saved. In addition, the restarting task of the intelligent cabinet can be remotely modified, so that the intelligent cabinet can be suitable for different application scenes, and more requirements are met.

Those skilled in the art will appreciate that the drawing is merely a schematic illustration of a preferred implementation scenario and that the modules or flows in the drawing are not necessarily required to practice the application. Those skilled in the art will appreciate that modules in an apparatus in an implementation scenario may be distributed in an apparatus in an implementation scenario according to an implementation scenario description, or that corresponding changes may be located in one or more apparatuses different from the implementation scenario. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above-mentioned inventive sequence numbers are merely for description and do not represent advantages or disadvantages of the implementation scenario. The foregoing disclosure is merely illustrative of some embodiments of the application, and the application is not limited thereto, as modifications may be made by those skilled in the art without departing from the scope of the application.

Claims (10)

1. A power control system for an intelligent cabinet, comprising: the system comprises a power control module and an Internet of things platform server which is connected with the power control module through a network;

the power control module is connected with an industrial personal computer of the intelligent cabinet, and acquires system operation state information of the intelligent cabinet and sends the system operation state information to the server, wherein the system operation state information comprises the use state, the abnormal state, hardware parameter data, APP operation state and restarting reason information of each cabinet in the intelligent cabinet;

when the power control module cannot acquire the system running state information of the intelligent cabinet within a set time, the intelligent cabinet is actively restarted immediately;

when the power control module still does not acquire the system running state information of the intelligent cabinet within the preset time after the intelligent cabinet is actively restarted, the intelligent cabinet is actively restarted or the server is reported for a plurality of times;

the server issues a power control task to the industrial personal computer to the power control module, and the power control module conducts power-on and power-off control to the industrial personal computer at a designated time according to the power control task, wherein the designated time is determined based on system operation state information of the intelligent cabinet and system operation state information of other intelligent cabinets related to the intelligent cabinet.

2. The power control system of claim 1, further comprising: a relay;

the relay is connected with a switching power supply of the industrial personal computer, and the power supply control module and the relay are used for controlling the industrial personal computer to be powered on and powered off.

3. The power control system of claim 1, wherein the power control module comprises: a clock unit;

and the power control module counts time through the clock unit according to the power control task issued by the server, and executes power-on and power-off control on the industrial personal computer when reaching the designated time.

4. The power control system according to claim 1, wherein an embedded system is designed inside the power control module, and the power control module is connected with the server network through the embedded system; the power supply control module is connected with the industrial personal computer through 485 communication.

5. The power supply control method of the intelligent cabinet is characterized by comprising the following steps of:

acquiring system running state information of the intelligent cabinet;

the system operation state information is sent to an internet of things platform server, wherein the system operation state information comprises the use state, the abnormal state, the hardware parameter data, the APP operation state and the restarting reason information of each cabinet in the intelligent cabinet;

when the power supply control module cannot acquire the system running state information of the intelligent cabinet within a set time, the intelligent cabinet is actively restarted immediately;

when the power control module still does not acquire the system running state information of the intelligent cabinet within the preset time after the intelligent cabinet is actively restarted, the intelligent cabinet is actively restarted or the server is reported for a plurality of times;

receiving a power control task issued by the server and applied to the industrial personal computer of the intelligent cabinet;

and determining a designated control time based on the system operation state information of the intelligent cabinet, and controlling the industrial personal computer to power on and power off at the designated control time according to the power control task, wherein the designated control time is determined based on the system operation state information of the intelligent cabinet and the system operation state information of other intelligent cabinets related to the intelligent cabinet.

6. The method for controlling a power supply according to claim 5, wherein the acquiring the system operation state information of the intelligent cabinet specifically comprises:

if the system running state information is not acquired within the set time, the industrial personal computer is controlled in a power-on and power-off mode so as to actively restart the industrial personal computer;

and acquiring the system running state information sent after the industrial personal computer is restarted.

7. The power control method according to claim 5, wherein the receiving the power control task issued by the server to the industrial personal computer of the intelligent cabinet specifically includes:

and receiving the power control task issued by the server according to the system running state information.

8. The power control method according to claim 5, wherein the power control task is performed on the industrial personal computer, and the power control method specifically includes:

and executing power-on and power-off control on the industrial personal computer according to the control time designated by the power control task.

9. The power control method according to claim 5, wherein before the power control task is performed on the industrial personal computer, the method further comprises:

updating the existing power control task according to the received power control task;

and the power-on and power-off control is performed on the industrial personal computer according to the power control task, and the power-on and power-off control method specifically comprises the following steps of:

and (5) carrying out power-on and power-off control on the industrial personal computer according to the updated power control task.

10. The power supply control method according to claim 5, characterized in that the method further comprises:

and acquiring the latest system running state information of the intelligent cabinet at regular time and sending the latest system running state information to the server.