CN113131619A - Power supply control system and method of intelligent cabinet - Google Patents

Abstract

The application discloses a power supply control system and method of 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 sending the system running state information to an Internet of things platform server; then receiving a power supply control task issued by the server to the industrial personal computer of the intelligent cabinet; and finally, controlling the industrial personal computer to be powered on and powered off according to the power supply control task. The intelligent cabinet system can be restarted in time when the intelligent cabinet system is abnormal, and then the intelligent cabinet can be maintained in time.

Description

Power supply control system and method of 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, take-out cabinets, self-service vending cabinets and the like) have been widely entered into daily life of people. However, due to the instability of the industrial personal computer system and the Application program (APP), the intelligent cabinet is prone to abnormal situations such as system downtime or the APP being unable to connect with the server.

At present, in order to solve the abnormal situation of the intelligent cabinet, maintenance personnel are required to go to the intelligent cabinet for maintenance on site regularly or according to user suggestion feedback, more labor cost is required, the intelligent cabinet is not maintained timely, and then the use of the user on the intelligent cabinet can be influenced.

Disclosure of Invention

In view of this, the present application provides a power control system and method for an intelligent cabinet, and mainly aims to solve the technical problems that the labor cost is high and the intelligent cabinet is not maintained timely due to the current manner of manually maintaining the intelligent cabinet on site.

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

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

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

Optionally, the power 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 electrically 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 is used for timing through the clock unit according to a power control task issued by the server and executing power-on and power-off control on the industrial personal computer when the specified time is reached.

Optionally, an embedded system is designed inside the power control module, and the power control module is connected to 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 including:

acquiring system running state information of the intelligent cabinet;

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

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

and controlling the industrial personal computer to be powered on and powered off according to the power supply control task.

Optionally, the acquiring system running 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 to be powered on and powered off so as to be restarted actively;

and acquiring the system running state information sent by the industrial personal computer after restarting.

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

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

Optionally, according to the power control task, it is right to control the industrial computer from top to bottom, specifically include:

and executing power-on and power-off control on the industrial personal computer according to the control time appointed 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 supply control task according to the received power supply control task;

according to the power control task, the industrial personal computer is controlled to be powered on and powered off, and the method specifically comprises the following steps:

and controlling the industrial personal computer to be powered on and powered off according to the updated power control task.

Optionally, the method further includes:

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 existing mode that the intelligent cabinet needs to be maintained on site manually, the power supply control system and the power supply control method for the intelligent cabinet can achieve remote monitoring of system operation state information of the intelligent cabinet, and can conduct remote real-time checking on the system operation state of the intelligent cabinet. And but remote control intelligence cabinet industrial computer carries out the power-on and power-off control for can in time restart this intelligence cabinet system when the intelligence cabinet system appears unusually or APP can't connect the server, and then realize in time maintaining the intelligence cabinet, reduce the condition emergence of artifical on-the-spot maintenance intelligence cabinet, can save the cost of labor. 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 technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

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 application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

fig. 2 is a schematic flowchart illustrating a power control method for an intelligent cabinet according to an embodiment of the present disclosure;

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

Detailed Description

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

The technical problems that labor cost is high and the intelligent cabinet is not maintained timely due to the fact that the existing mode of manually maintaining the intelligent cabinet on site is improved. This embodiment provides a power control system of intelligence cabinet, as shown in fig. 1, this power control system includes: the system comprises a power control module 11 and an internet of things platform server 12 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 fetching cabinet and the like), and the power control module 11 acquires system running state information (such as the use state, the abnormal state, hardware parameter data, the APP running state and the like of each cabinet lattice) of the intelligent cabinet and sends the information to the remote Internet of things platform server 12; and the platform server 12 of the internet of things sends a power control task to the industrial personal computer of the intelligent cabinet to the power control module 11.

The power control module 11 can be a circuit board which is installed inside the intelligent cabinet and can control the power of the industrial personal computer of the intelligent cabinet, namely a power control board. 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 the cabinet lattices in the intelligent cabinet, acquiring the opening and closing states of each cabinet lattice, acquiring the temperature in each cabinet lattice and the like.

And the power control module 11 controls the intelligent cabinet industrial personal computer to power on and off according to a power control task issued by the platform server 12 of the internet of things. The intelligent cabinet industrial personal computer is electrically controlled from top to bottom, so that system restart control of the intelligent cabinet industrial personal computer can be realized. Therefore, the intelligent cabinet system can be remotely controlled to be turned on and off, modify and restart tasks and the like through the Internet of things platform server 12, and the intelligent cabinet system is suitable for different application scenes.

The power control module 11 can also acquire system running state information of the intelligent cabinet through a connecting channel of the intelligent cabinet industrial personal computer, and then report the system running state information to the remote Internet of things platform server 12, and the Internet of things platform server 12 can issue a power control task to 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 connect 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 the normal use state is recovered.

The power control system of intelligence cabinet that this embodiment provided compares with the mode that needs artifical scene to maintain the intelligence cabinet at present, and the system running state information of remote monitoring intelligence cabinet can be realized to this embodiment, can carry out long-range real-time viewing to intelligence cabinet system running state. And but remote control intelligence cabinet industrial computer carries out the power-on and power-off control for can in time restart this intelligence cabinet system when the intelligence cabinet system appears unusually or APP can't connect the server, and then realize in time maintaining the intelligence cabinet, reduce the condition emergence of artifical on-the-spot maintenance intelligence cabinet, can save the cost of labor. 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 an extension of the specific implementation of the above embodiment, in order to accurately control the restart of the main power supply of the industrial personal computer of the intelligent cabinet, optionally, the power supply control system may further include: a relay; the relay is connected with the switching power supply of intelligent cabinet industrial computer, and in this embodiment, power control module 11 and relay control the intelligent cabinet industrial computer from top to bottom. For example, the power control module 11 and the relay are used for performing power-on and power-off control on a main power supply of the intelligent cabinet industrial personal computer so as to control the intelligent cabinet system to restart.

In this embodiment, there are many optional ways to turn on and off the smart cabinet system at regular time. As an optional mode, the platform server 12 of the internet of things issues a power-on or power-off instruction when the intelligent cabinet needs to be powered on and powered off, and the power control module 11 controls the intelligent cabinet industrial personal computer to be powered on or powered off according to the received task instruction; as another optional mode, the platform server 12 of the internet of things issues a task of powering on and powering off for a fixed time, and the power control module 11 performs timing through an internal clock, and executes a corresponding operation when the specified time is reached. Correspondingly, the power control module 11 may specifically include: a clock unit; the power control module 11 times through the clock unit according to the power control task issued by the platform server 12 of the internet of things, and executes the power-on and power-off control on the industrial personal computer of the intelligent cabinet when the specified time is reached.

Optionally, an embedded system is designed inside the power control module 11, and the power control module 11 is connected to the internet of things platform server 12 through the embedded system. The remote control communication and management of the power control module 11 can be better performed through an 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 the communication information between the power control module 11 and the industrial personal computer of the intelligent cabinet. For example, 485 communication is designed between the power control module 11 and the intelligent cabinet industrial personal computer, and the operating state of the intelligent cabinet system is periodically acquired and reported to the internet of things platform server 12 through a communication protocol for formulating a response.

Those skilled in the art will appreciate that the configuration of the power control system of the intelligent cabinet provided in the present embodiment does not constitute a limitation of the present apparatus, and may include more or fewer components, or some components in combination, or a different arrangement of components. For example, the device may further include a user interface, a network interface, a camera, Radio Frequency (RF) circuitry, other sensors, audio circuitry, a WI-FI module, 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, to illustrate a specific application process of the system, as shown in fig. 2, this embodiment provides a power control method for an intelligent cabinet, which is applicable to the power control system for the intelligent cabinet, and the method includes:

step 201, obtaining system running state information of the intelligent cabinet.

The main body for executing the method of the present embodiment may be the power control module 11. The system running state information can comprise the use state, the abnormal state, the hardware parameter data, the APP running state and the like of each cabinet grid in the intelligent cabinet. For example, the intelligent cabinet currently comprises a cabinet lattices which are put into use, wherein a heating device in B cabinet lattices is abnormal, or C cabinet lattices are abnormal in opening and closing doors (for example, the doors are locked and cannot be opened), or D cabinet lattices do not return a response to the control command sent by the cabinet lattices for a long time, and the like. For another example, which of the APPs currently running in the smart cabinet needs to be networked with the server are disconnected, and the like.

In this embodiment, the system running state information of the intelligent cabinet can be acquired and reported to the platform server of the internet of things, sometimes, the industrial personal computer of the intelligent cabinet may be down, and at this time, in order to quickly solve the abnormal problem of the intelligent cabinet system, the intelligent cabinet system can be directly and actively restarted. Correspondingly, optionally, step 201 may specifically include: if the running state information of the intelligent cabinet system is not acquired within the set time, performing power-on and power-off control on the intelligent cabinet industrial personal computer to actively restart the intelligent cabinet industrial personal computer; and acquiring the running state information of the intelligent cabinet system sent by the intelligent cabinet industrial personal computer after being restarted.

For example, the power control module 11 and the intelligent cabinet industrial personal computer periodically report the operating state of the intelligent cabinet system through a communication protocol for setting a response, if the power control module 11 does not receive a related instruction sent by the intelligent cabinet industrial personal computer within a set time, it is considered that the intelligent cabinet system is abnormal, the power control module 11 controls the intelligent cabinet industrial personal computer to power off and then on, and further, the intelligent cabinet system is initiatively restarted, so that abnormal maintenance can be performed on the intelligent cabinet in time.

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

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

Step 202, system running state information of the intelligent cabinet is sent to the platform server of the Internet of things.

The power control module 11 may specifically report the system operation state information of the intelligent cabinet, and the identification information (such as name, number, and ID number) of the intelligent cabinet to the remote internet of things platform server 12 through the network channel, so that the internet of things platform server 12 determines 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 through the identification of the power control module 11 (for example, pre-record the identifications of the power control modules corresponding to different intelligent cabinets respectively).

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

For example, the intelligent cabinet system may have a risk of downtime in long-time operation, or the APP may not be connected to the server, etc., according to the system operation state information reported by each intelligent cabinet, the accumulated operation time when the other intelligent cabinet systems of the same type as the intelligent cabinet a are abnormal is collected, an average value can be calculated, and in combination with the current accumulated operation time of the intelligent cabinet a, the time point at which the intelligent cabinet a needs to be restarted by the system 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 and maintained on time. Through the optional mode, the abnormal time point of the intelligent cabinet system can be sensed in advance, and then the intelligent cabinet system can be restarted and maintained in time in advance, and in order not to influence the use of a user, the intelligent cabinet system can be selected to be restarted and maintained in a few time periods in use, such as the time period from 1 point to 3 points in the morning, and the influence of the restarting system on the use of the intelligent cabinet by the user is reduced.

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

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

Before step 204, the method of this embodiment may further include: updating the existing power supply control task according to the received power supply control task; correspondingly, step 204 may specifically include: and performing power-on and power-off control on the intelligent cabinet industrial personal computer according to the updated power control task. By the method, the intelligent cabinet system can be remotely controlled to be turned on and off, the restarting task is modified, different application scenes are adapted, and pain points of manual field modification of the control task are solved.

Further optionally, the method of this embodiment may further include: and obtaining the latest system running state information of the intelligent cabinet at regular time and sending the latest system running state information to the Internet of things platform server. By the mode of the embodiment, the operation of the intelligent cabinet system can be monitored in real time, and the system can be actively recovered in abnormal conditions; the pain point that the intelligent cabinet system needs to be restarted on site manually when the system is abnormal is solved; and reporting the running state of the intelligent cabinet system in real time, wherein the running state of the intelligent cabinet system can be checked in real time through the Internet of things platform.

In order to illustrate the specific implementation process of the above embodiments, the following application examples are given, but not limited thereto:

because industrial computer system and APP are unstable, the current intelligent cabinet easily causes the system downtime or abnormal pain points such as the APP unable connection server, needs the operation and maintenance personnel on-site restart at present, causes inefficiency, and the cost of labor is higher. And the intelligent cabinet needs to perform power-off processing on main parts of the cabinet within a specified time due to power saving or other reasons. In order to solve the problems, the scheme of the embodiment can perform forced system reset when necessary by additionally installing 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 up and down 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, remotely respond to control tasks issued by the platform and upload the running state information of the intelligent cabinet system; (3) 485 communication is designed between the power control module and the intelligent cabinet industrial personal computer, and the running state of the intelligent cabinet system is periodically reported by formulating a response communication protocol; if the power control module does not receive the related instruction sent by the industrial personal computer of the intelligent cabinet within the set time, the system is considered to be abnormal, and therefore the system is initiatively restarted.

The combination of the three points can realize real-time remote control and operation monitoring of the intelligent cabinet system. According to the scheme, the intelligent cabinet industrial personal computer can be electrically controlled up and down through the power control module and the relay, and a timing task is executed. The operation state of the intelligent cabinet can be monitored through 485 communication with the industrial personal computer of the intelligent cabinet, if abnormity occurs, the system is initiatively reset, and the normal operation of the system is recovered. The instruction of the platform can be received through communication with the IOT platform, so that the power-off time can be changed remotely; meanwhile, the system state can be reported; specifically, the system can be turned on and off at regular time in two ways, one is that the server sends a power-on or power-off instruction when the system needs to be turned on and off; the other is that the server sends a task of powering on and powering off at fixed time, and the power supply control module times through an internal clock and executes corresponding operation when reaching the specified time.

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 (which may be a CD-ROM, a usb disk, a removable hard disk, or the like), and includes several instructions to enable a computer device (which may be a personal computer, a smart cabinet, or a network device, or the like) to execute the method of the various implementation scenarios in this application. The storage medium may further include an operating system and a network communication module. The operating system is a program that manages the hardware and software resources of the device, and supports the operation of the information processing program as well as other software and/or programs. The network communication module is used for realizing communication among the components in the storage medium and communication with other hardware and software in the device.

Through the technical scheme of using this embodiment, compare with the mode that needs artifical on-the-spot maintenance intelligence cabinet at present, the system running state information of remote monitoring intelligence cabinet can be realized to this embodiment scheme, can carry out long-range real-time viewing to intelligence cabinet system running state. And but remote control intelligence cabinet industrial computer carries out the power-on and power-off control for can in time restart this intelligence cabinet system when the intelligence cabinet system appears unusually or APP can't connect the server, and then realize in time maintaining the intelligence cabinet, reduce the condition emergence of artifical on-the-spot maintenance intelligence cabinet, can save the cost of labor. 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 figures are merely schematic representations of one preferred implementation scenario and that the blocks or flow diagrams in the figures are not necessarily required to practice the present application. Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. 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 application serial numbers are for description purposes only and do not represent the superiority or inferiority of the implementation scenarios. The above disclosure is only a few specific implementation scenarios of the present application, but the present application is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present application.

Claims (10)

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

the power supply control module is connected with an industrial personal computer of the intelligent cabinet, and the power supply control module acquires system operation state information of the intelligent cabinet and sends the system operation state information to the server;

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

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 electrically 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 is used for timing through the clock unit according to a power control task issued by the server and executing power-on and power-off control on the industrial personal computer when the specified time is reached.

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 through the embedded system; the power control module is connected with the industrial personal computer through 485 communication.

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

acquiring system running state information of the intelligent cabinet;

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

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

and controlling the industrial personal computer to be powered on and powered off according to the power supply control task.

6. The power control method 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 to be powered on and powered off so as to be restarted actively;

and acquiring the system running state information sent by the industrial personal computer after restarting.

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

and receiving the power supply 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-on and power-off control of the industrial personal computer according to the power control task specifically comprises:

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

9. The power control method of claim 5, wherein before said power control task power-up and power-down control of said industrial personal computer, said method further comprises:

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

according to the power control task, the industrial personal computer is controlled to be powered on and powered off, and the method specifically comprises the following steps:

and controlling the industrial personal computer to be powered on and powered off according to the updated power control task.

10. The power control method of claim 5, further comprising:

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.

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