CN114911679A - Multi-load charging equipment monitoring method and system and storage medium - Google Patents

Abstract

The invention relates to the technical field of equipment monitoring, in particular to a multi-load charging equipment monitoring method, system and storage medium. The multi-load charging equipment monitoring method performs real-time hierarchical monitoring of charging equipment through a cloud control center and a secondary control terminal, and controls the charging equipment through the cloud. The center monitors all charging devices in the preset area in real time, and obtains relevant information of all charging devices in real time; through the cloud control center, the secondary control terminal is granted the monitoring right of at least some of the charging devices, and the secondary control terminal passes the monitoring rights based on the granted monitoring rights. The cloud control center obtains the relevant information of the corresponding charging device in real time; the cloud control center determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device obtained in real time, and when the working state of the charging device is abnormal; an early warning instruction. The monitoring method for multi-load charging equipment of the present invention has a large monitoring range, high precision and fast response.

Description

Method and system for monitoring multi-load charging equipment and storage medium

【Technical field】

The present invention relates to the technical field of charging equipment monitoring, and in particular, to a method and system for monitoring multi-load charging equipment and a storage medium.

【Background technique】

When conducting field operations or rescues, auxiliary rescue equipment such as light sources, solar panels, and smart terminals are usually required, and the duration of field operations or rescues is usually difficult to determine. Therefore, in order to ensure the smoothness of field operations or rescues If it is advanced, it will solve the problem of battery life of related rescue equipment. Therefore, there are some composite charging devices that can charge multiple loads at the same time.

However, when working or rescue in the field, the environment is usually relatively harsh, which leads to the failure of auxiliary rescue equipment and its charging equipment, especially in the process of field operation, people are always monitoring the operation of the charging equipment. It is unrealistic, but if the damage of the equipment cannot be known in time and dealt with in time, it will inevitably have a bad impact on the operation or the progress of search and rescue.

[Content of the invention]

In order to solve the problem that the damage of auxiliary rescue equipment and charging equipment cannot be known in time during field operation or rescue, the present invention provides a multi-load charging equipment monitoring method, system and storage medium.

The solution to the technical problem of the present invention is to provide a monitoring method for multi-load charging equipment, which performs real-time hierarchical monitoring of charging equipment through a cloud control center and a secondary control terminal, including the following steps:

Monitor all charging devices in the preset area in real time through the cloud control center, and obtain relevant information of all charging devices in real time;

The secondary control terminal is granted the monitoring right of at least part of the charging equipment through the cloud control center, and the secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring right;

The cloud control center determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device acquired in real time. When the working state of the charging device is abnormal, it sends a first warning command to the secondary control terminal.

Preferably, the relevant information includes location information of the charging device, power supply status of the charging device, temperature and load status of the charging device, and operating states of various modules inside the charging device.

Preferably, the monitoring right of all charging devices in the preset area is granted to the secondary control terminal through the cloud control center; and/or, the charging devices are numbered, and the corresponding numbered charging devices are granted to the secondary control terminal through the cloud control center monitoring rights.

Preferably, the cloud control center grants or reclaims the monitoring right of the charging equipment to the secondary control terminal in real time; and/or, the cloud control center grants the monitoring right for a preset period to the secondary control terminal, and automatically recovers the corresponding monitoring right after expiration right.

Preferably, the cloud control center sends a second early warning instruction to the corresponding charging device while sending the first early warning instruction to the secondary control terminal, and the first early warning instruction and the second early warning instruction may be the same or different.

Preferably, the determining whether the working state of the charging device is normal includes the following steps:

Determine whether the operating temperature of the charging device is normal;

And/or, determine whether the power supply state of the charging device is normal.

Preferably, the monitoring method for multi-load charging equipment further includes the following steps:

When judging whether the working state of the charging device is normal, the working state of the charging device is divided into normal, mildly abnormal or severely abnormal, and when it is determined that the working state is severely abnormal, at least part of the functions of the charging device are remotely turned off.

Preferably, the multi-load charging equipment monitoring method further includes the following steps: if the received first warning instruction indicates that the working state of the charging equipment is slightly abnormal, deploying maintenance personnel to the area where the corresponding charging equipment is located;

If the received first warning instruction indicates that the working state of the charging equipment is severely abnormal, the charging equipment is allocated to the location of the corresponding charging equipment while the maintenance personnel are deployed.

In order to solve the above problem, the present invention also provides a monitoring system for multi-load charging equipment, including a cloud control center and a secondary control terminal connected by a signal for monitoring the use status of multiple charging equipment;

The cloud control center is used to grant the monitoring right of at least part of the charging equipment to the secondary control terminal, obtain relevant information of all the charging equipment in real time, and transmit the relevant information to the secondary control terminal granted the monitoring right of the corresponding charging equipment;

The secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring right;

The cloud control center also determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device acquired in real time, and sends a first warning instruction to the secondary control terminal when the working state of the charging device is abnormal.

In order to solve the above problems, the present invention also provides a computer-readable storage medium, the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the processor implements the above-mentioned multiple loads. Charging equipment monitoring method.

Compared with the prior art, the multi-load charging device monitoring method of the present invention has the following advantages:

1. The multi-load charging equipment monitoring method of the present invention performs real-time hierarchical monitoring on charging equipment through the cloud control center and the secondary control terminal, including the following steps: monitoring all charging equipment in a preset area in real time through the cloud control center, and obtaining all the charging equipment in real time. Relevant information of charging equipment; the secondary control terminal is granted the monitoring right of at least part of the charging equipment through the cloud control center, and the secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring rights; the cloud control center Whether the working state of the corresponding charging device is normal is determined according to the relevant information of the charging device acquired in real time, and when the working state of the charging device is abnormal, a first warning instruction is sent to the secondary control terminal. It can be understood that the present invention uses the cloud control center and the secondary control terminal to perform hierarchical control on the charging equipment, with a large monitoring range and high accuracy; the cloud control center is used to grant or reclaim the control right to the secondary control terminal, which is conducive to improving the performance of charging equipment. The security of the monitoring method for multi-load charging equipment is determined by the cloud control center, and then the first warning command is sent to the secondary control terminal for early warning, so that the secondary control terminal can perform specific processing, which is beneficial to improve the monitoring efficiency of the equipment. .

2. The relevant information of the present invention includes the location information of the charging device, the power supply situation of the charging device, the temperature and load status of the charging device, and the operating status of each module inside the charging device. It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as power supply, temperature, load and operating status, which can assist the cloud control center to issue more targeted first warning instructions according to the actual situation, and effectively improve the follow-up Processing efficiency; at the same time, the location information of the equipment is also obtained, which is convenient for quickly dispatching maintenance personnel and emergency equipment to the designated area.

3. In the present invention, the monitoring right of all charging devices in the preset area can be granted to the secondary control terminal through the cloud control center; it is also possible to number the charging devices first, and then grant the monitoring rights to the secondary control terminal through the cloud control center. The monitoring right of the charging device with the corresponding number. It is understandable that the advantage of granting monitoring devices based on the preset area to facilitate rapid batch authorization is high efficiency; the advantage of granting authorization based on the corresponding number is that it can achieve more accurate authorization and high flexibility; at the same time , or a combination of the two methods can be used to improve the operability when granting monitoring rights.

4. In the present invention, the cloud control center grants or reclaims the monitoring right of the charging equipment to the secondary control terminal in real time; and/or, the cloud control center grants the secondary control terminal the monitoring right for a preset period, which is automatically recovered after expiration corresponding monitoring rights. It can be understood that the flexibility of granting or reclaiming monitoring rights in real time through the cloud control center is higher; and by setting a preset time limit for monitoring rights, the automation degree of the monitoring method for multi-load charging equipment can be improved.

5. In the present invention, the cloud control center sends a second early warning instruction to the corresponding charging device while sending the first early warning instruction to the secondary control terminal. The first early warning instruction and the second early warning instruction may be the same or different. It is understandable that there may be staff next to the charging equipment. Therefore, after finding that the charging equipment is abnormal, it sends the first warning command to the secondary control terminal and sends the second warning command to the charging equipment at the same time, which is beneficial to improve the response rate. , if there is a staff next to the charging device, you can respond quickly; and because the secondary control terminal and the charging device are two different devices, sending an early warning to the secondary control terminal is to control the secondary notification segment. Owner, the purpose of sending an early warning to the charging device is to control the staff near the device. There is a difference between the two, so it is very reasonable that the first warning command and the second warning command can use the same or different commands.

6. In the present invention, determining whether the working state of the charging device is normal includes the following steps: determining whether the operating temperature of the charging device is normal; and/or determining whether the power supply state of the charging device is normal. It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as temperature and operating status, which can assist the cloud control center to issue more targeted first warning commands and/or second warning commands according to the actual situation, effectively improving the Efficiency of follow-up maintenance, etc.

7. The multi-load charging device monitoring method of the present invention further comprises the following steps: when determining whether the working state of the charging device is normal, classifying the working state of the charging device as normal, slightly abnormal or severely abnormal, and when determining whether the working state is severe When abnormal, remotely turn off at least part of the functions of the charging device. It is understandable that if the charging equipment is only slightly abnormal, it is unnecessary to perform functional operations, which will easily affect the working efficiency of the equipment; Abnormalities make more accurate feedback operations, while ensuring timely response and ensuring the working efficiency of charging equipment.

8. The monitoring method for multi-load charging equipment of the present invention further includes the following steps: if the received first warning instruction indicates that the working state of the charging equipment is slightly abnormal, deploying maintenance personnel to the area where the corresponding charging equipment is located; If the first warning instruction of the charging equipment indicates that the working state of the charging equipment is severely abnormal, the charging equipment will be allocated to the location of the corresponding charging equipment while dispatching maintenance personnel. It is understandable that the application equipment of this multi-load charging equipment monitoring method is usually used for field operations or rescue operations. Human resources are very tight, and it is not always possible to spare time to repair the equipment. Therefore, it can be avoided by deploying maintenance personnel. Affect the progress of field operations or rescue; and when the working state of the equipment is severely abnormal, the maintenance personnel may not be able to quickly complete the maintenance of the equipment, but deploying the charging equipment to the location of the corresponding charging equipment as an emergency can effectively Avoid affecting the progress of field operations or rescue due to slow maintenance.

9. The present invention also provides a multi-load device monitoring system for implementing the above-mentioned multi-load charging device monitoring method. The multi-load device monitoring system includes a cloud control center and a secondary control terminal for monitoring multiple charging devices. The use status of the device; the cloud control center is used to grant the monitoring right of at least some charging devices to the secondary control terminal, and obtain the relevant information of all the charging devices in real time and transmit the relevant information to the secondary control terminal that has been granted the monitoring right of the corresponding charging device. The secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring rights; the cloud control center also determines whether the working state of the corresponding charging equipment is based on the relevant information of the charging equipment acquired in real time. is normal, and when the working state of the charging device is abnormal, a first warning command is sent to the secondary control terminal. It can be understood that the multi-load device monitoring system has the same beneficial effects as the above-mentioned multi-load charging device monitoring method.

10. The present invention also provides a computer-readable storage medium, the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the processor enables the processor to monitor the multi-load charging device as described above. method. It can be understood that the computer-readable storage medium has the same beneficial effects as the above-mentioned monitoring method for a multi-load charging device.

【Description of drawings】

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only for the present invention. In some embodiments, for those of ordinary skill in the art, other drawings can also be obtained according to these drawings without any creative effort.

FIG. 1 is a flowchart of a method for monitoring a multi-load charging device according to a first embodiment of the present invention.

FIG. 2 is a flow chart of determining the working state of the charging device in the monitoring method for a multi-load charging device provided by the first embodiment of the present invention.

FIG. 3 is another flowchart of a method for monitoring a multi-load charging device provided by the first embodiment of the present invention.

FIG. 4 is a schematic diagram of a multi-load device monitoring system provided by a second embodiment of the present invention.

Description of drawings:

100. Multi-load equipment monitoring system;

1. Charging equipment; 2. Cloud control center; 3. Secondary control terminal.

【Detailed ways】

In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below with reference to the accompanying drawings and implementation examples. It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.

As used herein, the terms "vertical", "horizontal", "left", "right", "top", "bottom", "top left", "top right", "bottom left", "bottom right" and the like The expressions are for illustrative purposes only.

Referring to FIG. 1 , the first embodiment of the present invention provides a method for monitoring multi-load charging equipment. The cloud control center and the secondary control terminal perform real-time hierarchical monitoring on the charging equipment, including the following steps:

Step S1: monitor all charging devices in the preset area in real time through the cloud control center, and obtain relevant information of all charging devices in real time;

Step S2: grant the monitoring right of at least part of the charging equipment to the secondary control terminal through the cloud control center, and the secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring right;

Step S3: The cloud control center determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device acquired in real time, and when the working state of the charging device is abnormal, it sends a first warning instruction to the secondary control terminal.

It can be understood that the present invention uses the cloud control center and the secondary control terminal to perform hierarchical control on the charging equipment, with a large monitoring range and high accuracy; the cloud control center is used to grant or reclaim the control right to the secondary control terminal, which is conducive to improving the performance of charging equipment. The security of the monitoring method for multi-load charging equipment is determined by the cloud control center, and then the first warning command is sent to the secondary control terminal for early warning, so that the secondary control terminal can perform specific processing, which is beneficial to improve the monitoring efficiency of the equipment. .

Specifically, in this embodiment, the charging device is a charging device used for field work or rescue, and the charging device is provided with a plurality of built-in charging positions and/or charging interfaces for charging the lighting device.

Further, the relevant information includes location information of the charging device, power supply conditions of the charging device, temperature and load conditions of the charging device, and operating states of each module inside the charging device.

It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as power supply, temperature, load and operating status, which can assist the cloud control center to issue more targeted first warning instructions according to the actual situation, and effectively improve the follow-up Processing efficiency; at the same time, the location information of the equipment is also obtained, which is convenient for quickly dispatching maintenance personnel and emergency equipment to the designated area.

Specifically, in this embodiment, the charging device performs positioning through the built-in GPS module, obtains the remaining relevant information through monitoring components such as temperature and power, and sends the relevant information to the cloud control center through the communication module.

Further, grant the monitoring right of all charging devices in the preset area to the secondary control terminal through the cloud control center; and/or, number the charging devices, and grant the corresponding number of charging devices to the secondary control terminal through the cloud control center monitoring rights.

It is understandable that the advantage of granting monitoring devices based on the preset area to facilitate rapid batch authorization is high efficiency; the advantage of granting authorization based on the corresponding number is that it can achieve more accurate authorization and high flexibility; at the same time , or a combination of the two methods can be used to improve the operability when granting monitoring rights.

Specifically, in this embodiment, the preset area is divided with reference to the administrative area of each country. Taking China as an example, the preset area is divided into four levels: province, city, county, and township. Understandably, when necessary, it can also be specific to the street.

Further, the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control terminal in real time; and/or, the cloud control center grants the monitoring right for a preset period to the secondary control terminal, and automatically recovers the corresponding monitoring right after expiration. right.

It can be understood that the flexibility of granting or reclaiming monitoring rights in real time through the cloud control center is higher; and by setting a preset time limit for monitoring rights, the automation degree of the monitoring method for multi-load charging equipment can be improved.

It should be noted that the monitoring right granted in real time will continue to take effect as long as it is not recovered through the cloud control center.

Specifically, in this embodiment, the monitoring right is mainly granted in real time; when special circumstances require additional charging equipment to be temporarily dispatched for support, the temporary monitoring right can also be granted by granting a monitoring right with a preset time limit. monitoring rights.

Further, the cloud control center sends a second warning command to the corresponding charging device while sending the first warning command to the secondary control terminal. The first warning command and the second warning command may be the same or different.

It is understandable that there may be staff next to the charging equipment. Therefore, after finding that the charging equipment is abnormal, it sends the first warning command to the secondary control terminal and sends the second warning command to the charging equipment at the same time, which is beneficial to improve the response rate. , if there is a staff next to the charging device, you can respond quickly; and because the secondary control terminal and the charging device are two different devices, sending an early warning to the secondary control terminal is to notify the secondary notification segment. The owner, the second warning is sent to the charging device to notify the staff near the device. There is a difference between the two, so it is very reasonable that the first warning command and the second warning command can use the same or different commands.

Specifically, in this embodiment, the first warning instruction is used to alert the user of the secondary control terminal that there is an abnormality in the charging equipment, and the user can obtain the real-time monitoring situation of the corresponding charging equipment through the secondary control terminal.

Further, determining whether the working state of the charging device is normal includes the following steps:

Step S31: determine whether the operating temperature of the charging device is normal;

Step S32: Determine whether the power supply state of the charging device is normal.

It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as temperature and operating status, which can assist the cloud control center to issue more targeted first warning commands and/or second warning commands according to the actual situation, effectively improving the Efficiency of follow-up maintenance, etc.

It should be noted that, in this embodiment, the sequence of each step is not strictly limited. For example, step S31 and step S32 may be performed simultaneously, or step S31 or step S32 may be performed first.

It can be understood that, in other embodiments, only step S31 or step S32 may be performed.

Further, when it is determined that the operating temperature of the charging device is abnormal and/or the power supply state of the device is abnormal, a first warning instruction is sent to the secondary control terminal.

Further, the first warning instruction includes a text instruction and/or a lighting instruction and/or a sound instruction.

It can be understood that the representation form of the first warning instruction is various, which is beneficial to enrich the diversity of monitoring methods for the multi-load charging equipment.

Further, the second warning instruction includes a light instruction and/or a sound instruction.

Further, the monitoring method for multi-load charging equipment further includes the following steps:

When judging whether the working state of the charging device is normal, the working state of the charging device is divided into normal, mildly abnormal or severely abnormal, and when it is determined that the working state is severely abnormal, at least part of the functions of the charging device are remotely turned off.

It is understandable that if the charging equipment is only slightly abnormal, it is unnecessary to perform functional operations, which will easily affect the working efficiency of the equipment; Abnormalities make more accurate feedback operations, while ensuring timely response and ensuring the working efficiency of charging equipment.

Further, when the temperature of the device is greater than the first threshold and less than the second threshold, it is determined that the charging device is slightly abnormal; when the temperature of the device is greater than the second threshold, it is determined that the charging device is severely abnormal.

Further, when the number of abnormal built-in charging positions and/or charging ports on the charging device is greater than the third threshold and less than the fourth threshold, it is determined that the charging device is slightly abnormal; when the abnormally charged built-in charging positions and/or charging ports on the charging device are Or when the number of charging ports is greater than the four thresholds, it is determined that the charging device is severely abnormal.

Further, the monitoring method for multi-load charging equipment further includes the following steps:

Step S4: If the received first warning instruction indicates that the working state of the charging equipment is slightly abnormal, then deploy maintenance personnel to the area where the corresponding charging equipment is located; when it is determined that the working state is severely abnormal, while deploying maintenance personnel, Deploy the charging device to the location of the corresponding charging device.

It is understandable that the application equipment of this multi-load charging equipment monitoring method is usually used for field operations or rescue operations. Human resources are very tight, and it is not always possible to spare time to repair the equipment. Therefore, it can be avoided by deploying maintenance personnel. Affect the progress of field operations or rescue; when the working state of the equipment is severely abnormal, the maintenance personnel may not be able to quickly complete the maintenance of the equipment, and the deployment of charging equipment to the location of the corresponding charging equipment as an emergency can effectively avoid The progress of field operations or rescue is affected due to the slow maintenance.

It should be noted that, in this case, the corresponding number of charging devices allocated is usually granted to the secondary control terminal with the monitoring right for a preset period.

Referring to FIG. 4 , the second embodiment of the present invention further provides a multi-load device monitoring system 100 for implementing the above multi-load charging device monitoring method. The multi-load device monitoring system 100 includes a cloud control center 2 and a secondary control terminal 3 is used to monitor the use status of multiple charging devices 1; the cloud control center 2 is used to grant the secondary control terminal 3 the right to monitor at least some of the charging devices 1, and obtain relevant information of all charging devices 1 in real time and transmit the relevant information To the secondary control terminal 3 that is granted the monitoring right corresponding to the charging device 1; the secondary control terminal 3 obtains the relevant information of the corresponding charging device in real time through the cloud control center 2 based on the granted monitoring right; the cloud control center 2 also obtains the relevant information in real time according to the The relevant information of the charging device 1 determines whether the working state of the corresponding charging device 1 is normal, and when the working state of the charging device 1 is abnormal, a first warning instruction is sent to the secondary control terminal 3 . It can be understood that the multi-load device monitoring system has the same beneficial effects as the above-mentioned multi-load charging device monitoring method.

Specifically, in this embodiment, the charging device 1 is used to charge lighting devices such as flashlights and solar light panels. The charging device 1 may also include various charging ports for charging devices such as mobile phones.

Further, the secondary control terminal 3 is a mobile terminal. Specifically, in this embodiment, the secondary control terminal 3 is a mobile phone with a corresponding APP installed.

Further, the third embodiment of the present invention also provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program, and when the computer program is executed by the processor, the processor implements the above-mentioned multi-load charging device monitoring method. . It can be understood that the computer-readable storage medium has the same beneficial effects as the above-mentioned monitoring method for a multi-load charging device.

Compared with the prior art, the multi-load charging device monitoring method of the present invention has the following advantages:

1. The multi-load charging equipment monitoring method of the present invention performs real-time hierarchical monitoring on charging equipment through the cloud control center and the secondary control terminal, including the following steps: monitoring all charging equipment in a preset area in real time through the cloud control center, and obtaining all the charging equipment in real time. Relevant information of charging equipment; the secondary control terminal is granted the monitoring right of at least part of the charging equipment through the cloud control center, and the secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring rights; the cloud control center Whether the working state of the corresponding charging device is normal is determined according to the relevant information of the charging device acquired in real time, and when the working state of the charging device is abnormal, a first warning instruction is sent to the secondary control terminal. It can be understood that the present invention uses the cloud control center and the secondary control terminal to perform hierarchical control on the charging equipment, with a large monitoring range and high accuracy; the cloud control center is used to grant or reclaim the control right to the secondary control terminal, which is conducive to improving the performance of charging equipment. The security of the monitoring method for multi-load charging equipment is determined by the cloud control center, and then the first warning command is sent to the secondary control terminal for early warning, so that the secondary control terminal can perform specific processing, which is beneficial to improve the monitoring efficiency of the equipment. .

2. The relevant information of the present invention includes the location information of the charging device, the power supply situation of the charging device, the temperature and load status of the charging device, and the operating status of each module inside the charging device. It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as power supply, temperature, load and operating status, which can assist the cloud control center to issue more targeted first warning instructions according to the actual situation, and effectively improve the follow-up Processing efficiency; at the same time, the location information of the equipment is also obtained, which is convenient for quickly dispatching maintenance personnel and emergency equipment to the designated area.

3. In the present invention, the monitoring right of all charging devices in the preset area can be granted to the secondary control terminal through the cloud control center; it is also possible to number the charging devices first, and then grant the monitoring rights to the secondary control terminal through the cloud control center. The monitoring right of the charging device with the corresponding number. It is understandable that the advantage of granting monitoring devices based on the preset area to facilitate rapid batch authorization is high efficiency; the advantage of granting authorization based on the corresponding number is that it can achieve more accurate authorization and high flexibility; at the same time , or a combination of the two methods can be used to improve the operability when granting monitoring rights.

4. In the present invention, the cloud control center grants or reclaims the monitoring right of the charging equipment to the secondary control terminal in real time; and/or, the cloud control center grants the secondary control terminal the monitoring right for a preset period, which is automatically recovered after expiration corresponding monitoring rights. It can be understood that the flexibility of granting or reclaiming monitoring rights in real time through the cloud control center is higher; and by setting a preset time limit for monitoring rights, the automation degree of the monitoring method for multi-load charging equipment can be improved.

5. In the present invention, the cloud control center sends a second early warning instruction to the corresponding charging device while sending the first early warning instruction to the secondary control terminal. The first early warning instruction and the second early warning instruction may be the same or different. It is understandable that there may be staff next to the charging equipment. Therefore, after finding that the charging equipment is abnormal, it sends the first warning command to the secondary control terminal and sends the second warning command to the charging equipment at the same time, which is beneficial to improve the response rate. , if there is a staff next to the charging device, you can respond quickly; and because the secondary control terminal and the charging device are two different devices, sending an early warning to the secondary control terminal is to control the secondary notification segment. Owner, the purpose of sending an early warning to the charging device is to control the staff near the device. There is a difference between the two, so it is very reasonable that the first warning command and the second warning command can use the same or different commands.

6. In the present invention, determining whether the working state of the charging device is normal includes the following steps: determining whether the operating temperature of the charging device is normal; and/or determining whether the power supply state of the charging device is normal. It can be understood that there are various reasons for the abnormality of the equipment. If you only know that the equipment is faulty, it is impossible to determine which module of the equipment is abnormal, which will cause maintenance personnel to spend a lot of time on maintenance; The monitoring method of load charging equipment monitors the charging equipment through multiple dimensions such as temperature and operating status, which can assist the cloud control center to issue more targeted first warning commands and/or second warning commands according to the actual situation, effectively improving the Efficiency of follow-up maintenance, etc.

7. The multi-load charging device monitoring method of the present invention further includes the following steps: when determining whether the working state of the charging device is normal, classifying the working state of the charging device as normal, mildly abnormal or severely abnormal, and when determining that the working state is severe When abnormal, remotely turn off at least part of the functions of the charging device. It is understandable that if the charging equipment is only slightly abnormal, it is unnecessary to perform functional operations, which will easily affect the working efficiency of the equipment; Abnormalities make more accurate feedback operations, while ensuring timely response and ensuring the working efficiency of charging equipment.

8. The monitoring method for multi-load charging equipment of the present invention further includes the following steps: if the received first warning instruction indicates that the working state of the charging equipment is slightly abnormal, deploying maintenance personnel to the area where the corresponding charging equipment is located; If the first warning instruction of the charging equipment indicates that the working state of the charging equipment is severely abnormal, the charging equipment will be allocated to the location of the corresponding charging equipment while dispatching maintenance personnel. It is understandable that the application equipment of this multi-load charging equipment monitoring method is usually used for field operations or rescue operations. Human resources are very tight, and it is not always possible to spare time to repair the equipment. Therefore, it can be avoided by deploying maintenance personnel. Affect the progress of field operations or rescue; and when the working state of the equipment is severely abnormal, the maintenance personnel may not be able to quickly complete the maintenance of the equipment, but deploying the charging equipment to the location of the corresponding charging equipment as an emergency can effectively Avoid affecting the progress of field operations or rescue due to slow maintenance.

9. The present invention also provides a multi-load device monitoring system for implementing the above-mentioned multi-load charging device monitoring method. The multi-load device monitoring system includes a cloud control center and a secondary control terminal for monitoring multiple charging devices. The use status of the device; the cloud control center is used to grant the monitoring right of at least some charging devices to the secondary control terminal, and obtain the relevant information of all the charging devices in real time and transmit the relevant information to the secondary control terminal that has been granted the monitoring right of the corresponding charging device. The secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring rights; the cloud control center also determines whether the working state of the corresponding charging equipment is based on the relevant information of the charging equipment acquired in real time. is normal, and when the working state of the charging device is abnormal, a first warning command is sent to the secondary control terminal. It can be understood that the multi-load device monitoring system has the same beneficial effects as the above-mentioned multi-load charging device monitoring method.

10. The present invention also provides a computer-readable storage medium, the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the processor enables the processor to monitor the multi-load charging device as described above. method. It can be understood that the computer-readable storage medium has the same beneficial effects as the above-mentioned monitoring method for a multi-load charging device.

A method for monitoring a multi-load charging device disclosed in the embodiments of the present invention has been described above in detail, and the principles and implementations of the present invention are described with specific examples. The descriptions of the above embodiments are only used to help understand the present invention. At the same time, for those skilled in the art, according to the idea of the present invention, there will be changes in the specific implementation and application scope. In summary, the content of this specification should not be construed as With regard to the limitation of the present invention, any modifications, equivalent replacements and improvements made within the principles of the present invention shall be included within the protection scope of the present invention.

Claims (10)

1. a multi-load charging equipment monitoring method, is characterized in that, by cloud control center and secondary control terminal to carry out real-time hierarchical monitoring to charging equipment, comprises the following steps: Monitor all charging devices in the preset area in real time through the cloud control center, and obtain relevant information of all charging devices in real time; The secondary control terminal is granted the monitoring right of at least part of the charging equipment through the cloud control center, and the secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring right; The cloud control center determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device acquired in real time. When the working state of the charging device is abnormal, it sends a first warning command to the secondary control terminal. 2 . The method for monitoring multi-load charging equipment according to claim 1 , wherein the relevant information includes location information of the charging equipment, power supply status of the charging equipment, temperature and load conditions of the charging equipment, and various modules inside the charging equipment. 3 . operating status. 3. The multi-load charging device monitoring method according to claim 1, wherein: the secondary control terminal is granted the monitoring right of all charging devices in the preset area through the cloud control center; and/or, the charging devices are numbered , to grant the monitoring right of the corresponding number of charging equipment to the secondary control terminal through the cloud control center. 4. The multi-load charging equipment monitoring method according to claim 1, wherein: the cloud control center grants or reclaims the monitoring right of the charging equipment to the secondary control terminal in real time; and/or, the cloud control center sends the secondary control terminal The monitoring rights are granted for a preset period, and the corresponding monitoring rights are automatically revoked after expiration. 5 . The monitoring method for multi-load charging equipment according to claim 1 , wherein the cloud control center sends a second early warning instruction to the corresponding charging equipment while sending the first early warning instruction to the secondary control terminal. 5 . The instruction and the second warning instruction may be the same or different. 6. The method for monitoring multi-load charging equipment according to claim 1, wherein said determining whether the working state of the charging equipment is normal comprises the following steps: Determine whether the operating temperature of the charging device is normal; And/or, determine whether the power supply state of the charging device is normal. 7. The multi-load charging device monitoring method as claimed in claim 1, wherein: When judging whether the working state of the charging device is normal, the working state of the charging device is divided into normal, mildly abnormal or severely abnormal, and when it is determined that the working state is severely abnormal, at least part of the functions of the charging device are remotely turned off. 8. The multi-load charging device monitoring method according to claim 1, further comprising the steps of: If the received first warning instruction indicates that the working state of the charging equipment is slightly abnormal, deploy maintenance personnel to the area where the corresponding charging equipment is located; If the received first warning instruction indicates that the working state of the charging equipment is severely abnormal, the charging equipment is allocated to the location of the corresponding charging equipment while the maintenance personnel are deployed. 9. A multi-load device monitoring system, used for executing the multi-load charging device monitoring method according to any one of claims 1 to 8, wherein the multi-load device monitoring system comprises a cloud control center and a secondary The control terminal is used to monitor the use status of multiple charging devices; The cloud control center is used to grant the monitoring right of at least part of the charging equipment to the secondary control terminal, obtain relevant information of all the charging equipment in real time, and transmit the relevant information to the secondary control terminal granted the monitoring right of the corresponding charging equipment; The secondary control terminal obtains the relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring right; The cloud control center also determines whether the working state of the corresponding charging device is normal according to the relevant information of the charging device acquired in real time, and sends a first warning instruction to the secondary control terminal when the working state of the charging device is abnormal. 10. A computer-readable storage medium, characterized in that: the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the processor implements any one of claims 1-8. The multi-load charging equipment monitoring method.

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