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, a multi-load charging equipment monitoring system and a storage medium, wherein the multi-load charging equipment monitoring method carries out real-time grading monitoring on charging equipment through a cloud control center and a secondary control end, monitors all charging equipment in a preset area in real time through the cloud control center, and acquires relevant information of all charging equipment in real time; the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains 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 judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to the secondary control end. The multi-load charging equipment monitoring method has the advantages of large monitoring range, high accuracy and quick response.

Description

Multi-load charging equipment monitoring method and system and storage medium

[ technical field ] A method for producing a semiconductor device

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

[ background ] A method for producing a semiconductor device

When field operation or rescue is carried out, a light source or a solar panel, an intelligent terminal and the like are generally required to be used for auxiliary rescue equipment, and the duration of the field operation or the rescue is generally difficult to determine, so that the cruising problem of related rescue equipment is solved in order to ensure the smooth propulsion of the field operation or the rescue. There are thus emerging composite charging devices that can simultaneously charge multiple loads.

However, when the rescue apparatus is used in the field for operation or rescue, the environment is usually relatively severe, which causes the auxiliary rescue apparatus and the charging apparatus thereof to be prone to failure, especially it is not practical to monitor the operation of the charging apparatus at any moment during the field operation, but if the damage condition of the apparatus cannot be known in time for processing in time, the operation or the search and rescue progress will be inevitably affected badly.

[ summary of the invention ]

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

The technical scheme for solving the technical problem is to provide a multi-load charging equipment monitoring method, which is used for carrying out real-time grading monitoring on charging equipment through a cloud control center and a secondary control end and comprises the following steps:

monitoring all charging equipment in a preset area in real time through a cloud control center, and acquiring related information of all the charging equipment in real time;

the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains 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 judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to a secondary control end.

Preferably, the related information includes location information of the charging device, power supply condition of the charging device, temperature of the charging device, load condition, and operation state of each module inside the charging device.

Preferably, the monitoring right of all the charging devices in the preset area is granted to the secondary control end through the cloud control center; and/or numbering the charging equipment, and granting the monitoring right of the charging equipment with the corresponding number to the secondary control end through the cloud control center.

Preferably, the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control end in real time; and/or the cloud control center grants a monitoring right with a preset time limit to the secondary control end, and the corresponding monitoring right is automatically recovered after the monitoring right is expired.

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 end, and the first early warning instruction and the second early warning instruction may be the same or different.

Preferably, the determining whether the operating state of the charging device is normal includes:

judging whether the operating temperature of the charging equipment is normal or not;

and/or judging whether the power supply state of the charging equipment is normal or not.

Preferably, the multi-load charging device monitoring method further includes the steps of:

when the working state of the charging equipment is judged to be normal or not, the working state of the charging equipment is divided into normal, light abnormity or severe abnormity, and when the working state is judged to be severe abnormity, at least one part of functions of the charging equipment is remotely closed.

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

and if the received first early warning instruction indicates that the working state of the charging equipment is seriously abnormal, allocating the charging equipment to the location of the corresponding charging equipment while allocating the maintainers.

In order to solve the above problems, the present invention further provides a multi-load charging device monitoring system, which includes a cloud control center and a secondary control end, which are connected by signals, for monitoring the usage status of a plurality of charging devices;

the cloud control center is used for granting the monitoring right of at least part of the charging equipment to the secondary control end, acquiring related information of all the charging equipment in real time and transmitting the related information to the secondary control end granted with the monitoring right of the corresponding charging equipment;

the secondary control end acquires 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 judges whether the working state of the corresponding charging equipment is normal according to the related information of the charging equipment acquired in real time, and sends a first early warning instruction to the secondary control end when the working state of the charging equipment is abnormal.

To solve the above problem, the present invention further provides a computer-readable storage medium storing a computer program, which, when executed by a processor, causes the processor to implement the multi-load charging device monitoring method as described above.

Compared with the prior art, the multi-load charging equipment monitoring method has the following advantages:

1. the multi-load charging equipment monitoring method carries out real-time grading monitoring on the charging equipment through the cloud control center and the secondary control end, and comprises the following steps: monitoring all charging equipment in a preset area in real time through a cloud control center, and acquiring relevant information of all the charging equipment in real time; the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains 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 judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to the secondary control end. As can be understood, the charging equipment is controlled in a grading manner through the cloud control center and the secondary control end, the monitoring range is large, and the accuracy is high; the control right is granted or recovered to the secondary control end through the cloud control center, so that the safety of the multi-load charging equipment monitoring method is improved; and judge through high in the clouds control center, send first early warning instruction to secondary control end again and carry out the early warning, let secondary control end carry out concrete processing, do benefit to the monitoring efficiency who improves equipment.

2. The related information of the invention comprises the position information of the charging equipment, the power supply condition of the charging equipment, the temperature and the load condition of the charging equipment and the running state of each module in the charging equipment. It can be understood that the reasons for the abnormality of the equipment are various, and if only the fault of the equipment is known, it cannot be determined that one module of the equipment is abnormal, which may cause a great deal of time to be spent by maintenance personnel for maintenance; the multi-load charging equipment monitoring method monitors the charging equipment through multiple dimensions such as power supply conditions, temperature, load and running state, and can assist the cloud control center to send out a more targeted first early warning instruction according to actual conditions, so that subsequent processing efficiency is effectively improved; and meanwhile, the position information of the equipment is also acquired, so that the maintenance personnel and emergency equipment can be conveniently and quickly dispatched to the designated area.

3. In the invention, the monitoring right of all the charging equipment in the preset area can be granted to the secondary control end through the cloud control center; the charging equipment can also be numbered first, and then the monitoring right of the charging equipment with the corresponding number is granted to the secondary control end through the cloud control center. As can be appreciated, the advantage of facilitating rapid batch authorization of the authorized monitoring elements on the basis of the preset area is high efficiency; the authorization based on the corresponding number has the advantages that more accurate authorization can be realized, and the flexibility is high; meanwhile, the two modes can be combined for use, and operability in the process of granting the monitoring right is improved.

4. In the invention, the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control end in real time; and/or the cloud control center grants a monitoring right with a preset time limit to the secondary control end, and the corresponding monitoring right is automatically recovered after the monitoring right is expired. As can be understood, the flexibility of granting or recovering the monitoring right in real time through the cloud control center is higher; the automation degree of the monitoring method of the multi-load charging equipment can be improved by setting a preset time limit for the monitoring right.

5. In the invention, the cloud control center sends a first early warning instruction to the secondary control end and simultaneously sends a second early warning instruction to the corresponding charging equipment, and the first early warning instruction and the second early warning instruction can be the same or different. As can be understood, there may be a worker beside the charging device, so after the abnormality of the charging device is found, the first warning instruction is sent to the secondary control end, and at the same time, the second warning instruction is sent to the charging device, which is beneficial to improving the response rate, and if there is a worker beside the charging device, the response can be made quickly; the secondary control end and the charging device are two different devices, the sending of the early warning to the secondary control end is for controlling an owner of the secondary notification segment, the sending of the early warning to the charging device is for controlling workers near the device, and the two devices are different, so that the first early warning instruction and the second early warning instruction can adopt the same or different instructions.

6. In the invention, the step of judging whether the working state of the charging equipment is normal or not comprises the following steps: judging whether the operating temperature of the charging equipment is normal or not; and/or judging whether the power supply state of the charging equipment is normal or not. It can be understood that the reasons for the abnormality of the equipment are various, and if only the fault of the equipment is known, it cannot be determined that one module of the equipment is abnormal, which may cause a great deal of time to be spent by maintenance personnel for maintenance; the multi-load charging equipment monitoring method provided by the invention can monitor the charging equipment through multiple dimensions such as temperature and running state, can assist the cloud control center to send out a more targeted first early warning instruction and/or second early warning instruction according to actual conditions, and effectively improves the efficiency of subsequent maintenance and other work.

7. The multi-load charging equipment monitoring method further comprises the following steps: when the working state of the charging equipment is judged to be normal or not, the working state of the charging equipment is divided into normal, light abnormity or severe abnormity, and when the working state is judged to be severe abnormity, at least one part of functions of the charging equipment is remotely closed. It can be understood that if the charging device is only slightly abnormal, the operation to be performed is unnecessary, and the working efficiency of the device is easily affected; therefore, the working state of the charging equipment is graded, so that more accurate feedback operation can be conveniently carried out aiming at the abnormity of different grades, and the working efficiency of the charging equipment is ensured while corresponding reaction can be timely carried out.

8. The multi-load charging equipment monitoring method further comprises the following steps: if the received first early warning instruction indicates that the working state of the charging equipment is slightly abnormal, allocating maintainers to the area where the corresponding charging equipment is located; and if the received first early warning instruction indicates that the working state of the charging equipment is seriously abnormal, allocating the charging equipment to the location of the corresponding charging equipment while allocating the maintainers. It can be understood that the application device of the multi-load charging device monitoring method is usually used for field operation or rescue, the human resources are very nervous, and the device cannot be taken out to be emptied to overhaul, so that the overhaul personnel can avoid influencing the progress of field operation or rescue; when the working state of the equipment is seriously abnormal, the maintainers cannot finish the overhaul of the equipment quickly, and the charging equipment is allocated to the place where the corresponding charging equipment is located to serve as an emergency, so that the influence on the progress of field operation or rescue caused by too slow overhaul can be effectively avoided.

9. The invention also provides a multi-load equipment monitoring system which is used for executing the multi-load charging equipment monitoring method, and the multi-load equipment monitoring system comprises a cloud control center and a secondary control end which are used for monitoring the use states of a plurality of charging equipment; the cloud control center is used for granting the monitoring right of at least part of the charging equipment to the secondary control end, acquiring related information of all the charging equipment in real time and transmitting the related information to the secondary control end granted with the monitoring right of the corresponding charging equipment; the secondary control end acquires 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 judges whether the working state of the corresponding charging equipment is normal according to the related information of the charging equipment acquired in real time, and sends a first early warning instruction to the secondary control end when the working state of the charging equipment is abnormal. It can be understood that the multi-load device monitoring system has the beneficial effects consistent with the multi-load charging device monitoring method.

10. The present invention also provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the multi-load charging device monitoring method as described above. It can be appreciated that the present computer-readable storage medium has the advantageous effects consistent with the above-described multi-load charging device monitoring method.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

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

Fig. 2 is a flowchart of a method for monitoring a multi-load charging device according to a first embodiment of the present invention to determine an operating state of the charging device.

Fig. 3 is another flowchart of a monitoring method for a multi-load charging device according to a first embodiment of the present invention.

Fig. 4 is a schematic diagram of a multiple load device monitoring system according to a second embodiment of the present invention.

The attached drawings indicate the following:

100. a multi-load device monitoring system;

1. a charging device; 2. a cloud control center; 3. and a secondary control end.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The terms "vertical," "horizontal," "left," "right," "up," "down," "left up," "right up," "left down," "right down," and the like as used herein are for illustrative purposes only.

Referring to fig. 1, a first embodiment of the present invention provides a method for monitoring a multi-load charging device, where the charging device is monitored in real time in a hierarchical manner through a cloud control center and a secondary control end, and the method includes the following steps:

step S1: monitoring all charging equipment in a preset area in real time through a cloud control center, and acquiring related information of all the charging equipment in real time;

step S2: the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains relevant information of the corresponding charging equipment in real time through the cloud control center based on the granted monitoring rights;

step S3: the cloud control center judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to the secondary control end.

As can be understood, the charging equipment is controlled in a grading manner through the cloud control center and the secondary control end, the monitoring range is large, and the accuracy is high; control right is granted or recovered to the secondary control end through the cloud control center, so that the safety of the multi-load charging equipment monitoring method is improved; and judge through high in the clouds control center, send first early warning instruction to secondary control end again and carry out the early warning, let secondary control end carry out concrete processing, do benefit to the monitoring efficiency who improves equipment.

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

Further, the related information includes location information of the charging device, a power supply condition of the charging device, a temperature of the charging device, a load condition, and an operation state of each module inside the charging device.

It can be understood that the reasons for the abnormality of the equipment are various, and if only the fault of the equipment is known, it cannot be determined that one module of the equipment is abnormal, which may cause a great deal of time to be spent by maintenance personnel for maintenance; the multi-load charging equipment monitoring method monitors the charging equipment through multiple dimensions such as power supply conditions, temperature, load and running state, and can assist the cloud control center to send out a more targeted first early warning instruction according to actual conditions, so that subsequent processing efficiency is effectively improved; and meanwhile, the position information of the equipment is also acquired, so that the maintainers and the emergency equipment can be conveniently and quickly dispatched to the designated area.

Specifically, in this embodiment, the charging device is located through a built-in GPS module, acquires other relevant information through monitoring components such as temperature and electric quantity, and sends the relevant information to the cloud control center through the communication module.

Further, the monitoring right of all charging devices in the preset area is granted to the secondary control end through the cloud control center; and/or numbering the charging equipment, and granting the monitoring right of the charging equipment with the corresponding number to the secondary control end through the cloud control center.

As can be appreciated, the advantage of facilitating rapid batch authorization of the authorized monitoring elements on the basis of the preset area is high efficiency; the authorization based on the corresponding number has the advantages that more accurate authorization can be realized, and the flexibility is high; meanwhile, the two modes can be combined for use, and operability in the process of granting the monitoring right is improved.

Specifically, in the present embodiment, the preset area is divided with reference to administrative areas of each country. Taking China as an example, the preset area is divided into four grades of province, city, county and county. It will be appreciated that the street may also be specified, if desired.

Further, the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control end in real time; and/or the cloud control center grants a monitoring right with a preset time limit to the secondary control end, and the corresponding monitoring right is automatically recovered after the monitoring right is expired.

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

It should be noted that the monitoring right granted in real time is continuously effective as long as the monitoring right is not recovered by the cloud control center.

Specifically, in this embodiment, the real-time granting of the monitoring right is taken as the main point; when special conditions are met and additional charging equipment needs to be temporarily scheduled for support, temporary monitoring right can be granted in a mode of granting monitoring right with a preset time limit.

Further, the cloud control center sends a first early warning instruction to the secondary control end and sends a second early warning instruction to the corresponding charging device, and the first early warning instruction and the second early warning instruction can be the same or different.

As can be understood, there may be a worker beside the charging device, so after the abnormality of the charging device is found, the first warning instruction is sent to the secondary control end, and at the same time, the second warning instruction is sent to the charging device, which is beneficial to improving the response rate, and if there is a worker beside the charging device, the response can be made quickly; since the secondary control end and the charging device are two different devices, the sending of the pre-warning to the secondary control end is used for notifying an owner of the secondary notification segment, and the sending of the pre-warning to the charging device is used for notifying workers near the device, which are different from each other, it is also reasonable that the first pre-warning instruction and the second pre-warning instruction can adopt the same or different instructions.

Specifically, in this embodiment, the first warning instruction is used to remind a user of the secondary control end that the charging device is abnormal, and the user can obtain a real-time monitoring condition of the corresponding charging device through the secondary control end under a specific condition.

Further, the determining whether the operating state of the charging device is normal includes:

step S31: judging whether the operating temperature of the charging equipment is normal or not;

step S32: and judging whether the power supply state of the charging equipment is normal or not.

It can be understood that the reasons for the abnormality of the equipment are various, and if only the fault of the equipment is known, it cannot be determined that one module of the equipment is abnormal, which may cause a great deal of time to be spent by maintenance personnel for maintenance; the multi-load charging equipment monitoring method provided by the invention can monitor the charging equipment through multiple dimensions such as temperature and running state, can assist the cloud control center to send out a more targeted first early warning instruction and/or second early warning instruction according to actual conditions, and effectively improves the efficiency of subsequent maintenance and other work.

It should be noted that, in this embodiment, the order of the steps 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 is understood that in other embodiments, only step S31 or step S32 may be performed.

Further, when the operating temperature of the charging equipment is judged to be abnormal and/or the power supply state of the equipment is judged to be abnormal, a first early warning instruction is sent to the secondary control end.

Further, the first early warning instruction comprises a text instruction and/or a light instruction and/or a sound instruction.

It can be understood that the first early warning instruction has various expression forms, and the diversity of the monitoring method of the multi-load charging device is enriched.

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

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

when the working state of the charging equipment is judged to be normal or not, the working state of the charging equipment is divided into normal, light abnormity or severe abnormity, and when the working state is judged to be severe abnormity, at least one part of functions of the charging equipment is remotely closed.

It can be understood that if the charging device is only slightly abnormal, the operation to be performed is unnecessary, and the working efficiency of the device is easily affected; therefore, the working state of the charging equipment is graded, so that more accurate feedback operation can be conveniently carried out aiming at the abnormity of different grades, and the working efficiency of the charging equipment is ensured while corresponding reaction can be timely carried out.

Further, when the temperature of the device is greater than a first threshold and less than a second threshold, the charging device is judged to be slightly abnormal; and when the temperature of the equipment is greater than a second threshold value, judging that the charging equipment is severely abnormal.

Further, when the internal charging potential of the charging equipment with abnormal charging and/or the number of the charging interfaces are larger than a third threshold and smaller than a fourth threshold, the charging equipment is judged to be slightly abnormal; and when the internal charging potential of the charging equipment with abnormal charging and/or the number of the charging interfaces are larger than four threshold values, judging that the charging equipment is severely abnormal.

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

step S4: if the received first early warning instruction indicates that the working state of the charging equipment is slightly abnormal, allocating maintainers to the area where the corresponding charging equipment is located; when the working state is judged to be seriously abnormal, the maintainers are allocated, and meanwhile, the charging equipment is allocated to the location corresponding to the charging equipment.

It can be understood that the application device of the multi-load charging device monitoring method is usually used for field operation or rescue, the human resources are very nervous, and the device cannot be taken out to be emptied to overhaul, so that the overhaul personnel can avoid influencing the progress of field operation or rescue; when the working state of the equipment is seriously abnormal, the maintainers cannot finish the overhaul of the equipment quickly, and the charging equipment is allocated to the place corresponding to the charging equipment for emergency, so that the influence on the progress of field operation or rescue caused by too slow overhaul can be effectively avoided.

It should be noted that the charging device with the corresponding number allocated in this case usually grants the monitoring right to the secondary control terminal for a preset period.

Referring to fig. 4, a multi-load device monitoring system 100 according to a second embodiment of the present invention is further provided for performing the above multi-load charging device monitoring method, where the multi-load device monitoring system 100 includes a cloud control center 2 and a secondary control end 3 for monitoring the use states of a plurality of charging devices 1; the cloud control center 2 is used for granting the monitoring right of at least part of the charging devices 1 to the secondary control end 3, acquiring related information of all the charging devices 1 in real time and transmitting the related information to the secondary control end 3 granted with the monitoring right of the corresponding charging device 1; the secondary control end 3 acquires relevant information of the corresponding charging equipment in real time through the cloud control center 2 based on the granted monitoring right; the cloud control center 2 also judges whether the working state of the corresponding charging device 1 is normal according to the related information of the charging device 1 acquired in real time, and sends a first early warning instruction to the secondary control end 3 when the working state of the charging device 1 is abnormal. It can be understood that the multi-load device monitoring system has the beneficial effects consistent with the multi-load charging device monitoring method.

Specifically, in this embodiment, the charging device 1 is used for charging a flashlight, a solar panel, and other lighting devices. The charging device 1 may further include a plurality of charging ports for charging devices such as a mobile phone.

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

Further, the third embodiment of the present invention also provides a computer-readable storage medium, in which a computer program is stored, and the computer program, when executed by a processor, causes the processor to implement the multi-load charging device monitoring method as described above. It will be appreciated that the present computer-readable storage medium has beneficial effects consistent with the multi-load charging device monitoring method described above.

Compared with the prior art, the multi-load charging equipment monitoring method has the following advantages:

1. the multi-load charging equipment monitoring method carries out real-time grading monitoring on the charging equipment through the cloud control center and the secondary control end, and comprises the following steps: monitoring all charging equipment in a preset area in real time through a cloud control center, and acquiring related information of all the charging equipment in real time; the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains 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 judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to a secondary control end. As can be understood, the charging equipment is controlled in a grading manner through the cloud control center and the secondary control end, the monitoring range is large, and the accuracy is high; control right is granted or recovered to the secondary control end through the cloud control center, so that the safety of the multi-load charging equipment monitoring method is improved; and judge through high in the clouds control center, send first early warning instruction to secondary control end again and carry out the early warning, let secondary control end carry out concrete processing, do benefit to the monitoring efficiency who improves equipment.

2. The related information of the invention comprises the position information of the charging equipment, the power supply condition of the charging equipment, the temperature and the load condition of the charging equipment and the running state of each module in the charging equipment. It can be understood that the reasons for the abnormality of the equipment are various, and if the fault of the equipment is only known, it cannot be determined that one module of the equipment is abnormal, which may cause that a great deal of time is needed for maintenance personnel to overhaul; the multi-load charging equipment monitoring method monitors the charging equipment through multiple dimensions such as power supply conditions, temperature, load and running states, can assist the cloud control center to send out a first early warning instruction with more pertinence according to actual conditions, and effectively improves subsequent processing efficiency; and meanwhile, the position information of the equipment is also acquired, so that the maintainers and the emergency equipment can be conveniently and quickly dispatched to the designated area.

3. In the invention, the monitoring right of all the charging equipment in the preset area can be granted to the secondary control end through the cloud control center; the charging equipment can also be numbered first, and then the monitoring right of the charging equipment with the corresponding number is granted to the secondary control end through the cloud control center. As can be appreciated, the advantage of facilitating rapid batch authorization of the authorized monitoring elements on the basis of the preset area is high efficiency; the authorization based on the corresponding number has the advantages that more accurate authorization can be realized, and the flexibility is high; meanwhile, the two modes can be combined for use, and operability in the process of granting the monitoring right is improved.

4. In the invention, the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control end in real time; and/or the cloud control center grants a monitoring right with a preset time limit to the secondary control end, and the corresponding monitoring right is automatically recovered after the monitoring right is expired. As can be understood, the flexibility of granting or recovering the monitoring right in real time through the cloud control center is higher; the automation degree of the monitoring method of the multi-load charging equipment can be improved by setting a preset time limit for the monitoring right.

5. In the invention, the cloud control center sends a first early warning instruction to the secondary control end and simultaneously sends a second early warning instruction to the corresponding charging equipment, and the first early warning instruction and the second early warning instruction can be the same or different. As can be understood, there may be a worker beside the charging device, so after the abnormality of the charging device is found, the first warning instruction is sent to the secondary control end, and at the same time, the second warning instruction is sent to the charging device, which is beneficial to improving the response rate, and if there is a worker beside the charging device, the response can be made quickly; the secondary control end and the charging device are two different devices, the sending of the early warning to the secondary control end is for controlling an owner of the secondary notification segment, the sending of the early warning to the charging device is for controlling workers near the device, and the two devices are different, so that the first early warning instruction and the second early warning instruction can adopt the same or different instructions.

6. In the invention, the step of judging whether the working state of the charging equipment is normal or not comprises the following steps: judging whether the operating temperature of the charging equipment is normal or not; and/or judging whether the power supply state of the charging equipment is normal or not. It can be understood that the reasons for the abnormality of the equipment are various, and if only the fault of the equipment is known, it cannot be determined that one module of the equipment is abnormal, which may cause a great deal of time to be spent by maintenance personnel for maintenance; the multi-load charging equipment monitoring method provided by the invention can monitor the charging equipment through multiple dimensions such as temperature and running state, can assist the cloud control center to send out a more targeted first early warning instruction and/or second early warning instruction according to actual conditions, and effectively improves the efficiency of subsequent maintenance and other work.

7. The multi-load charging equipment monitoring method further comprises the following steps: when the working state of the charging equipment is judged to be normal or not, the working state of the charging equipment is divided into normal, light abnormity or severe abnormity, and when the working state is judged to be severe abnormity, at least one part of functions of the charging equipment is remotely closed. It can be understood that if the charging device is only slightly abnormal, the operation of the function is unnecessary, and the working efficiency of the device is easily influenced; therefore, the working state of the charging equipment is graded, so that more accurate feedback operation can be conveniently carried out aiming at the abnormity of different grades, and the working efficiency of the charging equipment is ensured while corresponding reaction can be timely carried out.

8. The multi-load charging equipment monitoring method further comprises the following steps: if the received first early warning instruction indicates that the working state of the charging equipment is slightly abnormal, allocating maintainers to the area where the corresponding charging equipment is located; and if the received first early warning instruction indicates that the working state of the charging equipment is seriously abnormal, allocating the charging equipment to the location of the corresponding charging equipment while allocating the maintainers. It can be understood that the application device of the multi-load charging device monitoring method is usually used for field operation or rescue, the human resources are very nervous, and the device cannot be taken out to be emptied to overhaul, so that the overhaul personnel can avoid influencing the progress of field operation or rescue; when the working state of the equipment is seriously abnormal, the maintainers cannot finish the overhaul of the equipment quickly, and the charging equipment is allocated to the place where the corresponding charging equipment is located to serve as an emergency, so that the influence on the progress of field operation or rescue caused by too slow overhaul can be effectively avoided.

9. The invention also provides a multi-load equipment monitoring system which is used for executing the multi-load charging equipment monitoring method, and the multi-load equipment monitoring system comprises a cloud control center and a secondary control end which are used for monitoring the use states of a plurality of charging equipment; the cloud control center is used for granting the monitoring right of at least part of the charging equipment to the secondary control end, acquiring related information of all the charging equipment in real time and transmitting the related information to the secondary control end granted with the monitoring right of the corresponding charging equipment; the secondary control end acquires 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 judges whether the working state of the corresponding charging equipment is normal according to the related information of the charging equipment acquired in real time, and sends a first early warning instruction to the secondary control end when the working state of the charging equipment is abnormal. It can be understood that the present multi-load device monitoring system has the same beneficial effects as the above multi-load charging device monitoring method.

10. The present invention also provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the multi-load charging device monitoring method as described above. It will be appreciated that the present computer-readable storage medium has beneficial effects consistent with the multi-load charging device monitoring method described above.

The above detailed description is provided for the monitoring method of the multi-load charging device disclosed in the embodiment of the present invention, and a specific example is applied in the present disclosure to explain the principle and the implementation manner of the present invention, and the description of the above embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for the persons skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present description should not be construed as a limitation to the present invention, and any modification, equivalent replacement, and improvement made within the principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A multi-load charging equipment monitoring method is characterized in that real-time grading monitoring is carried out on charging equipment through a cloud control center and a secondary control end, and the method comprises the following steps:

monitoring all charging equipment in a preset area in real time through a cloud control center, and acquiring related information of all the charging equipment in real time;

the method comprises the steps that monitoring rights of at least part of charging equipment are granted to a secondary control end through a cloud control center, and the secondary control end obtains 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 judges whether the working state of the corresponding charging equipment is normal or not according to the related information of the charging equipment acquired in real time, and when the working state of the charging equipment is abnormal; and sending a first early warning instruction to the secondary control end.

2. The multi-load charging device monitoring method of claim 1, wherein: the related information comprises position information of the charging equipment, power supply condition of the charging equipment, temperature and load condition of the charging equipment and operation states of all modules in the charging equipment.

3. The multi-load charging device monitoring method of claim 1, wherein: the monitoring right of all the charging devices in the preset area is granted to the secondary control end through the cloud control center; and/or numbering the charging equipment, and granting the monitoring right of the charging equipment with the corresponding number to the secondary control end through the cloud control center.

4. The multi-load charging device monitoring method of claim 1, wherein: the cloud control center grants or recovers the monitoring right of the charging equipment to the secondary control end in real time; and/or the cloud control center grants a monitoring right with a preset time limit to the secondary control end, and the corresponding monitoring right is automatically recovered after the monitoring right is granted.

5. The multi-load charging device monitoring method of claim 1, wherein: the cloud control center sends a first early warning instruction to the secondary control end and sends a second early warning instruction to the corresponding charging device, and the first early warning instruction and the second early warning instruction can be the same or different.

6. The multi-load charging device monitoring method according to claim 1, wherein the determining whether the operating state of the charging device is normal comprises the steps of:

judging whether the operating temperature of the charging equipment is normal or not;

and/or judging whether the power supply state of the charging equipment is normal or not.

7. The multi-load charging device monitoring method of claim 1, wherein:

when the working state of the charging equipment is judged to be normal or not, the working state of the charging equipment is divided into normal, light abnormity or severe abnormity, and when the working state is judged to be severe abnormity, at least one part of functions of the charging equipment is remotely closed.

8. The multi-load charging device monitoring method of claim 1, further comprising the steps of:

if the received first early warning instruction indicates that the working state of the charging equipment is slightly abnormal, allocating maintainers to the area where the corresponding charging equipment is located;

and if the received first early warning instruction indicates that the working state of the charging equipment is seriously abnormal, allocating the charging equipment to the location of the corresponding charging equipment while allocating the maintainers.

9. A multi-load device monitoring system for performing the multi-load charging device monitoring method according to any one of claims 1 to 8, characterized in that: the multi-load equipment monitoring system comprises a cloud control center and a secondary control end, wherein the cloud control center and the secondary control end are used for monitoring the use states of a plurality of charging equipment;

the cloud control center is used for granting the monitoring right of at least part of the charging equipment to the secondary control end, acquiring related information of all the charging equipment in real time and transmitting the related information to the secondary control end granted with the monitoring right of the corresponding charging equipment;

the secondary control end acquires 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 judges whether the working state of the corresponding charging equipment is normal according to the related information of the charging equipment acquired in real time, and sends a first early warning instruction to the secondary control end when the working state of the charging equipment is abnormal.

10. A computer-readable storage medium characterized by: the computer-readable storage medium stores a computer program which, when executed by a processor, causes the processor to implement the multi-load charging device monitoring method according to any one of claims 1-8.

Images