CN114742382A - Intelligent protection system and method for power distribution room and storage medium - Google Patents

Abstract

The embodiment of the invention discloses an intelligent protection system, method and storage medium for a power distribution room. The method comprises the following steps: the system comprises an environmental data acquisition device, an on-site intelligent protection module and an on-site power distribution room management module, wherein the environmental data acquisition device is used for acquiring environmental data of a power distribution room, and if the environmental data reaches a preset early warning condition of the environmental data acquisition device, an early warning level corresponding to the preset early warning condition is sent to the on-site intelligent protection module; the on-site intelligent protection module is used for receiving the early warning level, generating corresponding early warning information based on the early warning level and sending the early warning information to the on-site power distribution room management module; the on-site power distribution room management module is used for receiving the early warning information, starting the monitoring equipment in communication connection with the on-site power distribution room management module based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, starting the target security equipment in communication connection with the on-site power distribution room management module based on the monitoring picture, and protecting the power distribution room in real time.

Description

Intelligent protection system and method for power distribution room and storage medium

Technical Field

The embodiment of the invention relates to the technical field of automation, in particular to an intelligent protection system, method and storage medium for a power distribution room.

Background

Electricity is closely related to our lives, and electricity is used everywhere in our lives, for example, multimedia computers, televisions, electric lamps and the like all use electricity. The power system controls one of the core devices throughout the corners of the various cities. However, since there are many devices in the power distribution room and the wiring of the devices is very complicated, the devices are very susceptible to the influence of the surrounding environment. Therefore, it is imperative to protect the power distribution room in order to ensure the reliability of power supply and distribution. At present, the protection mode of the power distribution room is usually that workers regularly patrol. This kind of mode not only the cost of labor is higher, but also has the relatively poor problem of the ageing nature of carrying out the protection to the distribution room.

Disclosure of Invention

In view of the foregoing problems, embodiments of the present invention provide a system, a method, and a storage medium for power distribution room intelligent protection, so as to implement protection on a power distribution room more quickly, effectively, and in real time, thereby reducing labor cost for power distribution room protection and improving effectiveness of power distribution room protection.

In a first aspect, an embodiment of the present invention provides a power distribution room intelligent protection system, where the system includes: the system comprises an environmental data acquisition device, an on-site intelligent protection module and an on-site power distribution room management module, wherein,

the environment data acquisition equipment is used for acquiring environment data of a power distribution room, and if the environment data reaches a preset early warning condition of the environment data acquisition equipment, sending an early warning level corresponding to the preset early warning condition to the on-site intelligent protection module;

the on-site intelligent protection module is used for receiving the early warning level, generating corresponding early warning information based on the early warning level and sending the early warning information to the on-site power distribution room management module;

the field power distribution room management module is used for receiving the early warning information, starting monitoring equipment in communication connection with the field power distribution room management module based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, and starting target security equipment in communication connection with the field power distribution room management module based on the monitoring picture.

In a second aspect, an embodiment of the present invention further provides a power distribution room intelligent protection method, where the method includes:

acquiring environmental data of a power distribution room through environmental data acquisition equipment, and if the environmental data reaches a preset early warning threshold value of the environmental data acquisition equipment, sending an early warning level corresponding to the preset early warning threshold value to an on-site intelligent protection module;

receiving the early warning level through the on-site intelligent protection module, generating corresponding early warning information based on the early warning level, and sending the early warning information to the on-site power distribution room management module;

the early warning information is received through the field power distribution room management module, monitoring equipment in communication connection with the field power distribution room management module is started based on the early warning information, a monitoring picture recorded by the started monitoring equipment is obtained, and target security equipment in communication connection with the field power distribution room management module is started based on the monitoring picture.

In a third aspect, the embodiments of the present invention further provide a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the intelligent protection method for a power distribution room, according to any embodiment of the present invention.

According to the technical scheme of the embodiment of the invention, a power distribution room intelligent protection system is formed by an environment data acquisition device, a field intelligent protection module and a field power distribution room management module, wherein the environment data acquisition device is used for acquiring environment data of a power distribution room, and if the environment data reaches a preset early warning condition of the environment data acquisition device, an early warning level corresponding to the preset early warning condition is sent to the field intelligent protection module; the on-site intelligent protection module is used for receiving the early warning level, generating corresponding early warning information based on the early warning level and sending the early warning information to the on-site power distribution room management module; the on-site power distribution room management module is used for receiving early warning information, the monitoring equipment which is in communication connection with the on-site power distribution room management module is started based on the early warning information, a monitoring picture recorded by the monitoring equipment after starting is obtained, the target security and protection equipment which is in communication connection with the on-site power distribution room management module is started based on the monitoring picture, the problems that the labor cost is higher and the timeliness of protection is poor in protection of a power distribution room at present are solved, the power distribution room is protected more quickly, effectively and in real time, and therefore the labor cost of power distribution room protection is reduced, and the effectiveness of the power distribution room protection is improved.

Drawings

In order to more clearly illustrate the technical solutions of the exemplary embodiments of the present invention, a brief description is given below of the drawings used in describing the embodiments. It should be clear that the described figures are only views of some of the embodiments of the invention to be described, not all, and that for a person skilled in the art, other figures can be derived from these figures without inventive effort.

Fig. 1 is a schematic structural diagram of an intelligent protection system for a power distribution room according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent protection system for a power distribution room according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of an intelligent protection method for a power distribution room according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures. In addition, the embodiments and features of the embodiments in the present invention may be combined with each other without conflict.

Example one

Fig. 1 is a schematic structural diagram of an intelligent protection system for a power distribution room according to an embodiment of the present invention, which is applicable to a scenario of protecting the power distribution room, especially a case of protecting the power distribution room with a voltage class of 10kv, and the system may be implemented in a hardware and/or software manner. The system specifically comprises the following structure:

the system comprises an environmental data acquisition device 11, a field intelligent protection module 12 and a field power distribution room management module 13, wherein the environmental data acquisition device 11 is used for acquiring environmental data of a power distribution room, and if the environmental data reaches preset early warning conditions of the environmental data acquisition device 11, early warning levels corresponding to the preset early warning conditions are sent to the field intelligent protection module 12.

The environmental data acquisition device 11 can be in communication connection with the field intelligent protection module 12, and the field intelligent protection module 12 can be in communication connection with the field power distribution room management module 13.

The environmental data collection device 11 may include at least one of a water level sensor, a temperature sensor, a smoke fire sensor, and a humidity sensor. The installation position of the environmental data collecting device 11 may be set according to the historical failure occurrence condition of the power distribution room and the surrounding environment of the power distribution room, which is not limited herein, for example, the installation position of the smoke fire sensor is the switch position of the incoming cabinet. The number of the installation environment data collection devices 11 in the power distribution room may be one, two, or more than two. In practical applications, the number of the environmental data collection devices 11 installed in the power distribution room is generally plural. The environment data comprises internal environment data and external environment data of the power distribution room

In the embodiment of the present invention, the power distribution room is provided with a plurality of pieces of environmental data acquisition equipment 11 of the same type, and the environmental data acquisition equipment 11 of the same type are configured with different preset early warning conditions, for example, the environmental data acquisition equipment 11 installed in the power distribution room may be a temperature sensor AA and a temperature sensor BB, where the preset early warning condition configured by the temperature sensor AA is higher than 50 ℃ and the preset early warning condition configured by the temperature sensor BB is higher than 60 ℃. Further, at least one spare environmental data collection device 11 may be installed at a position adjacent to an installation position where the environmental data collection device 11 is installed in the power distribution room, so as to avoid that environmental data cannot be collected due to a failure of the environmental data collection device 11. The preset early warning condition can be set according to historical fault conditions. The early warning level may be set according to a preset early warning condition. The correspondence between the warning level and the preset warning condition may be one-to-one or one-to-many.

Specifically, the environmental data of the power distribution room is collected in real time by the environmental data collecting device 11 installed in the power distribution room. The collected environmental data may be monitored according to preset early warning conditions of the environmental data collection device 11. If the environmental data reaches the preset early warning condition of the environmental data acquisition device 11, the early warning level corresponding to the preset early warning condition may be determined based on the corresponding relationship between the preset early warning condition and the early warning level, and the early warning level is sent to the on-site intelligent protection module 12.

And the field intelligent protection module 12 is used for receiving the early warning level, generating corresponding early warning information based on the early warning level, and sending the early warning information to the field power distribution room management module 13.

The field intelligent protection module 12 may be used to protect the power distribution room when a fault occurs in the power distribution room, so as to reduce the expansion of the power distribution room fault. The early warning information can prompt that the power distribution room has failed. The warning information may include a warning level.

Specifically, the early warning level is received by the field intelligent protection module 12. And then corresponding early warning information can be generated based on the early warning level. After the warning information is generated, the warning information may be sent to the field distribution room management module 13.

And the field power distribution room management module 13 is configured to receive the early warning information, start a monitoring device in communication connection with the field power distribution room management module 13 based on the early warning information, acquire a monitoring picture recorded by the started monitoring device, and start a target security device in communication connection with the field power distribution room management module 13 based on the monitoring picture.

The field distribution room management module 13 may be configured to start the monitoring device when a fault occurs in the distribution room, so as to obtain a monitoring picture in real time. The early warning information may include, but is not limited to, an identity of at least one monitoring device to be activated. The identity mark is the only mark of the monitoring equipment and is used for distinguishing different monitoring equipment. The monitoring device may be at least one of a camera and an image sensor. The number of monitoring devices installed in one power distribution room may be one, two, or more than two. The target security equipment can be preset security equipment matched with the current power distribution room. The identification of the security device can be used for distinguishing different security devices, and can include but not limited to the number, function, device position coordinates and the like of the security device. The security and protection equipment can comprise at least one of a water retaining gate, a drainage pump, an exhaust device and a fire fighting device.

Specifically, the early warning information is received through the field power distribution room management module 13. After the early warning information is received, the early warning information can be analyzed, and then the fact that the early warning information contains the identity of the monitoring equipment to be started can be determined. And then, the monitoring device corresponding to the identity label in communication connection with the field distribution room management module 13 can be started. The monitoring screen acquisition instruction may be generated after the monitoring device is started. And then the monitoring picture recorded by the monitoring equipment can be obtained based on the monitoring picture obtaining instruction. After the monitoring picture is obtained, the monitoring picture can be analyzed, and then an analysis result can be obtained. And starting the target security equipment in communication connection with the field power distribution room management module according to the analysis result.

Optionally, the field distribution room management module 13 further includes a display unit, configured to display the early warning information received by the field distribution room management module 13, and prompt a supervisor to report the early warning information in time.

Optionally, after the on-site power distribution room management module 13 acquires the monitoring picture, the monitoring picture may be sent to the database in the form of an image and/or a video, so that the database stores the monitoring picture, and a data basis may be provided for subsequent protection research on the power distribution room. The pre-established database may be at least one of a data warehouse, an unstructured database and a cloud database, and may be used to store the monitoring picture.

Optionally, the early warning information may include, but is not limited to, a target monitoring location. The target monitoring position can be understood as a position needing monitoring in the power distribution room. In the embodiment of the present invention, the target monitoring position may be a position where the environmental data collection apparatus 11 is installed in the power distribution room. The field distribution room management module 13 is specifically configured to analyze the early warning information to obtain a target monitoring position, determine a monitoring device corresponding to the target monitoring position, and start the monitoring device corresponding to the target monitoring position.

Specifically, the received early warning information is analyzed through the field power distribution room management module 13. And then the target monitoring position can be obtained. After the target monitoring position is obtained, the monitoring device corresponding to the target monitoring position can be determined based on the preset corresponding relationship between the monitoring position and the monitoring device, and then the monitoring device corresponding to the target monitoring position can be started. The corresponding relation between the monitoring position and the monitoring equipment is configured in advance, the monitoring equipment can be managed uniformly, and the efficiency of starting the monitoring equipment is improved.

According to the technical scheme of the embodiment of the invention, a power distribution room intelligent protection system is formed by an environment data acquisition device, a field intelligent protection module and a field power distribution room management module, wherein the environment data acquisition device is used for acquiring environment data of a power distribution room, and if the environment data reaches a preset early warning condition of the environment data acquisition device, an early warning level corresponding to the preset early warning condition is sent to the field intelligent protection module; the on-site intelligent protection module is used for receiving the early warning level, generating corresponding early warning information based on the early warning level and sending the early warning information to the on-site power distribution room management module; the on-site power distribution room management module is used for receiving early warning information, the monitoring equipment which is in communication connection with the on-site power distribution room management module is started based on the early warning information, a monitoring picture recorded by the monitoring equipment after starting is obtained, the target security and protection equipment which is in communication connection with the on-site power distribution room management module is started based on the monitoring picture, the problems that the labor cost is higher and the timeliness of protection is poor in protection of a power distribution room at present are solved, the power distribution room is protected more quickly, effectively and in real time, and therefore the labor cost of power distribution room protection is reduced, and the effectiveness of the power distribution room protection is improved.

Example two

Fig. 2 is a schematic structural diagram of a power distribution room intelligent protection system according to a second embodiment of the present invention, and on the basis of the second embodiment of the present invention, optionally, the power distribution room intelligent protection system according to the second embodiment of the present invention further includes a remote power distribution room management module, where the on-site power distribution room management module is configured to send the monitoring picture to the remote power distribution room management module; the remote power distribution room management module is used for receiving the monitoring picture, determining whether a stop instruction for controlling the target security equipment to stop running is generated or not based on the monitoring picture, if so, generating the stop instruction, and sending the stop instruction to the field power distribution room management module so that the field power distribution room management module controls the target security equipment to stop running based on the stop instruction. The embodiment can be applied to the scene of protecting the power distribution network, and the system can be realized in a hardware and/or software mode. The system specifically comprises the following structure:

the system comprises an environmental data acquisition device 11, a field intelligent protection module 12, a field power distribution room management module 13 and a remote power distribution room management module 14, wherein the environmental data acquisition device 11 is used for acquiring environmental data of a power distribution room, and if the environmental data reaches preset early warning conditions of the environmental data acquisition device 11, early warning levels corresponding to the preset early warning conditions are sent to the field intelligent protection module 12.

And the field intelligent protection module 12 is used for receiving the early warning level, generating corresponding early warning information based on the early warning level, and sending the early warning information to the field power distribution room management module 13.

And the field power distribution room management module 13 is configured to receive the early warning information, start a monitoring device in communication connection with the field power distribution room management module 13 based on the early warning information, acquire a monitoring picture recorded by the started monitoring device, and send the monitoring picture to the remote power distribution room management module 14.

Specifically, the early warning information is received through the field power distribution room management module 13. And then, the monitoring device in communication connection with the field distribution room management module 13 can be started based on the received early warning information. And then the monitoring picture recorded by the started monitoring equipment can be obtained. After the monitoring screen is obtained, the monitoring screen may be sent to the remote power distribution room management module 14.

And the remote power distribution room management module 14 is configured to receive the monitoring picture, determine whether a stop instruction for controlling the target security device to stop operating is generated based on the monitoring picture, generate the stop instruction if the stop instruction is generated, and send the stop instruction to the field power distribution room management module 13, so that the field power distribution room management module 13 controls the target security device to stop operating based on the stop instruction.

The stop instruction can include a stop operation command and an identifier of the target security equipment, and can be used for controlling the target security equipment to stop operating.

Specifically, the monitoring screen is received by the remote distribution room management module 14. And then whether to generate a stop instruction for controlling the target security equipment to stop running can be determined based on the monitoring picture. If yes, a stop instruction may be generated and sent to the field power distribution room management module 13, so that the field power distribution room management module 13 analyzes the stop instruction, and determines a stop operation command included in the stop instruction and an identifier of the target security device corresponding to the stop operation command. And then controlling the target security equipment corresponding to the identifier of the target security equipment to stop running based on the running stop command. It can be understood that, if yes, the target security equipment is controlled to keep the starting state, so that the target security equipment is in the operating state.

It should be noted that at least one field distribution room management module 13 is communicatively connected to the remote distribution room management module 14, that is, the number of field distribution room management modules 13 communicatively connected to the remote distribution room management module 14 may be plural.

On the basis of the above embodiment, the field distribution room management module 13 is further configured to send the start information of the target security device to the remote distribution room management module 14.

The starting information can reflect the current state of the target security equipment.

And the remote power distribution room management module 14 is used for receiving the starting information and the monitoring picture, determining whether a starting instruction for starting the security equipment except the target security equipment is generated or not based on the starting information and the monitoring picture, if so, generating the starting instruction, and sending the starting instruction to the field power distribution room management module 13 so that the field power distribution room management module 13 starts the security equipment except the target security equipment based on the starting instruction.

The starting instruction can contain the identification of the security equipment and can be used for starting the security equipment except the target security equipment.

Specifically, the startup information and the monitoring screen are received by the remote power distribution room management module 14. And further, the starting information and the monitoring picture can be analyzed, and further, an analysis result can be obtained. And then whether to generate a starting instruction for starting the security devices except the target security device can be determined based on the analysis result. If yes, a start instruction may be generated and sent to the field distribution room management module 13. So that the field distribution room management module 13 analyzes the starting instruction, determines the identifier of the security equipment contained in the starting instruction, and further starts the security equipment corresponding to the identifier of the security equipment except the target security equipment.

On the basis of the above embodiment, the power distribution room intelligent protection system further includes a display module, and the remote power distribution room management module 14 is further configured to generate an abnormality prompt message for prompting that the field intelligent protection module 12 has an abnormality based on the monitoring screen, and send the abnormality prompt message to the display module.

The abnormal prompt message can be used to prompt the field intelligent protection module 12 that there is an abnormal message. The specific representation form of the abnormal prompt message can be obtained by combining characters and/or numbers.

Specifically, the received monitoring picture is analyzed by the remote power distribution room management module 14, and then an analysis result can be obtained. Therefore, the abnormal prompt information for prompting that the field intelligent protection module 12 has abnormality can be generated based on the analysis result, and the abnormal prompt information is sent to the display module.

And the display module is used for receiving the abnormal prompt information and displaying the abnormal prompt information.

Specifically, the display module receives the abnormal prompt information and displays the abnormal prompt information, so that the remote management personnel can be prompted, and the remote management personnel can judge the field condition and remotely command.

According to the technical scheme of the embodiment of the invention, a power distribution room intelligent protection system is formed by an environmental data acquisition device, a field intelligent protection module, a field power distribution room management module and a remote power distribution room management module, and a monitoring picture is sent to the remote power distribution room management module by the field power distribution room management module; the monitoring picture is received through the remote power distribution room management module, whether a stop instruction for controlling the target security equipment to stop running is generated or not is determined based on the monitoring picture, if yes, the stop instruction can be generated, and the stop instruction is sent to the field power distribution room management module, so that the field power distribution room management module controls the target security equipment to stop running based on the stop instruction, real-time remote protection of the power distribution room is achieved, labor cost of power distribution room protection is reduced, and effectiveness of the power distribution room protection is improved.

EXAMPLE III

The third embodiment of the invention provides an intelligent protection system for a power distribution room, which is based on the third embodiment. Optionally, the on-site intelligent protection module is further configured to disconnect a switch that is matched with the on-site intelligent protection module when the received early warning level is a first-level early warning; and when the received early warning level is a second-level early warning, generating first early warning information corresponding to the second-level early warning based on the second-level early warning, and sending the first early warning information to the field power distribution room management module, wherein the early warning level of the first-level early warning is higher than the early warning level of the second-level early warning. The system specifically comprises the following structure:

the system comprises an environmental data acquisition device 11, a field intelligent protection module 12 and a field power distribution room management module 13, wherein the environmental data acquisition device 11 is used for acquiring environmental data of a power distribution room, and if the environmental data reaches the preset early warning condition of the environmental data acquisition device 11, the early warning level corresponding to the preset early warning condition is sent to the field intelligent protection module 12.

And the field intelligent protection module 12 is used for receiving the early warning level, generating corresponding early warning information based on the early warning level, and sending the early warning information to the field power distribution room management module 13.

And the field power distribution room management module 13 is used for receiving the early warning information, starting the monitoring equipment in communication connection with the field power distribution room management module 13 based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, and starting the target security equipment in communication connection with the field power distribution room management module based on the monitoring picture.

On the basis of the above embodiment, the on-site intelligent protection module 12 is further configured to disconnect the switch matched with the on-site intelligent protection module 12 when the received early warning level is the first-level early warning; and when the received early warning level is a second-level early warning, generating first early warning information corresponding to the second-level early warning based on the second-level early warning, and sending the first early warning information to the field power distribution room management module 13.

The early warning level may include a primary early warning and a secondary early warning. The early warning level of the first-stage early warning is higher than that of the second-stage early warning. The first early warning information may carry an early warning level of the second-level early warning. The first warning information and the first-stage warning may correspond to each other one by one.

In one embodiment, when the early warning level received by the field intelligent protection module 12 is a first-level early warning, the early warning policy corresponding to the first-level early warning may be determined based on a pre-configured early warning policy. And then the switch matched with the on-site intelligent protection module 12 can be disconnected based on the early warning strategy corresponding to the primary early warning. It should be noted that the pre-configured early warning policy may be preset according to the early warning level.

In another embodiment, when the early warning level received by the on-site intelligent protection module 12 is a secondary early warning, the early warning policy corresponding to the secondary early warning may be determined based on the pre-configured early warning policy. And then first early warning information corresponding to the second-stage early warning can be generated based on the second-stage early warning. When the first warning information is generated, the first warning information may be sent to the field distribution room management module 13.

On the basis of the above embodiment, the on-site intelligent protection module 12 is further configured to generate second warning information corresponding to the primary warning based on the primary warning when the received warning level is the primary warning, and send the second warning information to the on-site power distribution room management module 13.

The second early warning information can carry the early warning level of the first-level early warning. The second warning information may correspond to the second warning information in a one-to-one correspondence. It should be noted that "first" and "second" in the first warning information and the second warning information in the embodiment of the present invention are only to distinguish different warning information, and the arrangement order and the content of the warning information are not limited.

Specifically, when the early warning level received by the field intelligent protection module 12 is the first-level early warning, the second early warning information corresponding to the first-level early warning may be generated based on the first-level early warning. While or after the second warning information is generated, the second warning information may be transmitted to the field distribution room management module 13 communicatively connected to the field intelligent protection module 12.

The field distribution room management module 13 is further configured to generate a first switch disconnection instruction for controlling the disconnection of the switch associated with the field intelligent protection module 12 based on the first warning information or the second warning information when the received second warning information or the second warning information is received, so as to control the disconnection of the switch associated with the field intelligent protection module 12.

The first switch disconnection instruction may carry switch information of a switch that is associated with the field intelligent protection module 12, and may be used to control the switch that is associated with the field intelligent protection module 12 to be disconnected. The switch information may include, but is not limited to, a switch identification. The second warning information may include switching information. The second warning information may be on/off information.

Specifically, when the second early warning information or the second early warning information received by the on-site power distribution room management module 13 is received, the first early warning information or the second early warning information may be analyzed, and the switch information included in the first early warning information or the second early warning information is determined. And then, a first switch-off command for controlling the switch-off of the corresponding field intelligent protection module 12 can be generated based on the switch information. And analyzing the first switch opening instruction, and determining the switch information contained in the first switch opening instruction. The on-site intelligent protection module 12 corresponding to the switch identification is controlled to be disconnected with the matched switch according to the switch identification in the switch information, so that the disaster can be isolated to the greatest extent, the disaster can be prevented from being expanded, and the power failure range of the power grid can be controlled.

On the basis of the foregoing embodiment, the on-site power distribution room management module 13 is further configured to generate a second switch disconnection instruction for controlling the switch, which is configured with the intelligent protection module adjacent to the on-site intelligent protection module 12, to be disconnected based on the second early warning information, so as to control the switch, which is configured with the intelligent protection module adjacent to the on-site intelligent protection module 12, to be disconnected.

The second switch off command may carry switch information of a switch associated with an intelligent protection module adjacent to the on-site intelligent protection module 12.

Specifically, after the on-site power distribution room management module 13 receives the second warning information, the on-site intelligent protection module 12 that sends the second warning information may be determined. And further, the intelligent protection modules adjacent to the on-site intelligent protection module 12 can be determined according to the distribution of the intelligent protection modules. A second switch-off instruction for controlling the switch-off of the switch associated with the intelligent protection module adjacent to the field intelligent protection module 12 may be generated based on the switch information of the switch associated with the intelligent protection module adjacent to the field intelligent protection module 12. After the second switch-off command is generated, the switch associated with the intelligent protection module adjacent to the on-site intelligent protection module 12 may be controlled to be turned off based on the second switch-off command.

It should be noted that "first" and "second" in the third switch opening command and the third switch opening command in the embodiment of the present invention are only for distinguishing the switch opening command, and the arrangement order and the content of the switch opening command are not limited.

According to the technical scheme of the embodiment of the invention, when the early warning level received by the on-site intelligent protection module is the first-level early warning, the switch matched with the on-site intelligent protection module is disconnected. And when the early warning level received by the on-site intelligent protection module is a second-level early warning, generating first early warning information corresponding to the second-level early warning based on the second-level early warning, and sending the first early warning information to the on-site power distribution room management module, wherein the early warning level of the first-level early warning is higher than that of the second-level early warning, so that the power distribution room is protected more quickly, effectively and in real time, and the expansion of the faults of the power distribution room is reduced.

Example four

Fig. 3 is a schematic flow chart of a power distribution room intelligent protection method according to a fourth embodiment of the present invention, which belongs to the same inventive concept as the power distribution room intelligent protection system according to the foregoing embodiment, and reference may be made to the foregoing power distribution room intelligent protection system in the embodiment of the power distribution room protection method for details that are not described in detail. The method is applied to a power distribution room intelligent protection system consisting of an environmental data acquisition device, a field intelligent protection module and a field power distribution room management module, and specifically comprises the following steps: as shown in fig. 2, the method of the embodiment may specifically include:

s310, collecting environmental data of a power distribution room through environmental data collection equipment, and if the environmental data reaches the preset early warning condition of the environmental data collection equipment, sending the early warning level corresponding to the preset early warning condition to the on-site intelligent protection module.

And S320, receiving the early warning level through a field intelligent protection module, generating corresponding early warning information based on the early warning level, and sending the early warning information to the field power distribution room management module.

S330, receiving the early warning information through the field power distribution room management module, starting monitoring equipment in communication connection with the field power distribution room management module based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, and starting target security equipment in communication connection with the field power distribution room management module based on the monitoring picture.

Optionally, the method further includes: receiving the monitoring picture through a remote power distribution room management module, determining whether to generate a stop instruction for controlling the target security equipment to stop running or not based on the monitoring picture, if so, generating the stop instruction, and sending the stop instruction to the field power distribution room management module so that the field power distribution room management module controls the target security equipment to stop running based on the stop instruction.

Optionally, the start information of the target security device is sent to the remote power distribution room management module through the field power distribution room management module;

the remote power distribution room management module receives the starting information and the monitoring picture, whether a starting instruction for starting security equipment except the target security equipment is generated or not is determined based on the starting information and the monitoring picture, if yes, the starting instruction is generated, and the starting instruction is sent to the field power distribution room management module, so that the field power distribution room management module starts the security equipment except the target security equipment based on the starting instruction.

Optionally, the method further includes: generating abnormal prompt information for prompting that the on-site intelligent protection module is abnormal on the basis of the monitoring picture through the remote power distribution room management module, and sending the abnormal prompt information to a display module;

and receiving the abnormal prompt information through the display module, and displaying the abnormal prompt information.

Optionally, the early warning information includes a target monitoring position; analyzing the early warning information through the field power distribution room management module to obtain a target monitoring position, determining monitoring equipment corresponding to the target monitoring position, and starting the monitoring equipment corresponding to the target monitoring position.

Optionally, when the received early warning level is a first-level early warning, the on-site intelligent protection module disconnects a switch matched with the on-site intelligent protection module; and when the received early warning level is a second-level early warning, generating first early warning information corresponding to the second-level early warning based on the second-level early warning, and sending the first early warning information to the field power distribution room management module, wherein the early warning level of the first-level early warning is higher than the early warning level of the second-level early warning.

Optionally, when the received early warning level is a first-stage early warning, the on-site intelligent protection module generates second early warning information corresponding to the first-stage early warning based on the first-stage early warning, and sends the second early warning information to the on-site power distribution room management module;

and generating a first switch disconnection instruction for controlling the disconnection of the switch matched with the on-site intelligent protection module based on the first early warning information or the second early warning information when the second early warning information or the second early warning information is received by the on-site power distribution room management module so as to control the disconnection of the switch matched with the on-site intelligent protection module.

Optionally, the on-site power distribution room management module generates a second switch disconnection instruction for controlling the disconnection of the switch matched with the intelligent protection module adjacent to the on-site intelligent protection module based on the second early warning information, so as to control the disconnection of the switch matched with the intelligent protection module adjacent to the on-site intelligent protection module.

Optionally, the environmental data collection device includes at least one of a water level sensor, a temperature sensor, and a smoke fire sensor.

According to the technical scheme of the embodiment of the invention, the environmental data of the power distribution room are acquired through the environmental data acquisition equipment, and if the environmental data reach the preset early warning condition of the environmental data acquisition equipment, the early warning level corresponding to the preset early warning condition is sent to the on-site intelligent protection module; the early warning level is received through the on-site intelligent protection module, corresponding early warning information is generated based on the early warning level, and the early warning information is sent to the on-site power distribution room management module; the monitoring equipment is started to be in communication connection with the field power distribution room management module based on the early warning information, a monitoring picture recorded by the started monitoring equipment is obtained, target security equipment is started to be in communication connection with the field power distribution room management module based on the monitoring picture, the problems that the labor cost is high and the timeliness of protection is poor in protection of a power distribution room at present are solved, the power distribution room is protected more quickly, effectively and in real time, and therefore the labor cost of power distribution room protection is reduced and the effectiveness of the power distribution room protection is improved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Example four

An embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor, and is characterized in that, for example, the method for intelligently protecting a power distribution room provided in the foregoing embodiment of the present invention includes:

acquiring environmental data of a power distribution room through environmental data acquisition equipment, and if the environmental data reaches a preset early warning threshold value of the environmental data acquisition equipment, sending an early warning level corresponding to the preset early warning threshold value to an on-site intelligent protection module;

receiving the early warning level through the on-site intelligent protection module, generating corresponding early warning information based on the early warning level, and sending the early warning information to the on-site power distribution room management module;

receiving the early warning information through the field power distribution room management module, starting monitoring equipment in communication connection with the field power distribution room management module based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, and transmitting the monitoring picture to a remote power distribution room management module;

receiving the monitoring picture through the remote power distribution room management module, generating a security protection device starting instruction for starting security protection devices based on the monitoring picture, and sending the security protection device starting instruction to the field power distribution room management module so that the field power distribution room management module starts the security protection devices corresponding to the security protection device starting instruction.

Computer storage media for embodiments of the invention may employ any combination of one or more computer-readable media. The computer readable medium may be a computer readable signal medium or a computer readable storage medium. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. More specific examples (a non-exhaustive list) of the computer readable storage medium would include the following: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.

A computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.

Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations for embodiments of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, Smalltalk, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any type of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet service provider).

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A power distribution room intelligent protection system is characterized by comprising: the system comprises an environmental data acquisition device, an on-site intelligent protection module and an on-site power distribution room management module, wherein,

the environment data acquisition equipment is used for acquiring environment data of a power distribution room, and if the environment data reaches a preset early warning condition of the environment data acquisition equipment, sending an early warning level corresponding to the preset early warning condition to the on-site intelligent protection module;

the on-site intelligent protection module is used for receiving the early warning level, generating corresponding early warning information based on the early warning level and sending the early warning information to the on-site power distribution room management module;

the field power distribution room management module is used for receiving the early warning information, starting monitoring equipment in communication connection with the field power distribution room management module based on the early warning information, acquiring a monitoring picture recorded by the started monitoring equipment, and starting target security equipment in communication connection with the field power distribution room management module based on the monitoring picture.

2. The intelligent protection system for the power distribution room according to claim 1, further comprising a remote power distribution room management module, wherein the field power distribution room management module is configured to send the monitoring screen to the remote power distribution room management module;

the remote power distribution room management module is used for receiving the monitoring picture, determining whether a stop instruction for controlling the target security equipment to stop running is generated or not based on the monitoring picture, if so, generating the stop instruction, and sending the stop instruction to the field power distribution room management module so that the field power distribution room management module controls the target security equipment to stop running based on the stop instruction.

3. The intelligent protection system for the power distribution room according to claim 2, wherein the field power distribution room management module is further configured to send start-up information of the target security equipment to the remote power distribution room management module;

the remote power distribution room management module is used for receiving the starting information and the monitoring picture, determining whether a starting instruction for starting the security equipment except the target security equipment is generated or not based on the starting information and the monitoring picture, if so, generating the starting instruction and sending the starting instruction to the field power distribution room management module so that the field power distribution room management module starts the security equipment except the target security equipment based on the starting instruction.

4. The intelligent protection system for the power distribution room according to claim 2, wherein the system further comprises a display module, the remote power distribution room management module is further configured to generate an exception prompt message for prompting that the on-site intelligent protection module has an exception based on the monitoring screen, and send the exception prompt message to the display module;

and the display module is used for receiving the abnormal prompt information and displaying the abnormal prompt information.

5. The intelligent protection system for the power distribution room according to claim 1, wherein the early warning information comprises a target monitoring position; the field distribution room management module is specifically configured to analyze the early warning information to obtain a target monitoring position, determine a monitoring device corresponding to the target monitoring position, and start the monitoring device corresponding to the target monitoring position.

6. The intelligent protection system for the power distribution room according to claim 1, wherein the field intelligent protection module is further configured to disconnect a switch matched with the field intelligent protection module when the received early warning level is a primary early warning; and when the received early warning level is a second-level early warning, generating first early warning information corresponding to the second-level early warning based on the second-level early warning, and sending the first early warning information to the field power distribution room management module, wherein the early warning level of the first-level early warning is higher than the early warning level of the second-level early warning.

7. The intelligent protection system for the power distribution room according to claim 6, wherein the on-site intelligent protection module is further configured to generate second early warning information corresponding to the primary early warning based on the primary early warning when the received early warning level is the primary early warning, and send the second early warning information to the on-site power distribution room management module;

the field power distribution room management module is further configured to generate a first switch disconnection instruction for controlling a switch matched with the field intelligent protection module to be disconnected based on the first early warning information or the second early warning information when the second early warning information or the second early warning information is received, so as to control the switch matched with the field intelligent protection module to be disconnected.

8. The power distribution room intelligent protection system according to claim 7, wherein the field power distribution room management module is further configured to generate a second switch-off instruction for controlling the switch of the intelligent protection module adjacent to the field intelligent protection module to be turned off based on the second warning information, so as to control the switch of the intelligent protection module adjacent to the field intelligent protection module to be turned off.

9. The system of claim 1, wherein the environmental data collection device comprises at least one of a water level sensor, a temperature sensor, a smoke fire sensor.

10. A power distribution room intelligent protection method is characterized by comprising the following steps:

acquiring environmental data of a power distribution room through environmental data acquisition equipment, and if the environmental data reaches a preset early warning threshold value of the environmental data acquisition equipment, sending an early warning level corresponding to the preset early warning threshold value to an on-site intelligent protection module;

receiving the early warning level through the on-site intelligent protection module, generating corresponding early warning information based on the early warning level, and sending the early warning information to the on-site power distribution room management module;

the early warning information is received through the field power distribution room management module, monitoring equipment in communication connection with the field power distribution room management module is started based on the early warning information, a monitoring picture recorded by the started monitoring equipment is obtained, and target security equipment in communication connection with the field power distribution room management module is started based on the monitoring picture.

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