CN204143181U - Switchgear building watch-dog and system - Google Patents

Abstract

The utility model discloses a monitoring device and a system for a power distribution room. Wherein, the device includes: a signal collector, which is provided with an analog signal interface and/or a digital signal interface, and is used to connect to the water leakage detection equipment, and the signal collector is used to obtain and output the indication parameters output by the water leakage detection equipment; a processor, connected to the signal acquisition The processor is used to output the execution parameters according to the indication parameters output by the signal collector; the controller is connected to the processor, and the controller is used to connect the drainage equipment, and transmit the control signal corresponding to the execution parameters to the drainage equipment according to the execution parameters output by the processor . The utility model solves the technical problem that it is difficult to deal with water leakage in the power distribution room in time by manual inspection.

Description

Power distribution room monitoring equipment and systems

technical field

The utility model relates to the field of power supply safety, in particular to a monitoring device and system for a power distribution room.

Background technique

In the power supply system, the switching station usually refers to the distribution and transfer station between the load center area and two high-voltage substations. A collection of switching devices that supply power to electrical equipment, and in addition to power transmission, they can also play the role of outgoing line protection. In other words, switching stations can be regarded as the hub between the power supply system and electrical equipment. In order to be as close as possible to the load center area, the switching station is usually built near the intersection of the main road in the city, so how to ensure the power supply safety of the switching station has become a problem.

The existing monitoring of the operation safety of the switching station, especially the water ingress or leakage in the power distribution room, is usually done by manual inspection, wherein each inspector is usually responsible for multiple switching stations power distribution station room. However, due to the complexity of the location of the switch station, especially for the urban-rural areas, the distribution of distribution substations of each switch station is usually relatively scattered, and the surrounding traffic environment is usually relatively complicated, so it is difficult to use manual inspection alone. Make timely response when the operating status of the equipment in the power distribution room changes. For example, in a scenario, if there is leakage in a certain power distribution room due to weather or human factors, but the inspectors fail to arrive in time The power distribution station room may cause hidden dangers to power supply safety.

For the above problems, no effective solution has been proposed yet.

Utility model content

The embodiment of the utility model provides a monitoring device and system for a power distribution room to at least solve the technical problem that it is difficult to respond to water leakage in the power distribution room in a timely manner by manual inspection.

According to an aspect of an embodiment of the present invention, a power distribution room monitoring device is provided, including: a signal collector, which is provided with an analog signal interface and/or a digital signal interface, and is used to connect to a water leakage detection device. The above-mentioned signal collector is used for Obtain and output the indication parameters output by the above-mentioned water leakage detection equipment; the processor is connected to the above-mentioned signal collector, and the above-mentioned processor is used to output execution parameters according to the above-mentioned indication parameters output by the above-mentioned signal collector; the controller is connected to the above-mentioned processor, and the above-mentioned controller uses To connect the drainage equipment, and transmit the control signal corresponding to the aforementioned execution parameters to the aforementioned drainage equipment according to the aforementioned execution parameters output by the aforementioned processor.

Preferably, the above-mentioned power distribution room includes multiple, wherein each of the above-mentioned power distribution rooms is provided with one or more of the above-mentioned water leakage detection equipment and one or more of the above-mentioned drainage equipment, wherein the above-mentioned processor is used to The indication parameters output by one or more of the above-mentioned water leakage detection devices in the power distribution room output the above-mentioned execution parameters corresponding to the one or more of the above-mentioned drainage devices arranged in each of the above-mentioned power distribution rooms.

Preferably, the above-mentioned power distribution room is located in the switching station, wherein the above-mentioned power distribution room includes at least one of the following: a transformer room, a high-voltage switch cabinet room, and a low-voltage switch cabinet room; and/or, the above-mentioned water leakage detection equipment includes at least one of the following : a humidity sensor, a water pressure sensor, a liquid level sensor; and/or, the drainage equipment includes: a water pump in a power distribution room.

Preferably, it also includes: a communication module connected to the above-mentioned processor, and the above-mentioned communication module is used for communicating with the remote master control device; wherein, the above-mentioned processor is also used for receiving instructions received by the above-mentioned communication module and returned by the above-mentioned remote master control device Output the above execution parameters.

Preferably, the communication module is further configured to transmit the indication parameter to the remote master control device, and the remote master control device returns the instruction according to the indication parameter.

Preferably, the above-mentioned power distribution room monitoring equipment further includes: an image collector connected to the above-mentioned processor, and the above-mentioned image collector is used to collect image information on-site in the power distribution room; wherein, the above-mentioned processor is also used to send the remote The master control device transmits the above image information, and the remote master control device returns the above instruction according to the above image information.

Preferably, the above-mentioned power distribution room monitoring device further includes: a memory connected to the above-mentioned processor, and the above-mentioned memory is used to store the first preset threshold transmitted by the above-mentioned remote master control device; wherein, the above-mentioned processor is used to read the above-mentioned a first preset threshold, and output the execution parameter according to the indication parameter and the first preset threshold.

Preferably, the above-mentioned processor is further configured to transmit time information and/or parameter information including the above-mentioned indication parameters to the above-mentioned remote master control device through the above-mentioned communication module, wherein the above-mentioned time information includes: the above-mentioned signal collector collects the above-mentioned indication The time of the parameter, and/or the time when the above-mentioned controller transmits the above-mentioned execution parameter to the above-mentioned drainage device.

Preferably, the above-mentioned processor is further configured to output an alarm signal and/or alarm information after judging that the above-mentioned indicating parameter reaches or exceeds a second preset threshold, wherein the above-mentioned power distribution room monitoring equipment further includes: an alarm device connected to the above-mentioned processing The above-mentioned alarm device is used to switch from the safe state to the alarm state according to the alarm signal transmitted by the above-mentioned processor; and/or, the above-mentioned communication module is also used to transmit the above-mentioned alarm information output by the above-mentioned processor to the above-mentioned remote master control device.

According to another aspect of the embodiment of the present invention, there is also provided a power distribution room monitoring system, including: one or more water leakage detection devices, and one or more drainage devices, arranged in the above power distribution room; the above-mentioned one or a plurality of power distribution room monitoring devices, each of the above power distribution room monitoring devices is connected between one or more of the above one or more water leakage detection devices and one or more of the above one or more drainage devices; The remote master control device communicates with each of the above-mentioned power distribution room monitoring devices through the communication module in each of the above-mentioned power distribution room monitoring devices.

Preferably, the above-mentioned power distribution room monitoring system further includes: a database server, in data communication with the above-mentioned remote master control device, for backing up the time information and/or Parameter information.

In the embodiment of the utility model, since the signal collector cooperates with the water leakage detection equipment to collect on-site indication parameters, and the processor controls the drainage equipment through the controller according to the indication parameters, the management of the monitoring system in the power distribution room is achieved. The effect of timely controlling the degree of water leakage in the power distribution room without personnel being on site, thus solving the problem that manual inspection is difficult to respond to water leakage in the power distribution room in a timely manner, and thus achieving the effect of improving power supply safety.

Description of drawings

The drawings described here are used to provide a further understanding of the utility model and constitute a part of the application. The schematic embodiments of the utility model and their descriptions are used to explain the utility model and do not constitute improper limitations to the utility model. In the attached picture:

Fig. 1 is a schematic diagram of an optional power distribution room monitoring device according to an embodiment of the present invention;

Fig. 2 is a schematic diagram of another optional power distribution room monitoring device according to an embodiment of the present invention;

Fig. 3 is a schematic diagram of another optional power distribution room monitoring device according to an embodiment of the present invention;

Fig. 4 is a schematic diagram of another optional power distribution room monitoring device according to an embodiment of the present invention;

Fig. 5 is a schematic diagram of an optional power distribution room monitoring system according to an embodiment of the present invention.

Detailed ways

Hereinafter, the utility model will be described in detail with reference to the accompanying drawings and embodiments. It should be noted that, in the case of no conflict, the embodiments in the present application and the features in the embodiments can be combined with each other.

Example 1

According to an embodiment of the present invention, a power distribution room monitoring device is provided, as shown in Figure 1, the device includes:

1) The signal collector 102 is provided with an analog signal interface and/or a digital signal interface for connecting to the water leakage detection equipment, and the signal collector 102 is used to obtain and output the indication parameters output by the water leakage detection equipment;

2) The processor 104 is connected to the signal collector 102, and the processor 104 is used to output execution parameters according to the instruction parameters output by the signal collector 102;

3) The controller 106 is connected to the processor 104. The controller 106 is used to connect to the drainage equipment, and transmits a control signal corresponding to the execution parameters to the drainage equipment according to the execution parameters output by the processor 104.

It should be clear that one of the problems to be solved by the utility model is to provide a monitoring device to replace the existing manual inspection of the power distribution room and the power distribution room where it is located, so as to achieve Under the premise that the management personnel are not on site, they can control the water leakage in the power distribution room. In order to achieve this purpose, in the embodiment of the utility model, the above-mentioned power distribution room monitoring equipment uses the controller 106 to realize the driving of the drainage equipment connected to it, and then through the drainage equipment in the monitoring system to realize the monitoring of the power distribution room. Effective control of the degree of water leakage.

Specifically, in the embodiment of the present utility model, the above-mentioned drainage equipment may be a water pump installed in the power distribution room or underground in the power distribution room, and the drainage of the water pump in the power distribution room may be used to realize the accumulation of water in the power distribution room or Elimination of leaking water, so as to achieve the effect of controlling the degree of water leakage in the power distribution room. The above-mentioned control signal can be a simple on-off signal, or an analog signal to control the motor speed of the water pump in the power distribution room. Certainly, the above is only an example, and in the embodiment of the present utility model, the drainage equipment may also include other feasible equipment, which is not limited by the present utility model.

In addition, in the embodiment of the present utility model, the above-mentioned controller 106 may generally be a control circuit for driving drainage equipment. For example, for a water pump in a power distribution room, the controller 106 may include a programmable logic controller PLC ( Programmable Logic Controller), the relay connected to the switch output port of the output module, and the contactor connected to the relay, etc., in the above scenario, the output module improves the drive of the switch signal it outputs The ability ensures the normal control of the subsequent relays and contactors, thereby realizing the conversion from the digital switch to the actual control signal output to the drainage equipment.

Through the above-mentioned embodiments, the utility model provides a specific implementation of the controller 106, but in some embodiments of the utility model, the controller 106 can also be embodied in other forms, such as being packaged by a control circuit The control chip, etc., wherein, the control chip can also be integrated with the processor 104, which is not limited in the present invention. In addition, it is worth noting that, in some embodiments of the present invention, for drainage equipment that does not require the driving capability of the control signal, such as drainage equipment equipped with a power amplification module, the above-mentioned controller 106 can also be represented as a simple The output components or connectors, such as a physical interface or a suspension control mechanism including electromagnetic coils, etc., are not limited in the present invention.

Further, in order to realize the driving of the controller 106, in the embodiment of the present utility model, the above-mentioned power distribution room monitoring equipment may include a processor 104, wherein the processor 104 is connected to the controller 106, and the processor 104 can output and execute parameter, and then the controller 106 can generate a control signal according to the execution parameter and transmit the control signal to the above-mentioned drainage device.

Specifically, in the embodiment of the present utility model, the above-mentioned processor 104 may be a core processing module in the PLC, such as a CPU module, etc., but this does not mean that the present utility model is limited, for example, in some of the present utility model In an embodiment, the processor 104 may also be a processing module or a microprocessor in a distributed processing system.

Furthermore, in order to achieve effective control of the degree of water leakage in the power distribution room, in the embodiment of the present utility model, the above-mentioned power distribution room monitoring equipment may also include a signal collector 102, wherein the signal collector 102 can be used to directly Connect water leakage detection equipment, such as common water leakage detection equipment formed by probes including hydraulic sensitive elements and voltage or current transmitters, so that the signal collector 102 can collect the The analog signal of the sensor is converted into a digital signal indicating the degree of water leakage sensed by the sensor, such as a liquid level, by a specific value, and the digital signal is output to the processor 104 as an indication parameter. On the other hand, the signal collector 102 can also be used to connect to the water leakage detection equipment, and receive the indication parameters output by the water leakage detection equipment, in this case, the signal collector 102 can also be a simple physical interface, or an input coupled with the processor 104 Module, the utility model is not limited to this. Generally speaking, in the embodiment of the present utility model, for the power distribution room monitoring system using PLC, the above-mentioned signal collector 102 may be an input module mounted on the PLC.

In the embodiment of the present invention, the processor 104 can determine the execution parameters output to the controller 106 according to the indication parameters transmitted by the signal collector 102. For example, in one embodiment, the processor 104 can determine whether the indication parameters reach or If a preset parameter threshold is exceeded, a start parameter may be output to instruct the controller 106 to start the corresponding power distribution room water pump. Of course, this is just an example. In other embodiments of the present invention, the indication parameter can also be used to perform more complex control on the drainage equipment, and the control logic can include more steps. For example, the indication parameter can be Different control strategies are adopted when reaching or exceeding parameter thresholds of different levels, such as starting different positions and different numbers of water pumps in the power distribution room, which is not limited by the present invention.

Specifically, in the embodiment of the present utility model, the above-mentioned power distribution room may be a transformer room, a high-voltage switch cabinet room, a low-voltage switch cabinet room, or any combination thereof in the switching station, and the above-mentioned water leakage detection equipment may include at least one of the following: : humidity sensor, water pressure sensor, liquid level sensor, but the utility model is not limited to this.

Through the above method, in the embodiment of the present utility model, since the signal collector 102 is used to cooperate with the water leakage detection equipment to collect on-site indication parameters, and the processor 104 controls the drainage equipment through the controller 106 according to the indication parameters, it is achieved. The management personnel of the power distribution room monitoring system can control the water leakage in the power distribution room in time without being on-site, thus solving the problem that the manual inspection method is difficult to deal with the water leakage in the power distribution room in time, and thus achieving the improvement of power supply. safe effect.

Preferably, in the embodiment of the present utility model, the above-mentioned power distribution room includes a plurality, for example, it may include a transformer room, a high-voltage switch cabinet room, a low-voltage switch cabinet room, etc. in a distribution substation room, or a plurality of distribution substation rooms Multiple power distribution rooms within. In the above scenario, each power distribution room can be equipped with one or more water leakage detection devices, and one or more drainage devices, wherein, the processor 104 can The average value of the indicator parameters obtained can be used as the basis for the control logic, and the different influences of the water leakage detection equipment installed in different locations or near different equipment in the actual operating environment can also be considered comprehensively, and then the drainage equipment can be controlled through more complex control logic. That is, in the embodiment of the present utility model, the processor 104 can be used for outputting indication parameters outputted from one or more water leakage detection devices set in each power distribution room and setting in each power distribution room Execution parameters corresponding to one or more drains in .

On the basis of the above description, preferably, as shown in Figure 2, in the embodiment of the present utility model, the above-mentioned power distribution room monitoring equipment may also include:

1) The communication module 202 is connected to the processor 104, and the communication module 102 is used to communicate with the remote master control device; wherein, the processor 104 can also be used to output execution parameters according to the instruction received by the communication module 202 and returned by the remote master control device .

In the embodiment of the present utility model, the communication between the monitoring equipment in the power distribution room and the remote main control equipment can be realized through the communication module 202, wherein, the processor 104 can receive the information received through the communication module 202 and sent by the remote main control equipment. The instruction transmits the above-mentioned execution parameters to the controller 106. In the above scenario, the manager of the power distribution room can input an instruction to control the operation of the drainage device to the remote main control device through the input device connected to the remote main control device, and then the instruction can communicate with the remote main control device through the communication module 202 The communication channel between them is transmitted to the communication module 202, and through the processing of the processor 104, the control of the drainage equipment is realized through the controller 106, that is, the remote control of the drainage equipment located in the power distribution room site by the remote main control equipment is realized. . Specifically, the communication module 202 may be a commonly used wireless communication module, or a communication management module conforming to Ethernet or other current communication standards, etc., which is not limited by the present invention.

Further, in the above scenario, the communication module 202 can also be used to transmit the instruction parameter acquired by the signal collector 102 to the remote master control device, so that the remote master control device or its manager can return the above instruction or Other related control instructions.

In addition, as shown in Figure 3, in the embodiment of the present utility model, the above-mentioned power distribution room monitoring equipment may also include:

1) The image collector 302 is connected to the processor, and the image collector 302 is used to collect the image information of the scene of the power distribution room; wherein, the processor 104 is also used to transmit the image information to the remote main control device through the communication module 202, so that The remote master control device returns instructions according to the image information.

In the embodiment of the present invention, the image collector 302 may be a photographing device or an imaging device, such as a camera, a camera, etc., but the present invention is not limited thereto. In the above scenario, the image collector 302 can be used to collect image information of the power distribution room site, such as image information such as photos or videos taken when the field equipment is running, and the image information can be transmitted to the remote main control equipment through the communication module 202 , so that the management personnel at the end of the remote main control device can decide whether to input whether to start the drainage equipment or input the aforementioned instructions for quantitative control of the drainage equipment according to these real-time image information.

Certainly, the above are only some feasible implementation modes of the present utility model, and are not limitations of the present utility model. As shown in Figure 4, as another feasible implementation of the present utility model, the above-mentioned power distribution room monitoring equipment may include:

1) The memory 402 is connected to the processor 104, and the memory 402 is used to store the first preset threshold value transmitted by the remote master control device; wherein, the processor 104 is used to read the first preset threshold value from the memory 402, and according to the indicated parameter output execution parameters with a first preset threshold.

In addition, in the embodiment of the utility model, in order to transmit more relevant information to the end of the remote main control device or its management personnel, so as to back up these information as the tracking record of the monitoring equipment in the power distribution room, or It is convenient for management personnel to make corresponding operations, no matter what form it is, on the one hand, it can achieve the effect of improving the safety of the power distribution room monitoring system, and on the other hand, it is also convenient for management personnel to maintain the system and its use records.

Among them, as one of the preferred ways, in the embodiment of the present utility model, the processor 104 can be used to transmit time information and/or parameter information including indicating parameters to the remote master control device through the communication module 202; wherein, the time The information may include: the time when the signal collector 102 collects the indicating parameter, and/or the time when the controller transmits the execution parameter to the drainage device.

Further, considering the design requirements of a higher security level, in the embodiment of the present utility model, the processor 104 can also be used to output an alarm signal and/or alarm information after judging that the indicating parameter reaches or exceeds the second preset threshold ,in,

The above-mentioned power distribution room monitoring equipment may also include: an alarm device connected to the processor 104, and the alarm device is used to switch from a safe state to an alarm state according to an alarm signal transmitted by the processor; and/or,

The communication module 202 is also used to transmit the alarm information output by the processor to the remote main control device.

The utility model provides a preferred embodiment to further explain the utility model, but it should be noted that the preferred embodiment is only for better description of the utility model, and does not constitute an improper limitation of the utility model.

Example 2

According to an embodiment of the present invention, a power distribution room monitoring system is also provided, as shown in Figure 5, the device may include:

1) One or more water leakage detection devices 506 and one or more drainage devices 508 are installed in the power distribution room;

2) One or more power distribution room monitoring devices 502 according to any one of claims 1 to 9, each power distribution room monitoring device is connected to one or more of one or more water leakage detection devices 506 and one or more between one or more of the plurality of drainage devices 508;

3) The remote master control device 504 communicates data with each power distribution room monitoring device 502 through the communication module in each power distribution room monitoring device 502 .

As shown in Fig. 5, in the embodiment of the utility model, a power distribution room monitoring system may include at least one remote master control device 504 and one or more power distribution room monitoring devices 502, wherein the one or more power distribution room monitoring The room monitoring device 502 can be the power distribution room monitoring device 502 with the communication module 202 described in Embodiment 1, so that each of the one or more power distribution room monitoring devices 502 can communicate with the remote through its communication module 202 The master device 504 communicates.

Similar to the interaction mode between the power distribution room monitoring device and the remote main control device described in Embodiment 1, in the embodiment of the present utility model, the power distribution room monitoring device 502 can collect at least one of the following Information: parameter information, image information, time information, alarm information, etc., are reported to the remote main control device 504. In addition, the remote main control device can also transmit the instruction of controlling the drainage equipment to the power distribution room monitoring device 502. This utility model The new model does not limit this.

Further, as shown in Figure 5, in the embodiment of the present utility model, each power distribution room monitoring device 502 can be connected with a plurality of water leakage detection devices 506 and a plurality of drainage devices 508, generally speaking, the same water leakage detection device 506 or the same drainage device 508 can only be connected to one power distribution room monitoring device 502, and these water leakage detection devices 506 and drainage devices 508 connected to the same power distribution room monitoring device 502 can be installed in the same power distribution room to facilitate management and maintenance, but the utility model is not limited to this.

In the above scenario, the management personnel can realize the monitoring of the above one or more power distribution room monitoring devices by exchanging with the remote main control device 504. parameters and/or image information to manually remotely control the drainage equipment, of course, the remote main control device can also automatically judge the operating environment of the power distribution room according to the indicated parameters and/or image information, and control the drainage equipment according to the judgment results Drainage equipment, the utility model is not limited to this.

Further, in the embodiment of the present utility model, the above-mentioned power distribution room monitoring system may also include a database server, wherein the remote master control device 504 may also establish a data connection with the database server, so that the above-mentioned power distribution room monitoring device 502 The various information returned to the remote master control device 504 can be stored in the database server, so that the remote master control device or management personnel can perform queries and corresponding operations at intervals of a certain period of time, or further generate relevant reports, and then can report to other devices in the production system.

Specifically, in the embodiment of the present utility model, the remote master control device 504 in the power distribution room monitoring and management system may be a computer, and the database server may be a server with active and standby functions. However, the present utility model does not limit this, and any Devices, equipment or systems that meet the limitations of the present application and can realize the above functions should be regarded as equivalent replacements or equivalent modifications of the features in the present utility model, and similar implementations based on these equivalent replacements or equivalent modifications should be regarded as Within the protection scope of the present utility model.

The utility model provides a preferred embodiment to further explain the utility model, but it should be noted that the preferred embodiment is only for better description of the utility model, and does not constitute an improper limitation of the utility model.

From the above description, it can be seen that the utility model has achieved the following technical effects:

1) The signal collector cooperates with the water leakage detection equipment to collect on-site indication parameters, and the processor controls the drainage equipment through the controller according to the indication parameters, so as to achieve the premise that the management personnel of the monitoring system of the power distribution room cannot be on-site The effect of timely controlling the degree of water leakage in the power distribution room, thereby achieving the effect of improving the safety of power supply;

2) Using the combination of the above-mentioned power distribution room monitoring equipment and remote main control equipment, the centralized monitoring of one or more power distribution rooms and the effective management of authorized users are further realized, thereby reducing the cost of the entire power distribution room monitoring system. management and maintenance costs.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. For those skilled in the art, the present utility model can have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present utility model shall be included in the protection scope of the present utility model.

Claims (11)

1. An electrical distribution room monitoring apparatus, comprising:

the signal collector is provided with an analog signal interface and/or a digital signal interface and is used for connecting water leakage detection equipment;

the processor is connected with the signal collector and used for outputting execution parameters according to the indication parameters output by the signal collector;

and the controller is connected with the processor and is used for connecting drainage equipment and transmitting a control signal corresponding to the execution parameter to the drainage equipment according to the execution parameter output by the processor.

2. The electrical distribution room monitoring apparatus of claim 1, wherein the electrical distribution room comprises a plurality of electrical distribution rooms, wherein each of the electrical distribution rooms is provided with one or more of the water leakage detection apparatus and one or more of the water drainage apparatus, wherein,

the processor is used for outputting the execution parameters corresponding to one or more water drainage devices arranged in each power distribution room according to the indication parameters output by one or more water leakage detection devices arranged in each power distribution room.

3. The electrical distribution room monitoring apparatus of claim 2 wherein the electrical distribution room is located within a switching station, wherein,

the electrical distribution room includes at least one of: a transformer chamber, a high-voltage switch cabinet chamber and a low-voltage switch cabinet chamber; and/or the presence of a gas in the gas,

the water leakage detecting apparatus includes at least one of: a humidity sensor, a water pressure sensor and a liquid level sensor; and/or the presence of a gas in the gas,

the drainage apparatus includes: distribution room water pump.

4. The electrical distribution room monitoring apparatus of any of claims 1 to 3, further comprising:

the communication module is connected with the processor and is used for communicating with remote main control equipment; wherein,

the processor is further configured to output the execution parameter according to an instruction received by the communication module and returned by the remote master device.

5. The electrical distribution room monitoring apparatus of claim 4,

the communication module is further configured to transmit the indication parameter to the remote main control device, and the remote main control device returns the instruction according to the indication parameter.

6. The electrical distribution room monitoring apparatus of claim 4, further comprising:

the image collector is connected with the processor and is used for collecting the on-site image information of the distribution room; wherein,

the processor is further configured to transmit the image information to the remote main control device through the communication module, and the remote main control device returns the instruction according to the image information.

7. The electrical distribution room monitoring apparatus of claim 4, further comprising:

the memory is connected with the processor and used for storing a first preset threshold value transmitted by the remote main control equipment; wherein,

the processor is used for reading the first preset threshold value from the memory and outputting the execution parameter according to the indication parameter and the first preset threshold value.

8. The electrical distribution room monitoring apparatus of claim 4,

the processor is further configured to transmit, to the remote master control device through the communication module, time information and/or parameter information including the indication parameter, where the time information includes: the signal collector collects the time of the indication parameter and/or the time of the controller transmitting the execution parameter to the drainage equipment.

9. The electrical distribution room monitoring apparatus of claim 4, wherein the processor is further configured to output an alarm signal and/or an alert message upon determining that the indicator parameter meets or exceeds a second preset threshold, wherein,

the distribution room monitoring apparatus further comprises: the alarm device is connected with the processor and used for switching from a safety state to an alarm state according to the alarm signal transmitted by the processor; and/or the presence of a gas in the gas,

the communication module is further used for transmitting the alarm information output by the processor to the remote main control equipment.

10. A distribution room monitoring system, comprising:

one or more water leakage detection devices and one or more water drainage devices disposed in the power distribution room;

one or more distribution room monitoring devices as claimed in any one of claims 1 to 9, each said distribution room monitoring device being connected between one or more of said one or more water leak detection devices and one or more of said one or more water drainage devices;

and the remote main control equipment is in data communication with each distribution room monitoring equipment through a communication module in each distribution room monitoring equipment.

11. The electrical distribution room monitoring system of claim 10, further comprising:

and the database server is in data communication with the remote main control equipment and is used for backing up the time information and/or the parameter information received by the remote main control equipment from the one or more power distribution room monitoring equipment.