CN112414568A - Temperature rise monitoring system and monitoring method for electric energy meter calibrating device - Google Patents

Abstract

The invention discloses a temperature rise monitoring system and a monitoring method for an electric energy meter calibrating device, wherein at least one monitoring device comprises a processing unit, a plurality of temperature detection units and a plurality of human body detection units, wherein the temperature detection units and the human body detection units are respectively connected with the processing unit; the temperature detection unit is configured to collect real-time temperatures of corresponding station equipment in real time, and the processing unit is used for determining whether to alarm and an alarm mode according to the real-time temperatures of the station equipment and detection information of the human body detection unit. The temperature rise monitoring system of the electric energy meter calibrating device provided by the invention can timely inform workers when the real-time temperature of station equipment of the electric energy meter calibrating device exceeds the threshold temperature, so that the workers can conveniently go to process in time.

Description

Temperature rise monitoring system and monitoring method for electric energy meter calibrating device

Technical Field

The disclosure belongs to the technical field of monitoring, and particularly relates to a temperature rise monitoring system and a temperature rise monitoring method for an electric energy meter calibrating device.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

Along with the development and application of the automatic calibrating device for the electric energy meter, the calibrating capability of the metering device of the metering center is greatly improved. The assembly line type automatic calibrating device for the electric energy meter bears the main work of the full-performance test of the electric energy meter and the mutual inductor, so that the quality requirement of the automatic calibrating device for the electric energy meter is higher and higher, and the reliability requirement is also higher.

With the long-term application of the automatic calibrating device for the electric energy meter, the automatic calibrating device for the electric energy meter generally comprises a plurality of station devices which are sequentially arranged, and each station device is respectively used for sequentially testing the corresponding performance of the electric energy meter. For example, the station equipment can be pressure-resistant detection equipment for pressure-resistant detection of the electric energy meter, temperature-resistant detection equipment for temperature-resistant detection of the electric energy meter, and the like. The problem of temperature exceeding exists when each station equipment of each electric energy meter automatic calibrating device runs for a long time. The inside temperature of the equipment cabinet body exceeds standard, directly influences the safe and stable operation of equipment, and the overheated problem is a process of constantly developing moreover, if not control, and the overheated degree can constantly aggravate to produce very big influence to the performance of the insulating part in the equipment and the life-span of equipment, probably produce the emergence of naked light and fire incident when serious.

In the prior art, the automatic calibrating device for the electric energy meter always carries out detection work for a long time and under a high load, heat inside each station device of the automatic calibrating device for the electric energy meter is continuously accumulated, so that the temperature overheating phenomenon is aggravated, the automatic calibrating device for the electric energy meter does not usually have the functions of detecting and monitoring the temperature rise inside each station device in real time, people cannot find that the temperature of the station device is abnormal in time conveniently, and the station device can be various devices for detecting various performances of the electric energy meter, such as pressure resistance, temperature resistance and the like.

Disclosure of Invention

For overcoming above-mentioned prior art not enough, this disclosure provides an electric energy meter calibrating installation temperature rise monitored control system, aims at solving the automatic calibrating installation of electric energy meter of prior art and does not have the problem to the unusual temperature of the inside temperature rise real-time detection of station equipment and monitoring function, inconvenient people in time discovery.

In order to achieve the above object, one or more embodiments of the present disclosure provide the following technical solutions:

in a first aspect, a temperature rise monitoring system for an electric energy meter calibrating device is disclosed, comprising: the monitoring equipment comprises a processing unit, a plurality of temperature detection units and a plurality of human body detection units, wherein the temperature detection units and the human body detection units are respectively connected with the processing unit;

the temperature detection unit is configured to acquire real-time temperature of the corresponding station equipment in real time, and the processing unit is used for determining whether to alarm and an alarm mode according to the real-time temperature of each station equipment and the detection information of the human body detection unit.

In a second aspect, a method for monitoring temperature rise of an electric energy meter calibrating device is disclosed, which comprises the following steps:

acquiring real-time temperature of each station device and personnel information of a duty area in real time;

judging whether the real-time temperature of station equipment exceeds a threshold temperature or not based on the real-time temperature of the station equipment, and controlling an on-duty area to send an alarm prompt when the real-time temperature of the station equipment exceeds the threshold temperature and whether a worker is in the corresponding on-duty area is judged;

when the real-time temperature of the equipment with the station exceeds the threshold temperature and the presence of workers in two or more corresponding on-duty areas is judged, controlling the on-duty area closest to the equipment with the station to send an alarm prompt;

when the real-time temperature of the station equipment exceeds the threshold temperature and whether a worker is in the corresponding on-duty area is judged, temperature abnormity alarm information carrying station equipment information is sent to the main station, the main station transmits the temperature abnormity alarm information to the cloud server, and the cloud server sends the temperature abnormity alarm information to the mobile terminal.

The above one or more technical solutions have the following beneficial effects:

the temperature rise monitoring system of the electric energy meter calibrating device provided by the technical scheme of the disclosure acquires the real-time temperature of the corresponding station equipment in real time through the temperature sensors, and the processing unit judges whether the real-time temperature of the station equipment exceeds the threshold temperature or not according to the real-time temperature acquired by each temperature sensor; when the processing unit judges whether the real-time temperature of the equipment with the station exceeds the threshold temperature and judges that one human body sensor detects that a worker is in the corresponding on-duty area, the processing unit controls an alarm in the on-duty area to send out an alarm prompt; when the processing unit judges that two or more than two human body sensors detect and correspond to workers in the on-duty area, the alarm in the on-duty area nearest to the station equipment is controlled to send an alarm prompt, the functions of real-time temperature rise detection and monitoring in each station equipment of the automatic calibrating device for the electric energy meter are realized, when the temperature of the station equipment of the automatic calibrating device for the electric energy meter is abnormal, the fact that the workers can be informed in time is guaranteed, and the workers in the on-duty area nearest to the station equipment are informed, the workers can timely arrive at the site for maintenance and treatment of the station equipment, meanwhile, the multiple workers are prevented from going to treat at the same time, reasonable scheduling of the workers is realized, and the working efficiency of the workers is improved. When the processing unit judges that no human body sensor detects that a worker is on duty in the corresponding on-duty area, the processing unit sends the temperature abnormity alarm information to the main station and the cloud server through the communication module, so that the worker can timely know that the temperature of station equipment of the electric energy meter calibrating device is abnormal when the worker is not on duty in the on-duty area, remote monitoring is convenient to realize, and the reliability of the temperature rise monitoring system of the electric energy meter calibrating device is improved.

Advantages of additional aspects of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and are not to limit the disclosure.

Fig. 1 is a block diagram of a temperature rise monitoring system of an electric energy meter calibrating device provided in an embodiment of the present disclosure.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

Example of implementation 1

Referring to fig. 1, the embodiment discloses a temperature rise monitoring system for an electric energy meter calibrating device, which includes a power supply 1, a monitoring device 2, a master station 3, a cloud server 4 and a mobile terminal 5, wherein the monitoring device 2 is connected with the power supply 1, the monitoring device 2 is in communication connection with the master station 3, the master station 3 is in communication connection with the cloud server 4, and the cloud server 4 is in communication connection with the mobile terminal 5.

The monitoring device 2 comprises a processing unit 21 connected with the power supply 1, and a communication module 22, a data storage module 23, a plurality of temperature sensors 24, a plurality of human body sensors 25 and a plurality of alarms 26 which are respectively connected with the processing unit 21, wherein the communication module 22 is in communication connection with the main station 3, and each temperature sensor 24 is correspondingly arranged inside one station device of the electric energy meter calibrating device and used for detecting the internal temperature of the station device. The human body sensors 25 are distributed in different duty areas, the alarms 26 are respectively arranged in different duty areas, each duty area is provided with one human body sensor 25 and one alarm 26, and the data storage module 23 stores the corresponding relations among the human body sensors 25, the alarms 26 and the duty areas and the distance relations among the duty areas and the station equipment.

The temperature sensor 24 is used for acquiring the real-time temperature of the equipment at the corresponding station in real time. The processing unit 21 is configured to determine whether the real-time temperature of the station equipment exceeds a threshold temperature according to the real-time temperature acquired by each temperature sensor 24;

when the processing unit 21 judges that the real-time temperature of the equipment with the station exceeds the threshold temperature, the processing unit 21 detects whether a worker is in the corresponding on-duty area through the human body sensor 25; when the processing unit judges that one human body sensor 25 detects that a worker is in the corresponding on-duty area, the processing unit 21 controls an alarm 26 in the on-duty area to send out an alarm prompt;

when the processing unit 21 judges that the real-time temperature of the equipment with the station exceeds the threshold temperature, and the processing unit 21 judges that two or more human body sensors 25 detect that a worker is in the corresponding on-duty area, the processing unit 21 controls an alarm 26 in the on-duty area closest to the equipment with the station to send out an alarm prompt.

When processing unit judges that the real-time temperature of having station equipment surpasses the threshold temperature, processing unit 21 judges that unmanned body sensor 25 detects when having the staff in the corresponding region of on duty, and processing unit 21 sends the temperature anomaly alarm information that carries station equipment information to main website 3 through communication module 22, and main website 3 receives temperature anomaly alarm information to transmit temperature anomaly alarm information to cloud server 4, and cloud server 4 sends mobile terminal 5 with temperature anomaly alarm information.

In the embodiment of the invention, the duty area is a duty room of a worker or a fixed working area of the worker.

The data storage module 23 stores the corresponding relationship between the temperature sensor 24 and the station equipment, and the temperature sensor 24 and the station equipment respectively correspond to a number. Such as: no. 01 temperature sensor is corresponding with No. 01 station equipment, and No. 01 temperature sensor is used for detecting the real-time temperature of No. 01 station equipment, and No. 02 temperature sensor is corresponding with No. 02 station equipment, and No. 02 temperature sensor is used for detecting the real-time temperature of No. 02 station equipment.

The data storage module 23 stores the corresponding relationship among the human body sensors 25, the alarms 26 and the on-duty areas, that is, one human body sensor 25, one alarm 26 and one on-duty area correspond to each other one by one, and the human body sensors 25, the alarms 26 and the on-duty areas correspond to one number respectively, for example: no. 01 human body sensor and No. 01 alarm correspond to each other, and No. 01 human body sensor, No. 01 alarm and No. 01 area on duty correspond, and No. 01 human body sensor and No. 01 alarm setting are in No. 01 area on duty simultaneously.

In the embodiment of the present invention, the data storage module 23 stores the distance relationship between each duty area and the workstation equipment. Such as: the data storage module 23 stores the distance between the No. 01 duty area and the No. 01 station equipment, the distance between the No. 02 duty area and the No. 01 station equipment, the distance between the No. 02 station equipment, and the like. For convenience of explanation, the number of the human body sensor, the alarm and the duty zone are all three.

The No. 01 human body sensor corresponds to the No. 01 alarm, and the No. 01 human body sensor and the No. 01 alarm are arranged in the No. 01 duty area at the same time; the No. 02 human body sensor corresponds to the No. 02 alarm, and the No. 02 human body sensor and the No. 02 alarm are arranged in the No. 02 duty area at the same time; no. 03 human body sensor and No. 03 alarm correspond to each other, and No. 03 human body sensor and No. 03 alarm setting set up at No. 03 region on duty simultaneously.

When the processing unit 21 judges that the real-time temperature of the station equipment No. 01 exceeds the threshold temperature, the processing unit 21 detects whether workers exist in each duty area through the human body sensor 25.

When only the human body sensor No. 01 detects that the work personnel exist in the work area No. 01 where the human body sensor is located, the processing unit 21 controls the alarm No. 01 in the work area No. 01 to send out an alarm prompt so as to prompt the work personnel in the work area No. 01 to go to the work station equipment No. 01.

When the human body sensor No. 01 and the human body sensor No. 02 detect that the on-duty area where the human body sensor No. 01 is located has a worker, the processing unit 21 judges the distance between the on-duty area No. 01 where the human body sensor No. 01 is located and the on-duty area No. 02 where the human body sensor No. 02 is located and the station equipment No. 01, if the on-duty area No. 01 is closer to the station equipment No. 01, the processing unit 21 controls the alarm 26 in the on-duty area No. 01 to send an alarm prompt to prompt the worker in the on-duty area No. 01 to go to process the station equipment No. 01.

When the human body sensor No. 01, the human body sensor No. 02 and the human body sensor No. 03 detect that the on-duty area where the human body sensor No. 01, the human body sensor No. 02 and the human body sensor No. 03 are located has a worker, the processing unit 21 judges the distance between the on-duty area No. 01, the on-duty area No. 02 and the distance between the on-duty area No. 03 and the station equipment No. 01, if the on-duty area No. 03 is closest to the station equipment No. 01, the processing unit 21 controls the alarm 26 in the on-duty area No. 03 to send an alarm prompt so as to prompt the worker in the on-duty.

In the embodiment of the invention, the real-time temperature of the corresponding station equipment is acquired by each temperature sensor 24 in real time, the processing unit 21 judges whether the real-time temperature of the station equipment exceeds the threshold temperature or not according to the real-time temperature acquired by each temperature sensor 24, when the processing unit 21 judges that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit 21 detects whether a worker exists in the corresponding on-duty area or not through the human body sensors 25, and when one human body sensor 25 detects that the worker exists in the corresponding on-duty area, the processing unit 21 controls the alarm 26 in the on-duty area to send out an alarm prompt so as to remind the worker in the on-duty area to go to maintain and process the station equipment; when two or more than two human body sensors 25 detect that there are workers in the corresponding on-duty area, the processing unit 21 controls the alarm 26 in the on-duty area nearest to the station equipment to send an alarm prompt, so that the workers in the on-duty area nearest to the station equipment with abnormal temperature are notified to go to the station equipment for maintenance and treatment, the workers can timely arrive at the site to treat the station equipment, if the station equipment is temporarily closed, meanwhile, multiple workers are prevented from going to treat at the same time, the reasonable scheduling of the workers is realized, and the working efficiency of the workers is improved.

In the embodiment of the invention, when the processing unit 21 judges that the real-time temperature of the equipment with the station exceeds the threshold temperature and no human body sensor 25 detects that a worker is in the corresponding on-duty area, the processing unit 21 sends temperature abnormity alarm information carrying station equipment information to the main station 3 through the communication module 22, the main station 3 receives the temperature abnormity alarm information and transmits the temperature abnormity alarm information to the cloud server 4, and the cloud server 4 sends the temperature abnormity alarm information to the mobile terminal 5, so that the worker can timely know the temperature abnormity of the equipment with the station in the electric energy meter detection device without being in the on-duty area, the worker can timely arrive at the site to maintain and process the station equipment, and the remote monitoring is conveniently realized.

In the embodiment of the present invention, the monitoring device 2 further includes a display screen 20, which is used for displaying the real-time temperature of each station device, so as to facilitate the real-time temperature of each station device for the worker, and thus facilitate the worker to check whether the real-time temperature of each station device is abnormal.

In the embodiment of the invention, the communication module 22 establishes communication connection between the monitoring device 2 and the master station 3, the communication module 22 is connected with the master station 3 through the serial server 6, and the master station 3 is connected with the cloud server 4 through the wireless communication module 7. Wherein, wireless communication module 7 is bluetooth module, WIFI module or GPRS module.

As an embodiment of the invention, the temperature rise monitoring system of the electric energy meter calibrating device further comprises a plurality of air cooling devices 9, each air cooling device 9 is correspondingly arranged on a station device, each air cooling device 9 is connected with the power supply 1 through an electronic switch 8, and the electronic switch 8 is connected with the processing unit 21; the processing unit 21 is further configured to: when the processing unit 21 determines that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit 21 controls the electronic switch 8 corresponding to the station equipment with the real-time temperature exceeding the threshold temperature to conduct the corresponding air cooling device 9. The air cooling device 9 is installed on one side of the corresponding station equipment and used for blowing cold air to the station equipment, and the air cooling device 9 blows the cold air to the station equipment, so that heat of the station equipment is taken away, and cooling of the station equipment is achieved.

In this embodiment, the air cooling device 9 is an air cooler, and the electronic switch 8 is a relay switch. Each electronic switch 8 is switched on or off to control the corresponding air cooling device 9, so as to realize the on and off of the air cooling device 9.

When the processing unit 21 judges that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit 21 controls the electronic switch 8 corresponding to the station equipment to be switched on, so that the air cooling device 9 corresponding to the station equipment is started, the station equipment is cooled through the air cooling device 9, the problem that the normal operation of the equipment is influenced due to the further rise of the temperature of the station equipment and even the hidden danger of fire is caused is avoided, before the station equipment is processed by a worker, the air cooling device 9 rapidly cools the station equipment, and the safety performance is improved.

As an embodiment of the present invention, the temperature rise monitoring system of the electric energy meter calibrating device further includes a plurality of alarm indicator lamps 27 respectively connected to the processing unit 21, and each alarm indicator lamp 27 is correspondingly disposed on a station device; the processing unit 21 is further configured to: when the processing unit 21 judges that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit 21 controls the alarm indicator lamp 27 corresponding to the station equipment with the real-time temperature exceeding the threshold temperature to give an alarm prompt.

In this embodiment, when the processing unit 21 determines that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit 21 controls the corresponding alarm indicator lamp 27 to send an alarm prompt, and the worker visually finds out the position of the station equipment with abnormal temperature according to the position of the alarm indicator lamp, so that the worker can conveniently maintain and process the station equipment with abnormal temperature.

As an embodiment of the present invention, the processing unit 21 is further configured to: the real-time temperature data corresponding to each station device is transmitted to the main station 3 through the communication module 22, the main station 3 transmits the received real-time temperature data corresponding to each station device to the cloud server 4, and the cloud server 4 transmits the real-time temperature data corresponding to each station device to the mobile terminal 5. The mobile terminal 5 may be a smartphone, a tablet computer, or the like.

In this embodiment, transmit the real-time temperature data that each station equipment corresponds to staff's mobile terminal 5 through communication module 22, the staff can look over the real-time temperature information of each station equipment in real time on mobile terminal 5's APP interface, realizes artifical purpose to station equipment real-time supervision in advance, avoids station equipment to have the overheat phenomenon to take place the back, and main website 3 does not respond and has the problem of very big potential safety hazard.

As an embodiment of the present invention, the temperature rise monitoring system of the electric energy meter calibrating device further includes a plurality of image capturing modules 28 respectively connected to the processing unit 21, and each image capturing module 28 is respectively disposed on a corresponding station device; the processing unit 21 is further configured to: the real-time images of the image shooting modules 28 corresponding to the station devices are transmitted to the main station 3 through the communication module 22, the main station 3 transmits the received real-time images of the station devices to the cloud server 4, and the cloud server 4 transmits the real-time images of the station devices to the mobile terminal 5.

In this embodiment, the staff can utilize mobile terminal 5 to look over the real-time picture of each station equipment in real time to can remotely look over each station equipment real-time operating condition in real time, realized that the long-range of staff is to the remote monitoring of each station equipment of electric energy meter calibrating installation, make things convenient for the staff in time to learn that station equipment is unusual and in time go to and handle.

Example II

The embodiment of the invention also provides a monitoring method for the temperature rise monitoring system of the electric energy meter calibrating device, which comprises the following steps:

step S10, each temperature sensor 24 collects the real-time temperature of the corresponding station equipment in real time;

step S20, the processing unit 21 determines whether the real-time temperature of the station equipment exceeds the threshold temperature according to the real-time temperature collected by each temperature sensor 24, if yes, the next step S30 is executed;

step S30, the processing unit 21 detects whether there is a worker in the corresponding on-duty area through each human body sensor 25, when the processing unit 21 judges that one human body sensor 25 detects that there is a worker in the corresponding on-duty area, the processing unit 21 controls the alarm 26 in the on-duty area to send out an alarm prompt; when the processing unit 21 judges that two or more human body sensors 25 detect that a worker is in the corresponding on-duty area, the processing unit 21 controls an alarm 26 in the on-duty area nearest to the station equipment to send an alarm prompt, and when the processing unit 21 judges that no human body sensor 25 detects that a worker is in the corresponding on-duty area, the next step S40 is carried out;

step S40, the processing unit 21 sends temperature abnormality alarm information carrying station device information to the master station 3 through the communication module 22, the master station 3 receives the temperature abnormality alarm information and transmits the temperature abnormality alarm information to the cloud server 4, and the cloud server 4 sends the temperature abnormality alarm information to the mobile terminal 5.

As an embodiment of the present invention, between the step S10 and the step S20, further comprising:

step S15, the processing unit 21 transmits the real-time temperature data corresponding to each station device to the master station 3 through the communication module 22, the master station 3 transmits the received real-time temperature data corresponding to each station device to the cloud server 4, and the cloud server 4 transmits the real-time temperature data corresponding to each station device to the mobile terminal 5.

As an embodiment of the present invention, between the step S15 and the step S20, further comprising:

in step S18, the processing unit 21 transmits the real-time image of the image capturing module 28 corresponding to each station device to the master station 3 through the communication module 22, the master station 3 transmits the received real-time image of each station device to the cloud server 4, and the cloud server 4 transmits the real-time image of each station device to the mobile terminal 5. .

As an embodiment of the present invention, after step S40, the method further includes:

in step S50, the processing unit 21 controls the electronic switch 8 corresponding to the station equipment with the real-time temperature exceeding the threshold temperature to turn on the corresponding air cooling device 9.

As an embodiment of the present invention, after step S50, the method further includes:

in step S60, the processing unit 21 controls the alarm indicator lamp 27 corresponding to the station device whose real-time temperature exceeds the threshold temperature to send an alarm prompt.

The temperature rise monitoring system of the electric energy meter calibrating device provided by the embodiment of the invention acquires the real-time temperature of the corresponding station equipment in real time through the temperature sensors, and the processing unit judges whether the real-time temperature of the station equipment exceeds the threshold temperature or not according to the real-time temperature acquired by each temperature sensor; when the processing unit judges whether the real-time temperature of the equipment with the station exceeds the threshold temperature and judges that one human body sensor detects that a worker is in the corresponding on-duty area, the processing unit controls an alarm in the on-duty area to send out an alarm prompt; and when the processing unit judges that two or more than two human body sensors detect that a worker is in the corresponding on-duty area, the processing unit controls an alarm in the on-duty area closest to the station equipment to send out an alarm prompt. When the temperature of the station equipment of the electric energy meter calibrating device is abnormal, the fact that the staff can be informed in time is guaranteed, and the staff in the nearest duty area away from the station equipment is informed, so that the staff can quickly and timely arrive at the site to process the station equipment, meanwhile, a plurality of staff are also avoided going to process at the same time, reasonable dispatching of the staff is achieved, and the working efficiency of the staff is improved. When the processing unit judges that no human body sensor detects that a worker is on duty in the corresponding on-duty area, the processing unit sends the temperature abnormity alarm information to the main station and the cloud server through the communication module, so that the worker can timely know that the temperature of station equipment of the electric energy meter calibrating device is abnormal when the worker is not on duty in the on-duty area, remote monitoring is convenient to realize, and the reliability of the temperature rise monitoring system of the electric energy meter calibrating device is improved.

The above description is only a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, and various modifications and changes may be made to the present disclosure by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Although the present disclosure has been described with reference to specific embodiments, it should be understood that the scope of the present disclosure is not limited thereto, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit and scope of the present disclosure.

Claims (10)

1. The utility model provides an electric energy meter calibrating installation temperature rise monitored control system which characterized by includes: the monitoring equipment comprises a processing unit, a plurality of temperature detection units and a plurality of human body detection units, wherein the temperature detection units and the human body detection units are respectively connected with the processing unit;

the temperature detection unit is configured to acquire real-time temperature of the corresponding station equipment in real time, and the processing unit is used for determining whether to alarm and an alarm mode according to the real-time temperature of each station equipment and the detection information of the human body detection unit.

2. The temperature rise monitoring system for the electric energy meter calibrating device according to claim 1, further comprising a master station and a cloud server, wherein the monitoring device is in communication connection with the master station, the master station is in communication connection with the cloud server, and the cloud server is in communication connection with the mobile terminal.

3. The system according to claim 1, wherein the monitoring device comprises a data storage module and a plurality of alarms, and the data storage module stores the human body detection unit, the corresponding relationship between the alarms and the on-duty area, and the distance relationship between each on-duty area and each station device.

4. The system as claimed in claim 3, wherein the processing unit is configured to determine whether to alarm and an alarm mode according to the real-time temperature of each station device and the detection information of the human body detection unit, wherein when the processing unit determines that the real-time temperature of a station device exceeds a threshold temperature and the processing unit determines that one of the human body detection units detects a worker in a corresponding on-duty area, the processing unit controls the alarm in the on-duty area to send an alarm prompt.

5. The system for monitoring the temperature rise of the electric energy meter calibrating device according to claim 3, wherein when the processing unit judges that the real-time temperature of the equipment with the working position exceeds the threshold temperature and the processing unit judges that two or more human body detection units detect the presence of workers in the corresponding on-duty area, the processing unit controls the alarm in the on-duty area closest to the equipment with the working position to give an alarm prompt.

6. The system for monitoring the temperature rise of the electric energy meter calibrating device according to claim 2, wherein when the processing unit judges that the real-time temperature of equipment with stations exceeds a threshold temperature and when the processing unit judges that no human body detection unit detects that a worker is on duty in a corresponding on-duty area, the processing unit sends temperature abnormality alarm information carrying information of the equipment with the stations to the main station through a communication module, the main station receives the temperature abnormality alarm information and transmits the temperature abnormality alarm information to the cloud server, and the cloud server sends the temperature abnormality alarm information to the mobile terminal.

7. The temperature rise monitoring system for the electric energy meter calibrating device according to claim 1, further comprising a plurality of air cooling devices, wherein each air cooling device is correspondingly arranged on a station device, each air cooling device is connected with a power supply through an electronic switch, and the electronic switch is connected with the processing unit;

the processing unit is further to: when the processing unit judges that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit controls the electronic switch corresponding to the station equipment with the real-time temperature exceeding the threshold temperature to conduct the corresponding air cooling device.

8. The temperature rise monitoring system of the electric energy meter calibrating device as claimed in claim 1,

the system also comprises a plurality of image shooting modules which are respectively connected with the processing unit, and each image shooting module is respectively arranged on the corresponding station equipment; the processing unit is further to:

the real-time images of the image shooting modules corresponding to the station devices are transmitted to the main station through the communication modules, the main station transmits the received real-time images of the station devices to the cloud server, and the cloud server sends the real-time images of the station devices to the mobile terminal.

9. The temperature rise monitoring system for the electric energy meter calibrating device as claimed in claim 1, further comprising a plurality of alarm indicating lamps respectively connected with the processing unit, wherein each alarm indicating lamp is correspondingly arranged on one station device; the processing unit is further to:

when the processing unit judges that the real-time temperature of the station equipment exceeds the threshold temperature, the processing unit controls an alarm indicator lamp corresponding to the station equipment with the real-time temperature exceeding the threshold temperature to send an alarm prompt.

10. The monitoring method of the temperature rise monitoring system of the electric energy meter calibrating device based on any one of claims 1 to 9, which is characterized by comprising the following steps:

acquiring real-time temperature of each station device and personnel information of a duty area in real time;

judging whether the real-time temperature of station equipment exceeds a threshold temperature or not based on the real-time temperature of the station equipment, and controlling an on-duty area to send an alarm prompt when the real-time temperature of the station equipment exceeds the threshold temperature and whether a worker is in the corresponding on-duty area is judged;

when the real-time temperature of the equipment with the station exceeds the threshold temperature and the presence of workers in two or more corresponding on-duty areas is judged, controlling the on-duty area closest to the equipment with the station to send an alarm prompt;

when the real-time temperature of the station equipment exceeds the threshold temperature and whether a worker is in the corresponding on-duty area is judged, temperature abnormity alarm information carrying station equipment information is sent to the main station, the main station transmits the temperature abnormity alarm information to the cloud server, and the cloud server sends the temperature abnormity alarm information to the mobile terminal.

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