KR102301790B1 - power monitoring system - Google Patents

Abstract

The present invention provides a power monitoring system and monitoring method. the power monitoring system includes a mobile phone, a wireless communication terminal, a server and a power monitoring terminal, wherein the wireless communication terminal is connected to the Internet and connected to the mobile phone; the server is connected to the Internet, and has a fixed web address and a fixed interception port; The power monitoring terminal is installed at the power device monitoring site and connected to the wireless communication terminal, the server's web address, the interception port, and the number of the mobile phone are stored, the power monitoring terminal is the server's web address, the interception port Accordingly, it communicates with the server through the wireless communication terminal, transmits data to the server, and receives a command issued by the server.

Description

power monitoring system

TECHNICAL FIELD The present invention relates to the field of power technology, and specifically to a power monitoring system.

In order to ensure the safe and normal operation of the power grid, a power monitoring system is installed in the power system to monitor the operating state of the power device.

A power monitoring terminal for monitoring a server and a power device is installed in an existing power monitoring system, and the monitoring terminal is connected to the server in a wired manner, and has high reliability. However, the implementation cost is high due to the arrangement of a large number of cables, and the implementation difficulty is high due to the influence of external factors such as the topography of the location where the power system is located.

In the prior art, there is already a power monitoring system using a wireless connection, in which a monitoring terminal in such a system is connected to a server in a wireless manner to avoid laying a large amount of cables, effectively lowering the implementation cost and implementation difficulty. However, since the wireless communication signal between the monitoring terminal and the server is prone to communication failure due to external interference or network disconnection, the overall reliability of the system is lowered, which affects real-time monitoring of power devices and further affects the safety of the power grid.

An embodiment of the present invention provides a power monitoring system, which includes a mobile phone, a wireless communication terminal, a server and a power monitoring terminal, wherein the wireless communication terminal is connected to the Internet and connected to the mobile phone; the server is connected to the Internet, and has a fixed web address and a fixed interception port; The power monitoring terminal is installed at the power device monitoring site and connected to the wireless communication terminal, the server's web address, the interception port, and the number of the mobile phone are stored, the power monitoring terminal is the server's web address, the interception port Accordingly, it communicates with the server through the wireless communication terminal, transmits data to the server, and receives a command issued by the server.

According to some embodiments, the power monitoring terminal includes a voltage collection unit, a pre-processing unit, a gear conversion unit, an analog-to-digital conversion unit, a processor and a display unit, wherein the voltage collection unit collects raw voltage data, send the raw voltage data to the pre-processing unit; The pre-processing unit is connected to the voltage collection unit and the processor, receives the raw voltage data from the voltage collection unit, and performs attenuation processing, span conversion processing and expansion on the raw voltage data according to a control command sent by the processor. processing to obtain the voltage data after processing; the gear conversion unit is connected to the pre-processing unit to change the route through which the voltage is transmitted according to whether the processed voltage data is a DC voltage or an AC voltage; the analog-to-digital conversion unit is connected to the gear conversion unit to convert the raw voltage data into a digital signal; The processor is connected to the analog-to-digital conversion unit and the pre-processing unit, transmits a control command to the pre-processing unit, and performs sampling, filtering and error correction on the digital signal from the analog-to-digital conversion unit to generate a digital processed signal get; The display unit receives and displays the processor-derived digital processing signal.

According to some embodiments, the power monitoring terminal further includes a data conversion unit that converts the AC voltage into a DC voltage when the processed voltage data is an AC voltage.

According to some embodiments, the wireless communication terminal is provided with one unique GSM terminal number, is connected to the Internet by a GPRS wireless communication method, and is connected to the mobile phone by a GSM wireless communication method.

According to some embodiments, the power monitoring terminal is connected to the wireless communication terminal through a serial communication cable.

An embodiment of the present invention provides a power monitoring method of the above-described power monitoring system, which communicates with a server through a wireless communication terminal according to a web address and an interception port of a server in which the power monitoring terminal is stored, and the server transmitting data and receiving a command issued by a server; and when the power monitoring terminal needs to send a message to the mobile phone, transmitting the message to the mobile phone through the wireless communication terminal according to the number of the mobile phone.

According to some embodiments, the power monitoring terminal transmits the state information of the power device detected in real time to the server through the GPRS wireless communication method, and when a failure of the power device is detected, the power device transmits the fault information to the mobile phone together in the GSM text message method do.

According to some embodiments, when the power monitoring terminal communicates with the server in the GPRS wireless communication method, if there is no communication data between the server and the server within 3 minutes, the power monitoring terminal retries access to the server.

According to some embodiments, when the power monitoring terminal communicates with the server in the GPRS wireless communication method, if the connection with the server fails three times in a row, the wireless communication method is switched to the GSM text message mode, otherwise the GPRS wireless communication method is used. keep

The means of solving the problems provided by the embodiment of the present invention is that the power monitoring terminal transmits the status information of the power device detected in real time to the server when working in the GPRS mode, and when a fault of the power device is detected, the fault information is sent to the text message method through this double-channel wireless communication method, the implementation cost and difficulty of implementation are low, and the reliability is high, overcoming the problem of reliability of the existing single-channel wireless power monitoring system and ensuring safe operation of the power grid can do.

In order to more clearly explain the embodiments of the present invention or means for solving the problems of the prior art, the following embodiments or drawings necessary for the description of the prior art are briefly introduced. In the following description, the drawings are merely some embodiments of the present invention, and it is apparent that those skilled in the art can obtain other drawings from the structures shown in these drawings without the need to strive for inventive step.
1 is a structural schematic diagram of a power monitoring system provided by an embodiment of the present invention.
2 is a structural schematic diagram of another power monitoring system provided by an embodiment of the present invention.

The present invention will be described in more detail with reference to the specific drawings below for easy understanding of the means for solving the problems to be realized by the present invention, the progressive features, the objectives and effects to be achieved.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings attached to this specification are all for easy understanding and reading by those skilled in the art together with the contents disclosed in the specification, and the practice of the present invention As it is not intended to limit possible limiting conditions, it has no technical meaning, and any structural formula, change of ratio relationship, or adjustment of size are all disclosed in the present invention as long as they do not affect the effects and objectives of the present invention. It falls within the scope included in the technical content.

In addition, terms such as "upper", "lower", "left", "right", "middle" and "one" cited in this specification are only for clarity of description, and limit the limiting conditions applicable to the present invention. It is not intended to do so, and the change or adjustment of the relative relationship should be regarded as belonging to the scope of implementation of the present invention as long as the actual description is not changed.

1 is a structural schematic diagram of a power monitoring system provided by an embodiment of the present invention.

As shown in FIG. 1 , the power monitoring system includes a mobile phone 4 , a wireless communication terminal 2 , a server 3 , and a power monitoring terminal 1 .

The server is connected to the Internet, and has a fixed web address and a fixed interception port. The wireless communication terminal is connected to the Internet and connected to a mobile phone. The power monitoring terminal is installed at the power device monitoring site and connected to the wireless communication terminal, the server's web address, the interception port, and the number of the mobile phone are stored, and the power monitoring terminal according to the server's web address and the interception port, the wireless communication terminal It communicates with the server through , sends data to the server, and receives commands from the server.

A wireless communication terminal is provided with one unique GSM terminal number, is connected to the Internet by a GPRS wireless communication method, and is connected to a mobile phone by a GSM wireless communication method. The power monitoring terminal is connected to the wireless communication terminal through a serial communication cable, and the web address of the server, the interception port, and the number of the mobile phone are stored together in the power monitoring terminal.

The power monitoring terminal includes a voltage collection unit, a pre-processing unit, a gear conversion unit, an analog-to-digital conversion unit, a processor and a display unit.

the voltage collecting unit is signally connected to the pre-processing unit, collects raw voltage data, and sends the received raw voltage data to the pre-processing unit; The pre-processing unit is signal-connected to the voltage collecting unit and the processor, respectively, and performs attenuation processing, span conversion processing and enlargement processing on the received raw voltage data according to the control command sent by the processor; the gear conversion unit is signal-connected to the data conversion unit and the analog-to-digital conversion unit, respectively, to change the route through which the voltage is transmitted according to whether the collected voltage is a DC voltage or an AC voltage; the analog-to-digital conversion unit is signal-connected to the processor to convert the received analog raw voltage data into a digital signal; The processor is signal-connected to the display unit, performs sampling, filtering, and error correction on the received digital signal, and transmits the processing result to the display unit for display.

Optionally, the power monitoring terminal further includes a data conversion unit, wherein when the processed voltage data is an AC voltage, the data conversion unit converts the processed AC voltage into a DC voltage.

Since this structure improves the distribution and redundancy of functions, a general industrial process controller (IPC) is used to replace a dedicated expensive data server, thereby reducing hardware investment and not affecting the reliability of the overall system.

The power monitoring method of the power monitoring system shown in FIG. 1 includes the following steps.

The server's web address, interception port, and mobile phone number are stored together in the power monitoring terminal. The power monitoring terminal communicates with the server through the wireless communication terminal according to the stored server's web address and interception port, transmits data to the server, and receives a command issued by the server.

When the power monitoring terminal needs to send a message to the mobile phone, it transmits the message to the mobile phone through the wireless communication terminal according to the number of the mobile phone.

When the power monitoring terminal operates in the GPR mode, the status information of the power device detected in real time is transmitted to the server, and when a fault of the power device is detected, the fault information is transmitted to the mobile phone together in a text message method.

In addition, when the power monitoring terminal operates in the GPR mode, if there is no communication data with the server within 3 minutes, retry connection with the server; If the connection with the server fails 3 times in a row, the operation mode is switched to the text message mode, otherwise the operation mode of the GPRS mode is maintained.

Through this double-channel wireless communication method, the implementation cost and difficulty of implementation are low, and the reliability is high.

2 is a structural schematic diagram of another power monitoring system provided by an embodiment of the present invention.

On the basis of the embodiment of Fig. 1, the power monitoring terminal according to this embodiment is arranged in each distribution box in the power network, and the distribution box is the final device of the distribution system, and its action is mainly to control the power energy of any circuit of the upper level distribution device. Allocating it to nearby loads. If locking occurs in the distribution box, the normal operation of the nearby power-using equipment is affected.

In the existing distribution box management method, a maintenance person regularly monitors and operates the equipment, and when a potential problem that may cause a breakdown is found, maintenance is performed on the distribution box. In this way, since the energy of the maintenance person is limited, the monitoring efficiency of the distribution box is not very high, and usually once every few days or once every few weeks. Because of this, it is likely that a failure has already occurred in the distribution box and the affected company or individual sends repair request information, and the maintenance person arrives on site after receiving the relevant information and maintains the distribution box. This method takes a relatively long time from the occurrence of a failure to the recovery of the failure, and the work and life of the company or individual conducting the distribution are not insignificantly affected by the distribution box (for example, a situation in which the production line of the factory cannot be operated).

In this embodiment, the power monitoring terminal communicates with the server and the mobile phone through the 5G communication module, respectively, and the server is used by replacing the cloud end server, and each 5G communication module has a unique 5G terminal number.

In addition to using the voltage sensor as a voltage collecting unit in the power monitoring terminal, a number of other collecting units are installed to collect data for the distribution box, and the data collected by the collecting unit includes driving data, environmental data, and positioning data Except for the voltage sensor, the collection unit further includes a temperature sensor, a humidity sensor, a smog sensor, and a current sensor, and raw data information of these sensors also undergoes the same processing as the raw voltage data information.

A storage unit, a processing unit and a statistical analysis unit are arranged in the server. A database of preventive measures for maintenance measures is stored in the storage unit. Address information of the distribution box corresponding to each power monitoring terminal is further stored in the storage unit. The processing unit analyzes the data collected by the collection unit, generates an abnormality type if there is an abnormality in the analysis result, matches the corresponding maintenance plan in the storage unit according to the abnormality type and abnormality data, and issues an inspection and repair signal and the inspection and repair signal includes an abnormal type and a maintenance plan.

In this embodiment, each maintenance person's mobile phone is equipped with a unique 5G terminal number, and the mobile phone further includes an alerting unit and a positioning unit. the alarm unit receives the check repair signal; When the alarm unit receives an overhaul signal, a notification with text added to the voice is sent. The positioning unit is for acquiring positioning information of the maintenance team.

When the processing unit transmits the inspection and repair signal, it is transmitted to the mobile phone of the maintenance person closest to the abnormal distribution box. The storage unit also proceeds to store the abnormality, specifically, when the abnormality is stored in the storage unit, the 5G terminal number of the 5G communication module corresponding to the power monitoring terminal according to the abnormality type, detection time, and the manager's mobile phone 5G to proceed with maintenance Store the terminal number. The statistical analysis unit performs statistical analysis on the abnormality. When the statistical analysis unit performs anomaly statistical analysis, it generates a recurrence rate of each abnormality type, and when the recurrence rate of any abnormality type is greater than X, generates a policy update signal, and the policy update signal includes the abnormality type and a corresponding recurrence rate. If any maintenance group has an abnormal recurrence rate of the distribution box after maintenance is greater than Y, it generates a maintenance training signal, and the maintenance training signal includes the 5G terminal number of the mobile phone and the corresponding abnormal recurrence rate. Specific values of X and Y may be specifically set by those skilled in the art according to the past statistical recurrence rate of abnormalities.

For convenience of explanation, in the present embodiment, there are 200 distribution boxes in the system, 200 power monitoring terminals, and 10 maintenance units. The specific implementation process is as follows.

200 power monitoring terminals correspond one-to-one with the distribution box to collect data, and the collected data includes operation data and environment data of the distribution box, and transmits the collected data to the server. After the server receives the data transmitted by each power monitoring terminal, the processing unit analyzes the collected data of each power monitoring terminal. When an abnormality exists in the analysis result (eg, when the temperature is too high), an abnormality type is generated, and a corresponding maintenance plan is matched in the storage unit according to the abnormality type and the abnormality data.

The processing unit matches the address information of the corresponding distribution box in the storage unit according to the 5G terminal number of the 5G communication module corresponding to the power monitoring terminal in which the abnormal data exists, and determines the location fed back by the mobile phone of each maintenance person According to the information, the distance between the cell phone of each maintenance person and the distribution box in which the abnormality exists is calculated, and the inspection signal is transmitted to the cell phone of the maintenance person whose distance to the abnormal distribution box is closest. After the maintenance man's cell phone's alarm unit receives the overhaul signal, it sends a notification by adding a text to the voice (eg, "Please note that a new mission has arrived!"). Notifies the maintenance person that an abnormality has occurred in the power distribution box and requires inspection, repair and maintenance. It is more purposeful, and after arriving at the location where the distribution box is located, inspection, repair and maintenance can be carried out quickly.

When an abnormality is stored in the storage unit, the power monitoring terminal stores the 5G terminal number and the maintenance person's mobile phone 5G terminal number according to the abnormality type and detection time. Then, a statistical analysis unit performs statistical analysis on the abnormality, generates a recurrence rate of each abnormality type, and if the recurrence rate of any abnormality type is greater than X, generates a room update signal, and the method update signal determines the abnormality type and the corresponding recurrence rate. includes The maintenance person conducts inspection, repair and maintenance using the maintenance plan in the inspection and repair signal as a guide measure. If the recurrence rate of a certain type of abnormality is greater than X, optimization of the maintenance method for the type of abnormality in the prevention measure database is not possible. means you need Therefore, it sends a plan update signal to inform the server administrator to optimize the maintenance plan of the abnormal type in the preventive measure database. If a maintenance person has an abnormal recurrence rate of the distribution box after maintenance is greater than Y, a maintenance training signal is generated, and the maintenance training signal includes the 5G terminal number of the mobile phone and the corresponding abnormal recurrence rate. Each maintainer has his own cell phone. When the statistical analysis unit proceeds with abnormal statistical analysis, if a maintenance person has a recurrence rate of abnormality in the distribution box after maintenance is greater than Y, it is explained that the maintenance ability of the maintenance person needs to be improved. It thus generates a training signal that is maintenance. The maintenance training signal, including the 5G terminal number of the mobile phone and the corresponding abnormal recurrence rate, is convenient for the manager to know the specific situation in time. Compared with the prior art, with this system, if there is a potential problem that may cause the power distribution box to fail, the maintenance person can understand the situation in a timely manner and carry out the maintenance as soon as possible, so that the power distribution box malfunctions. situations can be reduced to a minimum.

Optionally, the maintenance person's mobile phone may further include a status unit, which indicates the maintenance person's working status, wherein the working status includes waiting for mission neutralization.

When the processing unit transmits the inspection and repair signal, it is transmitted to the mobile phone of the maintenance person whose work status is on standby and the distance from the abnormal distribution box is closest. When sending the inspection and repair signal, the maintenance person closest to the power distribution box where the problem occurred may be in a state of performing his/her duties. It is impossible to immediately arrive at the distribution box that sent the message and proceed with maintenance and occupancy repair. This situation can be avoided if the working status is on standby and the abnormal distribution box is sent to the nearest maintenance person's mobile phone, and the processing unit is on standby, find the closest maintenance person, and the maintenance person arrives on site immediately This enables maintenance, inspection and repair of the distribution box.

It should be explained that the system provided by the above-described embodiment is merely an example according to the classification of each function module, and can be completed by distributing the function to different function modules as needed in actual application, that is, this Modules or steps according to embodiments of the invention may be re-disassembled or combined. For example, the modules of the above embodiment may be merged into one module or further decomposed into a plurality of submodules to complete all or some of the functions described above. The names of modules and steps mentioned in the embodiments of the present invention are for distinguishing each module or step, and should not be viewed as limiting the present invention.

A person skilled in the art will understand that for convenience and brevity of the description, the specific operation process and related description of the storage device and the processing device described above may refer to the corresponding process of the above-described method embodiment, and no further description is provided herein. I never do that.

A person of ordinary skill in the art will know that each example module and method step described in connection with the embodiments disclosed herein may be realized by electronic hardware, computer software, or a combination of both, and a software module, corresponding to the method step Programs are random access memory (RAM). internal storage, read only memory (ROM), electrically programmable ROM, electrically erasable and programmable ROM, registers, hard disks, removable hard disks, CD-ROMs, or known in the art. is stored in a storage medium of any other arbitrary format. To clearly illustrate the interchangeability of electronic hardware and software, the above description has set forth the composition and steps of each implementation in a general manner according to function. These functions may be performed in an electronic hardware or software manner, depending on the particular application and design constraints of the means of solving the problem. A person skilled in the art may implement the described functions using different methods for each particular application, and such implementation should not be regarded as a departure from the scope of the present invention.

A specific embodiment of the present invention has been described above. It is to be understood that the present invention is not limited to the above specific embodiments, and devices and structures not described above should be practiced in the usual manner in the art. Those skilled in the art may proceed with small inferences, variations or substitutions through various variations or modifications within the scope of the claims, which do not affect the practical content of the present invention.

Claims (9)

cellphone;
a wireless communication terminal connected to the Internet and connected to the mobile phone;
a server connected to the Internet and provided with a fixed web address and a fixed eavesdropping port;
Installed at the power device monitoring site and connected to the wireless communication terminal, the web address of the server, the interception port and the number of the mobile phone are stored, and according to the web address and the interception port of the server, the wireless communication terminal and a power monitoring terminal that communicates with the server, transmits data to the server, and receives a command issued by the server,
The power monitoring terminal is
placed in each distribution box,
The power monitoring terminal is
It communicates with the server and the mobile phone through a 5G communication module,
The 5G communication module provided in each of the power monitoring terminal, the server, and the mobile phone has an induced 5G terminal number,
the server
It is a cloud-side server,
The power monitoring terminal is
It includes a voltage sensor, a temperature sensor, a humidity sensor, a smog sensor, and a current sensor, and collects raw data information including raw voltage data, driving data, environmental data, and positioning data using the sensors, and the collected raw data a collecting unit that transmits the information to the pre-processing unit;
It is connected to the collection unit and the processor, receives the raw data information from the collection unit, and performs attenuation processing, span transformation processing and enlargement processing on the raw data information according to a control command transmitted by the processor, after processing a pre-processing unit to obtain data;
a gear conversion unit connected to the pre-processing unit to change a route through which the voltage is transmitted according to whether the voltage data included in the processed data is a DC voltage or an AC voltage;
a data conversion unit that converts the AC voltage into a DC voltage when the processed voltage data is an AC voltage;
an analog-to-digital conversion unit connected to the gear conversion unit and the data conversion unit to convert the processed voltage data or the DC voltage converted by the data conversion unit into a digital signal;
The processor connected to the analog-to-digital conversion unit and the pre-processing unit, transmits a control command to the pre-processing unit, and performs sampling, filtering, and error correction on the digital signal from the analog-to-digital conversion unit to obtain a digital processed signal ; and
A display unit for receiving and displaying a digital processing signal from the processor
includes,
the server
a storage unit storing address information of a distribution box corresponding to each power monitoring terminal and a database of preventive measures for maintenance;
Analyze the data collected by each collection unit of the power monitoring terminal, generate an abnormality type when there is an abnormality in the analyzed data, and a maintenance method corresponding to the generated abnormality type and abnormality data in the storage unit a processing unit for matching and transmitting an inspection and repair signal including the abnormal type and maintenance plan to the mobile phone; and
Statistical analysis of the anomaly is performed, a recurrence rate of each abnormality type is generated, and when the generated recurrence rate is greater than a preset first value, the method update signal for the anomaly type - the method update signal is the anomaly type and the corresponding Including the recurrence rate- is generated, and when the abnormal recurrence rate of the distribution box after maintenance is greater than the second preset value, the maintenance training signal-the maintenance training signal includes the 5G terminal number of the mobile phone and the corresponding abnormal recurrence rate A statistical analysis unit that generates
including,
the cell phone
an alarm unit for transmitting a notification in which text is added to the voice when a check/repair signal is received;
a positioning unit for acquiring positioning information of a maintenance person; and
Status unit indicating the working status of the maintainer
includes,
the processing unit
According to the 5G terminal number of the 5G communication module corresponding to the power monitoring terminal in which the abnormal data exists, the address information of the corresponding distribution box is matched in the storage unit, and the location determination information fed back by the mobile phone of each maintenance person is Accordingly, calculating the distance between the cell phone of each maintenance person and the distribution box in which the abnormality exists, and transmitting an inspection and repair signal to the cell phone of the maintenance person whose distance to the abnormal distribution box is closest,
The power monitoring terminal is
When an abnormality is stored in the storage unit, the 5G terminal number and the 5G terminal number of the maintenance person's mobile phone are stored according to the abnormality type and detection time.
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