CN203674806U - Electrical service system - Google Patents

Abstract

The utility model relates to the field of electric power, and discloses an electric service system, comprising a communication management machine, a first wireless communication module, a second wireless communication module, a third wireless communication module, an application server, and a low-voltage circuit breaker; wherein, the communication management machine and the low-voltage circuit breakers are respectively set on the low-voltage lines; the communication management machine collects the real-time data of the electric meters and switches on the low-voltage lines, and sends them to the application server through the first wireless communication module; the application server receives the data through the second wireless communication module, and The data is processed to obtain circuit breaker instruction information, and the circuit breaker instruction information is sent to the low-voltage circuit breaker through the third wireless communication module, and the low-voltage circuit breaker performs a reclose after receiving the circuit breaker instruction information. The system provided by the utility model can make the line automatically restore the fault in a short time.

Description

A power service system

technical field

The utility model relates to the field of electric power, in particular to an electric service system.

Background technique

The ultimate goal of the smart grid is to improve the reliability of power supply and improve the quality of power service. With the construction of the smart grid, the main grid structure has been further strengthened, and the main grid structure of the distribution network mostly adopts a ring network or a handle interconnection structure.

Combined with the construction of distribution network automation, there are relatively few failures in the main network. At present, the main factor affecting the reliability of power supply comes from the failure of low-voltage lines, and there is no better automation method on low-voltage lines. Therefore, power outages on low-voltage lines are often It is a blind area of automation. After the user complains, the emergency repair is passively carried out. On the one hand, this prolongs the power outage time of the user and affects the reliability of the power supply. On the other hand, it also causes the heavy work of emergency repair.

Therefore, there is no such power service system at present, which can automatically eliminate the faults of low-voltage lines.

Utility model content

In view of this, the purpose of this utility model is to solve the problem of low efficiency of traditional manual power data acquisition. The embodiment of this utility model provides an electricity service system, and the technical solution is as follows:

An electricity service system, including a communication management machine, a first wireless communication module, a second wireless communication module, a third wireless communication module, an application server, and a low-voltage circuit breaker;

Wherein, the communication management machine and the low-voltage circuit breaker are respectively arranged on the low-voltage line;

The communication management machine collects real-time data of electric meters and switches on the low-voltage line, and sends them to the application server through the first wireless communication module;

The application server receives the data through the second wireless communication module, processes the data, obtains circuit breaker instruction information, and sends the circuit breaker instruction information to the A low-voltage circuit breaker, where the low-voltage circuit breaker performs a reclosing after receiving the circuit breaker instruction information.

Further, in the above electricity service system, it also includes: a client connected to the application server through a gateway.

Further, in the above electricity service system, it also includes: at least one isolated network segment driver connected to the communication management machine;

The isolated network segment driver is connected to the low-voltage circuit breaker.

Further, in the above electricity service system, a power distribution measurement and control device is connected between the isolated network segment driver and the low-voltage circuit breaker.

Further, in the above electricity service system, the low-voltage circuit breaker is a low-voltage circuit breaker with an electric operating mechanism and a CT/PT current transformer/voltage transformer.

Further, in the above electricity service system, the low-voltage circuit breaker is a low-voltage circuit breaker with an energy storage electric operating mechanism and a CT/PT current transformer/voltage transformer.

Further, in the above electricity service system, the isolated network segment drivers are connected through RS485 bus.

Further, in the above electricity service system, the communication management machine and the isolated network segment driver are powered by a power supply.

For low-voltage line faults, part of the reason is the tripping of line switches caused by instantaneous ground faults. If a low-voltage circuit breaker can be installed on the low-voltage line so that the low-voltage circuit breaker can be reclosed once, the fault can be automatically recovered in a short time. Therefore, the embodiment of the present utility model provides an electricity service system, including a low-voltage circuit breaker and a communication management machine installed on the low-voltage line. The module sends it to the application server, and the application server receives the data through the second wireless communication module, processes the data, obtains the circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker through the third wireless communication module, and the low-voltage circuit breaker receives After receiving the instruction information of the circuit breaker, a reclosing is carried out, so that the line automatically recovers from the fault in a short time. Furthermore, since the power service system is generally built in the central office, and the low-voltage line power distribution terminal has no available optical fiber or network channel, a two-way communication link can be established through wireless communication to solve the problem of Deficiencies in the absence of usable fiber optic or network channels at the distribution terminals of low-voltage lines.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are only some embodiments of the utility model, and those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is a schematic structural diagram of the electricity service system provided by the embodiment of the present invention;

Fig. 2 is another structural schematic diagram of the electricity service system provided by the embodiment of the utility model;

Fig. 3 is another structural schematic diagram of the electricity service system provided by the embodiment of the utility model.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Referring to Fig. 1, an embodiment of the utility model provides an electricity service system, including a communication management machine 110, a first wireless communication module 130, a second wireless communication module 140, a third wireless communication module 160, an application server 150, and a low-voltage circuit breaker device 120.

Wherein, the communication management machine 110 and the low-voltage circuit breaker 120 are respectively arranged on the low-voltage line;

The communication management machine 110 collects real-time data of electric meters and switches on the low-voltage line, and sends the data to the application server 150 through the first wireless communication module 130 .

The application server 150 receives data through the second wireless communication module 140, and processes the data to obtain circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker 120 through the third wireless communication module 160, and the low-voltage circuit breaker 120 receives Perform a reclose after the circuit breaker command message.

For low-voltage line faults, part of the reason is the tripping of line switches caused by instantaneous ground faults. If a low-voltage circuit breaker can be installed on the low-voltage line so that the low-voltage circuit breaker can be reclosed once, the fault can be automatically recovered in a short time. Therefore, the embodiment of the present utility model provides an electricity service system, including a low-voltage circuit breaker and a communication management machine installed on the low-voltage line. The module sends it to the application server, and the application server receives the data through the second wireless communication module, processes the data, obtains the circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker through the third wireless communication module, and the low-voltage circuit breaker receives After receiving the instruction information of the circuit breaker, a reclosing is carried out, so that the line automatically recovers from the fault in a short time. Furthermore, since the power service system is generally built in the central office, and the low-voltage line power distribution terminal has no available optical fiber or network channel, a two-way communication link can be established through wireless communication to solve the problem of Deficiencies in the absence of usable fiber optic or network channels at the distribution terminals of low-voltage lines.

Referring to Fig. 2, an embodiment of the utility model provides an electricity service system, including a communication management machine 110, a first wireless communication module 130, a second wireless communication module 140, a third wireless communication module 160, an application server 150, and a low-voltage circuit breaker device 120.

Wherein, the communication management machine 110 and the low-voltage circuit breaker 120 are respectively arranged on the low-voltage line;

The communication management machine 110 collects real-time data of electric meters and switches on the low-voltage line, and sends the data to the application server 150 through the first wireless communication module 130 .

The application server 150 receives data through the second wireless communication module 140, and processes the data to obtain circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker 120 through the third wireless communication module 160, and the low-voltage circuit breaker 120 receives Perform a reclose after the circuit breaker command message.

For low-voltage line faults, part of the reason is the tripping of line switches caused by instantaneous ground faults. If a low-voltage circuit breaker can be installed on the low-voltage line so that the low-voltage circuit breaker can be reclosed once, the fault can be automatically recovered in a short time. Therefore, the embodiment of the present utility model provides an electricity service system, including a low-voltage circuit breaker and a communication management machine installed on the low-voltage line. The module sends it to the application server, and the application server receives the data through the second wireless communication module, processes the data, obtains the circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker through the third wireless communication module, and the low-voltage circuit breaker receives After receiving the instruction information of the circuit breaker, a reclosing is carried out, so that the line automatically recovers from the fault in a short time. Furthermore, since the power service system is generally built in the central office, and the low-voltage line power distribution terminal has no available optical fiber or network channel, a two-way communication link can be established through wireless communication to solve the problem of Deficiencies in the absence of usable fiber optic or network channels at the distribution terminals of low-voltage lines.

The electricity service system provided by the embodiment of the present invention also includes a client 170 connected to the application server 150 through a gateway. The application server 150 receives data through the second wireless communication module 140, and processes the data to obtain service information, and sends the service information to the client 170 through the third wireless communication module 160, wherein the client 170 may be a bureau-level client , work area client, team client. The client terminal is for customers to receive service information online. The service information can be exchanged with the client through text messages and phone calls to ensure that fault information can be checked in the first time and troubleshooting measures and solutions can be determined at any time.

Referring to Fig. 3, an embodiment of the utility model provides an electricity service system, including a communication management machine 110, a first wireless communication module 130, a second wireless communication module 140, a third wireless communication module 160, an application server 160, and a low-voltage circuit breaker Devices 121-123.

Among them, the communication management machine 110 and the low-voltage circuit breakers 121-123 are respectively arranged on the low-voltage line;

The communication management machine 110 collects real-time data of electric meters and switches on the low-voltage line, and sends the data to the application server 150 through the first wireless communication module 130 .

The application server receives data through the second wireless communication module 150, and processes the data to obtain circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breakers 121-123 through the third wireless communication module 160, and the low-voltage circuit breakers 121-123 123 performs a reclosing after receiving the circuit breaker instruction information.

The electricity service system provided by the embodiment of the utility model also includes at least one isolated network segment driver connected to the communication management machine, and the isolated network segment driver is connected to the low-voltage circuit breaker. The isolated network segment drivers are 181-183 as shown in FIG. 3 .

For low-voltage line faults, part of the reason is the tripping of line switches caused by instantaneous ground faults. If a low-voltage circuit breaker can be installed on the low-voltage line so that the low-voltage circuit breaker can be reclosed once, the fault can be automatically recovered in a short time. Therefore, the embodiment of the present utility model provides an electricity service system, including a low-voltage circuit breaker and a communication management machine installed on the low-voltage line. The module sends it to the application server, and the application server receives the data through the second wireless communication module, processes the data, obtains the circuit breaker instruction information, and sends the circuit breaker instruction information to the low-voltage circuit breaker through the third wireless communication module, and the low-voltage circuit breaker receives After receiving the instruction information of the circuit breaker, a reclosing is carried out, so that the line automatically recovers from the fault in a short time. Furthermore, since the power service system is generally built in the central office, and the low-voltage line power distribution terminal has no available optical fiber or network channel, a two-way communication link can be established through wireless communication to solve the problem of Deficiencies in the absence of usable fiber optic or network channels at the distribution terminals of low-voltage lines.

Also referring to FIG. 3 , further, a power distribution measurement and control device is connected between the isolated network segment driver and the low-voltage circuit breaker. The power distribution measurement and control devices are shown as 191-192 in FIG. 3 .

Further, the low-voltage circuit breaker in FIG. 3 may be a low-voltage circuit breaker 121 with an electric operating mechanism and a CT/PT current transformer/voltage transformer.

Further, the low-voltage circuit breaker in FIG. 3 may be a low-voltage circuit breaker 122 with an energy storage electric operating mechanism and a CT/PT current transformer/voltage transformer.

Further, the low-voltage circuit breaker 123 in FIG. 3 may be an intelligent low-voltage circuit breaker.

Further, if there are two or more isolated network segment drivers, the isolated network segment drivers are connected through the RS485 bus. In addition, the communication management machine can also be replaced by an RS485 terminal server.

Further, the communication management machine and the isolated network segment driver are powered by the power supply.

Those skilled in the art can understand that the accompanying drawing is only a schematic diagram of a preferred embodiment, and the modules in the accompanying drawing are not necessarily necessary for implementing the utility model.

Those skilled in the art can understand that the modules in the device in the embodiment can be distributed in the device in the embodiment according to the description in the embodiment, and can also be changed and located in one or more devices different from the embodiment. The modules in the above embodiments can be combined into one module, and can also be further split into multiple sub-modules.

The above description of the disclosed embodiments enables those skilled in the art to realize or use the utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention will not be limited to these embodiments shown herein, but will conform to the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. an electricity consumption service system, is characterized in that, comprises communication processor, the first wireless communication module, the second wireless communication module, the 3rd wireless communication module, application server, low-voltage circuit breaker;

Wherein, described communication processor and described low-voltage circuit breaker are separately positioned on low-voltage circuit;

Described communication processor gathers the real time data of ammeter and switch on described low-voltage circuit, and is sent to described application server by described the first wireless communication module;

Described application server receives described data by described the second wireless communication module, and described data are processed, obtain circuit breaker command information, described circuit breaker command information is sent to described low-voltage circuit breaker by described the 3rd wireless communication module, and described low-voltage circuit breaker once overlaps after receiving described circuit breaker command information.

2. system according to claim 1, is characterized in that, also comprises:

The client being connected with described application server by gateway.

3. system according to claim 1, is characterized in that, also comprises:

At least one the separation net segment driver being connected with described communication processor;

Described separation net segment driver connects described low-voltage circuit breaker.

4. system according to claim 3, is characterized in that,

Between described separation net segment driver and described low-voltage circuit breaker, be connected distribution testing control device.

5. system according to claim 4, is characterized in that,

Described low-voltage circuit breaker is the low-voltage circuit breaker with electrically operated institution and CT/PT current transformer/voltage transformer.

6. system according to claim 4, is characterized in that,

Described low-voltage circuit breaker is the low-voltage circuit breaker with energy storage electrically operated institution and CT/PT current transformer/voltage transformer.

7. system according to claim 3, is characterized in that,

Between described separation net segment driver, connect by RS485 bus.

8. according to the system described in claim 3-7 any one, it is characterized in that,

Described communication processor, described separation net segment driver are powered by power supply.

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