CN103559786A - Monitoring method and system for transformer station - Google Patents

Abstract

The invention discloses a monitoring method and a monitoring system for a transformer station. The method comprises the following steps that: communication connection between an embedded server and a transformer station on-site acquisition apparatus is established; the embedded server receives transformer station on-site data from the transformer station on-site acquisition apparatus; and the embedded server sends the received transformer station on-site data to a predefined user terminal and/or server. According to embodiments of the invention, the embedded server receives the transformer station on-site data from the transformer station on-site acquisition apparatus and then sends the received transformer station on-site data to the predefined user terminal and/or server; so the received transformer station on-site data can be sent to the user terminal and/or server in time, thereby improving reliability of monitoring.

Description

A kind of supervisory control of substation method and system

Technical field

The present invention relates to monitoring field, specially refer to a kind of supervisory control of substation method and system.

Background technology

In recent years, the security protection application that makes transformer station along with enlarging and the dilatation of electrical network also comes into one's own gradually.Under substation, because the various electrical equipments of transformer station have dissipation of heat when working, but higher temperature may make equipment be damaged or security incident occurs, therefore need to monitor temperature in transformer station, again for example, air humidity is large in other words in extreme weather conditions Xia， transformer stations such as heavy rains, may to occur seeping phenomenon, may make the device damage in substation or reduce its serviceable life.In the prior art, by environmental detection sensor, substation is detected, by the main frame arranging in transformer station, each monitor data is shown, the main frame that people can only arrange in transformer station is checked each monitor data, this main frame can be not initiatively transmission monitor data to user terminal, make user terminal can not understand in time each monitor data of transformer station.

Summary of the invention

Fundamental purpose of the present invention, for a kind of supervisory control of substation method and system are provided, is intended to improve the reliability of supervisory control of substation.

The invention provides a kind of supervisory control of substation method, the method comprises:

Embedded server and substation field harvester establish a communications link;

Embedded server receives substation field data from described substation field harvester;

Embedded server sends to predetermined user terminal and/or server by the substation field data of reception.

Preferably, the step that described embedded server receives substation field data from described substation field harvester comprises:

The substation field data acquisition instruction of sending from predetermined user terminal and/or server is detected and received to described embedded server, the substation field data acquisition instruction that response receives, gathers substation field data to control substation field harvester;

Described embedded server receive that described substation field harvester feeds back substation field data.

Preferably, described embedded server is after described substation field harvester receives the step of substation field data, and the method also comprises:

Embedded server is preserved the substation field data that receive, and to described substation field data analysis, judges whether described substation field data are more than or equal to default alarming threshold value;

If described substation field data are more than or equal to default alarming threshold value, described embedded server is sent to predetermined user terminal and/or server by described substation field data.

Preferably, if described substation field data are more than or equal to default alarming threshold value, the step that described embedded server is sent to predetermined user terminal by described substation field data comprises:

If described substation field data are more than or equal to default alarming threshold value, described embedded server sends image acquisition instruction to substation field image collecting device, so that described substation field image collecting device obtains the image information that unusual condition scene occurs;

Described embedded server receives the image information at the generation unusual condition scene of described substation field image collecting device transmission, and the image information at described generation unusual condition scene is sent to predetermined user terminal and/or server together with substation field data.

Preferably, the method also comprises:

When described embedded server detects the control information of the operation interface input that user terminal provides by described embedded server, described control information is sent to substation field control device, so that described substation field control device carries out corresponding adjusting to substation.

The present invention also provides a kind of monitoring system of electric substation, and described system comprises embedded server, and described embedded server comprises: communication module, the acquisition module being connected with described communication module, the control module being connected with described acquisition module; Wherein:

Described communication module is for establishing a communications link with substation field harvester;

Described acquisition module is for receiving substation field data from described substation field harvester;

Described control module is for sending to predetermined user terminal and/or server by the substation field data of reception.

Preferably, described acquisition module comprises detecting unit, the response unit being connected with described detecting unit, the acquiring unit being connected with described response unit; Wherein:

Described detecting unit is for detecting and receive the substation field data acquisition instruction of sending from predetermined user terminal and/or server;

Described response unit responds the substation field data acquisition instruction that described detecting unit receives, and to control substation field harvester, gathers substation field data;

Described acquiring unit is for receiving the substation field data that described substation field harvester feeds back.

Preferably, described embedded server also comprises memory module, and described memory module is connected with described acquisition module, and described control module comprises judging unit and is connected transmitting element with described judging unit;

Described memory module is for preserving the substation field data of reception;

Described judging unit, for to substation field data analysis, judges whether described substation field data are more than or equal to default alarming threshold value;

Described transmitting element is for when the described substation field data of judgment result is that of described judging unit are more than or equal to default alarming threshold value, by described substation data be sent to predetermined user terminal and/server.

Preferably, described transmitting element is also for when the described substation field data of judgment result is that of described judging unit are more than or equal to default alarming threshold value, to described substation field image collecting device, send image acquisition instruction, so that described substation field image collecting device obtains the image information that sends unusual condition scene;

Described acquiring unit is also for receiving the image information at the generation unusual condition scene of described substation field image collecting device transmission;

Described transmitting element also for being sent to predetermined user terminal and/or server by the image information at described generation unusual condition scene together with substation field data.

Preferably, described transmitting element is also for when detecting the control information of the operation interface input that user terminal provides by described embedded server, described control information is sent to substation field control device, so that described substation field control device carries out corresponding adjusting to substation.

Implement supervisory control of substation method and system of the present invention, embedded server receives substation field data from described substation field harvester, then the substation field data of reception are sent to predetermined user terminal and/or server; The substation field data of reception can be sent to user terminal and/or server in time, improve the reliability of monitoring.

Accompanying drawing explanation

Fig. 1 is the first embodiment schematic flow sheet of supervisory control of substation method of the present invention;

Fig. 2 is the detailed process schematic diagram of step S20 in the first embodiment of supervisory control of substation method of the present invention;

Fig. 3 is the second embodiment schematic flow sheet of supervisory control of substation method of the present invention;

Fig. 4 is the detailed process schematic diagram of step S50 of the second embodiment of supervisory control of substation method of the present invention;

Fig. 5 is the first example structure schematic diagram of monitoring system of electric substation of the present invention;

Fig. 6 is the detailed structure schematic diagram of acquisition module in the first embodiment of monitoring system of electric substation of the present invention;

Fig. 7 is the second example structure schematic diagram of monitoring system of electric substation of the present invention.

The realization of the object of the invention, functional characteristics and advantage, in connection with embodiment, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

With reference to Fig. 1, Fig. 1 is the first embodiment schematic flow sheet of the supervisory control of substation method of invention, and the method comprises:

S10, embedded server and substation field harvester establish a communications link.

This substation field harvester comprises a plurality of sensors, is arranged on temperature sensor, the humidity sensor of each check point as comprised.

In this step S10, embedded server and substation field harvester are established a communications link, as connected by wired or wireless mode, as can be this embedded server and substation field harvester connected by CAN bus, also can this embedded server and substation field harvester be connected by wireless network.

S20, embedded server receive substation field data from this substation field harvester.

In this step S20, embedded server receives substation field data, the temperature data that substation field harvester gathers as received, humidity data etc.

S30, embedded server send to predetermined user terminal and/or server by the substation field data of reception.

This predetermined user terminal and/or server are user terminal and/or the server that need to check these substation field data, user terminal as predetermined in this is terminal A, illustrate that this terminal A need to receive substation field data, to understand situation ，Dui transformer station of transformer station, monitor.

In this step S30, the embedded server substation data by reception real-time or timing sends to predetermined user terminal and/or server, this embedded server can send to predetermined user terminal and/or server by the substation field data of reception by internet or cordless communication network, as sent by the mode of note or mail.

Adopt above-described embodiment, can receive each data that substation field harvester gathers by embedded server, each data that can centralized and unified management harvester gather, improve the high efficiency gathering, and this embedded server by the substation field data of reception in real time or regularly send to predetermined user terminal and/or server, can make this predetermined user terminal and/or server obtain timely each data that substation field harvester gathers, improve the reliability of monitoring.

With reference to Fig. 2, Fig. 2 is the detailed process schematic diagram of step S20 in the first embodiment of the supervisory control of substation method of invention, and this step S20 comprises:

The substation field data acquisition instruction of sending from predetermined user terminal and/or server is detected and received to S21, this embedded server, the substation field data acquisition instruction that response receives, gathers substation field data to control substation field harvester.

This embedded server provides a Substation Operating interface for predetermined user terminal and/or server, this predetermined user terminal and/or server can send substation field data acquisition instruction by this Substation Operating interface, as having temperature sensor T1 at this Substation Operating interface, temperature sensor T2, humidity sensor H1, the buttons such as humidity sensor H2, when default user terminal is clicked this " temperature sensor T1 " button as user terminal A, this user terminal A has sent an instruction of obtaining the image data of temperature sensor T1 to embedded server.

In this step S21, the substation field data acquisition instruction of sending from predetermined user terminal and/or server is detected and received to this embedded server, as detect and receive user terminal A by the instruction of the image data of obtaining temperature sensor T1 clicking " temperature sensor T1 " button and send over, and response receives the instruction of the image data of obtaining temperature sensor T1, as sent acquisition instructions to this temperature sensor T1, so that this temperature sensor T1 collecting temperature data.

S22, this embedded server receive that this substation field harvester feeds back substation field data.

In this step S22, this embedded server receives the substation field data that this substation field data collector feeds back, the temperature data feeding back as received temperature sensor T1.

With reference to Fig. 3, Fig. 3 is the second embodiment schematic flow sheet of the supervisory control of substation method of invention.

The first embodiment of the supervisory control of substation method based on above-mentioned, after step S20, the method comprises:

S40, embedded server are preserved the substation field data that receive, and to this substation field data analysis, are judged that whether these substation field data are more than or equal to default alarming threshold value, if be more than or equal to, perform step S50.

This alarming threshold value can, in advance according to actual conditions setting, as the alarming threshold value of temperature sensor T1 is set to R1, be set to R2 etc. to the alarming threshold value of temperature sensor T2 the alarming threshold value of each parameter of substation field harvester collection is arranged.

In this step S40, embedded server is to the substation field data analysis receiving, judge whether these substation field data are more than or equal to default alarming threshold value, as the data analysis to the temperature sensor T1 receiving, whether the data that judge this temperature sensor T1 are more than or equal to alarming threshold value R1, when the data of this temperature sensor T1 are more than or equal to alarming threshold value R1, execution step S50.

S50, this embedded server are sent to predetermined user terminal and/or server by these substation field data.

This predetermined user terminal and/or server are user terminal and/or the server that need to check these substation field data, user terminal as predetermined in this is terminal A, illustrate that this terminal A need to receive substation field data, to understand situation ，Dui transformer station of transformer station, monitor.

In this step S50, the embedded server substation field data by being more than or equal to alarming threshold value in the substation data of reception real-time or timing send to predetermined user terminal and/or server, this embedded server can send to predetermined user terminal and/or server by the substation field data that are more than or equal to alarming threshold value in the substation field data of reception by internet or cordless communication network, as sent by the mode of note or mail.

With reference to Fig. 4, Fig. 4 is the detailed process schematic diagram of the step S50 of the second embodiment of the supervisory control of substation method of invention, and this step S50 comprises:

S51, this embedded server send image acquisition instruction to substation field image collecting device, so that this substation field image collecting device obtains the image information that unusual condition scene occurs.

In substation field, for each collection point of substation field harvester arranges a substation field image collecting device, as for collection point, temperature sensor T1 place, a camera being set, to take the residing ambient image of this temperature sensor T1.

In this step S51, this embedded server sends image acquisition instruction to substation field image collecting device, as: this embedded server sends acquisition instructions to the camera of collection point, temperature sensor T1 place, so that this camera obtains the image information that unusual condition scene occurs.

S52, this embedded server receive the image information at the generation unusual condition scene of this substation field image collecting device transmission.

S53, this embedded server are sent to predetermined user terminal and/or server by the image information at this generation unusual condition scene together with substation field data.

In this step S53, this embedded server is sent to predetermined user terminal and/or server by the image information that unusual condition scene occurs together with substation field data, can make user terminal and/or server when obtaining substation field data, can also see the image information that unusual condition scene occurs, the data of the humidity sensor H1 receiving as user terminal have been more than or equal to alarming threshold value, can also receive image scene, can contribute to user terminal to analyze this humidity sensor H1 data and be more than or equal to alarming threshold value why, as shown in image scene in the residing environment of this humidity sensor H1, ground is full of ponding, user terminal can be made analysis result very soon, and definite corresponding treatment measures, as draining, make dehumidifier etc.

Further, after step S53, the method also comprises:

When S54, this embedded server detect the control information of the operation interface input that user terminal provides by this embedded server, this control information is sent to substation field control device, so that this substation field control device carries out corresponding adjusting to substation.

In this step S54, when this embedded server detects the control information of the operation interface input that user terminal provides by this embedded server, as the control information that detects user terminal input is for opening dehumidifier, this embedded server sends to substation field control device by control information, so that dehumidifier is opened, substation is carried out to corresponding adjusting.

With reference to Fig. 5, Fig. 5 is the first example structure block diagram of the monitoring system of electric substation of invention, and this system comprises embedded server 100, and this embedded server comprises: communication module 10, the acquisition module 20 being connected with this communication module 10, the control module 30 being connected with this acquisition module 20; Wherein:

This communication module 10 is for establishing a communications link with substation field harvester;

This acquisition module 20 is for receiving substation field data from this substation field harvester;

This control module 30 is for sending to predetermined user terminal and/or server by the substation field data of reception.

This substation field harvester comprises a plurality of sensors, is arranged on temperature sensor, the humidity sensor of each check point as comprised.

This communication module 10 establishes a communications link embedded server and substation field harvester, as connected by wired or wireless mode, as can be this embedded server and substation field harvester connected by CAN bus, also can this embedded server and substation field harvester be connected by wireless network.

This acquisition module 20 receives substation field data, the temperature data that substation field harvester gathers as received, humidity data etc.

This predetermined user terminal and/or server are user terminal and/or the server that need to check these substation field data, user terminal as predetermined in this is terminal A, illustrate that this terminal A need to receive substation field data, to understand situation ，Dui transformer station of transformer station, monitor.

This control module 30 substation data by reception real-time or timing sends to predetermined user terminal and/or server, this embedded server can send to predetermined user terminal and/or server by the substation field data of reception by internet or cordless communication network, as sent by the mode of note or mail.

With reference to Fig. 6, Fig. 6 is the detailed block diagram of the acquisition module 20 of the first embodiment of the monitoring system of electric substation of invention, this acquisition module 20 comprises detecting unit 21, the response unit 22 being connected with this detecting unit 21, the acquiring unit 23 being connected with this response unit 22; Wherein:

This detecting unit 21 is for detecting and receive the substation field data acquisition instruction of sending from predetermined user terminal and/or server;

The substation field data acquisition instruction that these response unit 22 these detecting units 21 of response receive, gathers substation field data to control substation field harvester;

The substation field data that this acquiring unit 23 feeds back for receiving this substation field harvester.

This embedded server provides a Substation Operating interface for predetermined user terminal and/or server, this predetermined user terminal and/or server can send substation field data acquisition instruction by this Substation Operating interface, as having temperature sensor T1 at this Substation Operating interface, temperature sensor T2, humidity sensor H1, the buttons such as humidity sensor H2, when default user terminal is clicked this " temperature sensor T1 " button as user terminal A, this user terminal A has sent an instruction of obtaining the image data of temperature sensor T1 to embedded server.

The substation field data acquisition instruction of sending from predetermined user terminal and/or server is detected and received to this detecting unit 21, as detect and receive user terminal A by the instruction of the image data of obtaining temperature sensor T1 clicking " temperature sensor T1 " button and send over, and respond by response unit 22 instruction that receives the image data of obtaining temperature sensor T1, as sent acquisition instructions to this temperature sensor T1, so that this temperature sensor T1 collecting temperature data.

This acquiring unit 23 receives the substation field data that this substation field data collector feeds back, the temperature data feeding back as received temperature sensor T1.

With reference to Fig. 7, Fig. 7 is the second embodiment of the monitoring system of electric substation of invention.

The first embodiment based on above-mentioned monitoring system of electric substation, this embedded server also comprises memory module 40, and this memory module 40 is connected with this acquisition module 20, and this control module 30 comprises judging unit 31 and is connected transmitting element 32 with this judging unit 31;

This memory module 40 is for preserving the substation field data of reception;

This judging unit 31, for to substation field data analysis, judges whether these substation field data are more than or equal to default alarming threshold value;

This transmitting element 32 for this judging unit judgment result is that these substation field data are more than or equal to default alarming threshold value time, by this substation data be sent to predetermined user terminal and/server.

This alarming threshold value can, in advance according to actual conditions setting, as the alarming threshold value of temperature sensor T1 is set to R1, be set to R2 etc. to the alarming threshold value of temperature sensor T2 the alarming threshold value of each parameter of substation field harvester collection is arranged.

The substation field data analysis of 31 pairs of receptions of this judging unit, judge whether these substation field data are more than or equal to default alarming threshold value, data analysis as to the temperature sensor T1 receiving, judges whether the data of this temperature sensor T1 are more than or equal to alarming threshold value R1.

When this transmitting element 32 is more than or equal to default alarming threshold value for these substation field data of the judged result at this judging unit 31, real-time or the substation field data by being more than or equal to alarming threshold value in the substation data of reception are regularly sent to predetermined user terminal and/or server, this transmitting element can send to predetermined user terminal and/or server by the substation field data that are more than or equal to alarming threshold value in the substation field data of reception by internet or cordless communication network, as sent by the mode of note or mail.

Further, this transmitting element 32 also for this judging unit 31 judgment result is that these substation field data are more than or equal to default alarming threshold value time, to this substation field image collecting device, send image acquisition instruction, so that this substation field image collecting device obtains the image information that sends unusual condition scene; This acquiring unit 23 is also for receiving the image information at the generation unusual condition scene of this substation field image collecting device transmission; This transmitting element 32 also for being sent to predetermined user terminal and/or server by the image information at this generation unusual condition scene together with substation field data.

In substation field, for each collection point of substation field harvester arranges a substation field image collecting device, as for collection point, temperature sensor T1 place, a camera being set, to take the residing ambient image of this temperature sensor T1.

This transmitting element 32 sends image acquisition instruction to substation field image collecting device, as: this embedded server sends acquisition instructions to the camera of collection point, temperature sensor T1 place, so that this camera obtains the image information that unusual condition scene occurs.

This transmitting element 32 is also sent to predetermined user terminal and/or server by the image information that unusual condition scene occurs together with substation field data, can make user terminal and/or server when obtaining substation field data, can also see the image information that unusual condition scene occurs, the data of the humidity sensor H1 receiving as user terminal have been more than or equal to alarming threshold value, can also receive image scene, can contribute to user terminal to analyze this humidity sensor H1 data and be more than or equal to alarming threshold value why, as shown in image scene in the residing environment of this humidity sensor H1, ground is full of ponding, user terminal can be made analysis result very soon, and definite corresponding treatment measures, as draining, make dehumidifier etc.

Further, this transmitting element 32 is also for when detecting the control information of the operation interface input that user terminal provides by this embedded server, this control information is sent to substation field control device, so that this substation field control device carries out corresponding adjusting to substation.

When this embedded server detects the control information of the operation interface input that user terminal provides by this embedded server, as the control information that detects user terminal input is for opening dehumidifier, transmitting element 32 sends to substation field control device by control information, so that dehumidifier is opened, substation is carried out to corresponding adjusting.

This is only the preferred embodiments of the present invention above; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes instructions of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a supervisory control of substation method, is characterized in that, the method comprises:

Embedded server and substation field harvester establish a communications link;

Embedded server receives substation field data from described substation field harvester;

Embedded server sends to predetermined user terminal and/or server by the substation field data of reception.

2. method according to claim 1, is characterized in that, the step that described embedded server receives substation field data from described substation field harvester comprises:

The substation field data acquisition instruction of sending from predetermined user terminal and/or server is detected and received to described embedded server, the substation field data acquisition instruction that response receives, gathers substation field data to control substation field harvester;

Described embedded server receive that described substation field harvester feeds back substation field data.

3. method according to claim 1 and 2, is characterized in that, described embedded server is after described substation field harvester receives the step of substation field data, and the method also comprises:

Embedded server is preserved the substation field data that receive, and to described substation field data analysis, judges whether described substation field data are more than or equal to default alarming threshold value;

If described substation field data are more than or equal to default alarming threshold value, described embedded server is sent to predetermined user terminal and/or server by described substation field data.

4. method according to claim 3, it is characterized in that, if described substation field data are more than or equal to default alarming threshold value, the step that described embedded server is sent to predetermined user terminal by described substation field data comprises:

If described substation field data are more than or equal to default alarming threshold value, described embedded server sends image acquisition instruction to substation field image collecting device, so that described substation field image collecting device obtains the image information that unusual condition scene occurs;

Described embedded server receives the image information at the generation unusual condition scene of described substation field image collecting device transmission, and the image information at described generation unusual condition scene is sent to predetermined user terminal and/or server together with substation field data.

5. method according to claim 4, is characterized in that, the method also comprises:

When described embedded server detects the control information of the operation interface input that user terminal provides by described embedded server, described control information is sent to substation field control device, so that described substation field control device carries out corresponding adjusting to substation.

6. a monitoring system of electric substation, is characterized in that, described system comprises embedded server, and described embedded server comprises: communication module, the acquisition module being connected with described communication module, the control module being connected with described acquisition module; Wherein:

Described communication module is for establishing a communications link with substation field harvester;

Described acquisition module is for receiving substation field data from described substation field harvester;

Described control module is for sending to predetermined user terminal and/or server by the substation field data of reception.

7. system according to claim 6, is characterized in that, described acquisition module comprises detecting unit, the response unit being connected with described detecting unit, the acquiring unit being connected with described response unit; Wherein:

Described detecting unit is for detecting and receive the substation field data acquisition instruction of sending from predetermined user terminal and/or server;

Described response unit responds the substation field data acquisition instruction that described detecting unit receives, and to control substation field harvester, gathers substation field data;

Described acquiring unit is for receiving the substation field data that described substation field harvester feeds back.

8. according to the system described in claim 6 or 7, it is characterized in that, described embedded server also comprises memory module, and described memory module is connected with described acquisition module, and described control module comprises judging unit and is connected transmitting element with described judging unit;

Described memory module is for preserving the substation field data of reception;

Described judging unit, for to substation field data analysis, judges whether described substation field data are more than or equal to default alarming threshold value;

Described transmitting element is for when the described substation field data of judgment result is that of described judging unit are more than or equal to default alarming threshold value, by described substation data be sent to predetermined user terminal and/server.

9. system according to claim 8, it is characterized in that, described transmitting element is also for when the described substation field data of judgment result is that of described judging unit are more than or equal to default alarming threshold value, to described substation field image collecting device, send image acquisition instruction, so that described substation field image collecting device obtains the image information that sends unusual condition scene;

Described acquiring unit is also for receiving the image information at the generation unusual condition scene of described substation field image collecting device transmission;

Described transmitting element also for being sent to predetermined user terminal and/or server by the image information at described generation unusual condition scene together with substation field data.

10. system according to claim 8, it is characterized in that, described transmitting element is also for when detecting the control information of the operation interface input that user terminal provides by described embedded server, described control information is sent to substation field control device, so that described substation field control device carries out corresponding adjusting to substation.

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