CN111864907A - A method and device for collecting and sharing small hydropower energy data - Google Patents

Abstract

The invention relates to a method and device for collecting and sharing small hydropower energy data, the method comprising the steps of: setting a concentrator in a small hydropower station, and arranging a complex number corresponding to each power device in the small hydropower station for collecting the data of each power device Each collection device is connected in communication with the control cabinet in the hydropower station, and the control cabinet is connected in communication with the concentrator for data exchange; the concentrator is deployed in the power system through a wired/wireless network. The power consumption information collection system of the power grid is connected in communication and performs data exchange; a first data service platform is deployed in the power system internal network, and a second data service platform is deployed in the external network. The first data service platform and the second data service platform The second data service platform is communicatively connected with a third-party application platform and performs data interaction.

Description

A method and device for collecting and sharing small hydropower energy data

technical field

The invention relates to a method and device for collecting and sharing small hydropower energy data, and belongs to the technical field of power system data collection and sharing.

Background technique

After the current small hydropower station operation data is collected, it is directly transmitted to the power system intranet, and data analysis, viewing, and control commands are performed through the energy management module of the power system intranet. The way of viewing data through software and mobile APP is relatively backward. The staff can only work through the system in the internal network of the power system when working. Many data cannot be communicated to the staff in time, and there is still a certain distance from intelligence and practicability. .

SUMMARY OF THE INVENTION

In order to solve the problems existing in the above-mentioned prior art, the present invention provides a method and device for collecting and sharing small hydropower energy data, aiming at the problem that the operation data of small hydropower is transmitted in the internal network of a closed power system, and aims to develop a The method that can share the operation data of the small hydropower station to a third-party platform is convenient for the management and maintenance of the small hydropower station.

The technical scheme of the present invention is as follows:

Technical solution one:

A method for collecting and sharing small hydropower energy data, comprising the following steps:

A concentrator is set in the small hydropower station, and a plurality of acquisition devices for collecting data of each power equipment are arranged corresponding to each power equipment in the small hydropower station. Each of the acquisition devices is connected in communication with the control cabinet in the hydropower station. The concentrator is connected in communication and performs data interaction;

The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through a wired/wireless network and performs data exchange;

A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction;

The second data service platform communicates with the third-party application platform and performs data interaction.

Further, a firewall is set between the second data service platform and the third-party application platform.

Further, the power equipment data includes customer information, power station information, dam site information, unit information, collection device information, equipment status, electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data.

Further, the wired/wireless network includes a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable.

Technical solution two:

A device for collecting and sharing small hydropower energy data, comprising a memory and a processor, wherein the memory stores instructions, and the instructions are adapted to be loaded by the processor and perform the following steps:

A concentrator is set in the small hydropower station, and a plurality of acquisition devices for collecting data of each power equipment are arranged corresponding to each power equipment in the small hydropower station. Each of the acquisition devices is connected in communication with the control cabinet in the hydropower station. The concentrator is connected in communication and performs data interaction;

The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through wired/wireless network and performs data exchange;

A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction;

The second data service platform communicates with the third-party application platform and performs data interaction.

Further, a firewall is set between the second data service platform and the third-party application platform.

Further, the power equipment data includes customer information, power station information, dam site information, unit information, collection device information, equipment status, electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data.

Further, the wired/wireless network includes a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable.

The present invention has the following beneficial effects:

1. A method and device for collecting and sharing small hydropower energy data according to the present invention. The distributed collection of the operation data of the small hydropower station is realized through the concentrator, and the data is stored in the power system through the cooperation of the first data service platform and the second data service platform. The sharing of the internal network and the external network realizes functions such as interface invocation, data forwarding, message notification, business processing, monitoring of the operation status of small hydropower stations, and management of small hydropower stations.

2. A method and device for collecting and sharing small hydropower energy data of the present invention, all data are stored in the information intranet, and data security is guaranteed. Various services are also deployed in the planned and monitored network environment, and are not easily vulnerable to illegal attacks.

Description of drawings

FIG. 1 is a flowchart of an embodiment of the present invention.

Detailed ways

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

Referring to Figure 1, a method for collecting and sharing small hydropower energy data includes the following steps:

Set up a concentrator in the small hydropower station. The concentrator is the central management device and control device of the remote centralized meter reading system. It is responsible for regularly reading terminal data, system command transmission, data communication, network management, event recording, horizontal data transmission and other functions. , and corresponding to each power equipment in the small hydropower station, a plurality of acquisition devices for collecting the data of each power equipment are arranged, such as sensors, each of the acquisition devices is connected to the control cabinet in the hydropower station, and the control cabinet is connected through RS485 The bus is communicatively connected to the concentrator and performs data exchange; the control cabinet is deployed in the small hydropower station, and is electrically connected to the corresponding power equipment to control the power equipment.

The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through wired/wireless network and performs data exchange;

A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction;

The second data service platform communicates with the third-party application platform and performs data interaction.

In this embodiment, the first data service platform is composed of a scheduling server, an interface server, a file server, a management application server, and a database server, which can store, schedule and transmit data in the power system intranet; the second data service platform is deployed On the application server of the WeChat public account platform; in the power system intranet, the power consumption information collection system collects the power equipment data through the concentrator, and synchronizes the data to the first data service platform in real time by means of message middleware. The database server is then sent to the application server of the WeChat official account platform through the strong isolation device, and sent to the third-party application platform through the WeChat official account platform. The third-party application platform can be mobile APP, WeChat applet, WeChat official account and PC customers end and so on. All data is stored in the information intranet, no data is stored in the information extranet and the Internet, and the data is transmitted in both directions; through the cooperation of the first data service platform and the second data service platform, interface calling, data forwarding, message notification, Business processing, small hydropower station operation status monitoring, and small hydropower station management functions.

Further, a firewall is set between the second data service platform and the third-party application platform.

Further, the power equipment data includes customer information, power station information, dam site information, unit information, acquisition device information, equipment status, electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data. The abnormal alarm data is: Refers to the failure of the power grid, transformer and generator, which needs to be informed by the operation and maintenance personnel, including residual voltage failure, abnormal communication of the temperature measurement module, overload alarm, overcurrent protection alarm, etc. The fault alarm data refers to the failure of automation equipment and auxiliary equipment. , has endangered the normal operation of hydropower equipment and needs to be dealt with immediately, including the pre-opening water gate frequency is too low, automatic excitation failure, automatic quasi-synchronization failure, unstable operating frequency, etc.

Further, the wired/wireless network includes a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable.

Embodiment 2:

Referring to FIG. 1 , a device for collecting and sharing small hydropower energy data includes a memory and a processor, wherein the memory stores instructions, and the instructions are adapted to be loaded by the processor and perform the following steps:

Set up a concentrator in the small hydropower station. The concentrator is the central management device and control device of the remote centralized meter reading system. It is responsible for regularly reading terminal data, system command transmission, data communication, network management, event recording, horizontal data transmission and other functions. , and corresponding to each power equipment in the small hydropower station, a plurality of acquisition devices for collecting the data of each power equipment are arranged, such as sensors, each of the acquisition devices is connected to the control cabinet in the hydropower station, and the control cabinet is connected through RS485 The bus is communicatively connected to the concentrator and performs data exchange; the control cabinet is deployed in the small hydropower station, and is electrically connected to the corresponding power equipment to control the power equipment.

The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through wired/wireless network and performs data exchange;

A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction;

The second data service platform communicates with the third-party application platform and performs data interaction.

In this embodiment, the first data service platform is composed of a scheduling server, an interface server, a file server, a management application server, and a database server, which can store, schedule and transmit data in the power system intranet; the second data service platform is deployed On the application server of the WeChat public account platform; in the power system intranet, the power consumption information collection system collects the power equipment data through the concentrator, and synchronizes the data to the first data service platform in real time by means of message middleware. The database server is then sent to the application server of the WeChat official account platform through the strong isolation device, and sent to the third-party application platform through the WeChat official account platform. The third-party application platform can be mobile APP, WeChat applet, WeChat official account and PC customers end and so on. All data is stored in the information intranet, no data is stored in the information extranet and the Internet, and the data is transmitted in both directions; through the cooperation of the first data service platform and the second data service platform, interface calling, data forwarding, message notification, Business processing, small hydropower station operation status monitoring, and small hydropower station management functions.

Further, a firewall is set between the second data service platform and the third-party application platform.

Further, the power equipment data includes customer information, power station information, dam site information, unit information, acquisition device information, equipment status, electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data. The abnormal alarm data is: Refers to the failure of the power grid, transformer and generator, which needs to be informed by the operation and maintenance personnel, including residual voltage failure, abnormal communication of the temperature measurement module, overload alarm, overcurrent protection alarm, etc. The fault alarm data refers to the failure of automation equipment and auxiliary equipment. , has endangered the normal operation of hydropower equipment and needs to be dealt with immediately, including the pre-opening water gate frequency is too low, automatic excitation failure, automatic quasi-synchronization failure, unstable operating frequency, etc.

Further, the wired/wireless network includes a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable.

The above descriptions are only the embodiments of the present invention, and are not intended to limit the scope of the present invention. Any equivalent structure or equivalent process transformation made by using the contents of the description and drawings of the present invention, or directly or indirectly applied to other related technologies Fields are similarly included in the scope of patent protection of the present invention.

Claims (8)

1. a method for small hydropower energy data collection and sharing, is characterized in that, comprises the following steps: A concentrator is set in the small hydropower station, and a plurality of acquisition devices for collecting data of each power equipment are arranged corresponding to each power equipment in the small hydropower station. Each of the acquisition devices is connected in communication with the control cabinet in the hydropower station. The concentrator is connected in communication and performs data interaction; The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through wired/wireless network and performs data exchange; A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction; The second data service platform communicates with the third-party application platform and performs data interaction. 2 . The method for collecting and sharing small hydropower energy data according to claim 1 , wherein a firewall is set between the second data service platform and the third-party application platform. 3 . 3 . The method for collecting and sharing small hydropower energy data according to claim 1 , wherein the power equipment data includes customer information, power station information, dam site information, unit information, collection device information, and equipment status. 4 . , electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data. 4. A method for collecting and sharing small hydropower energy data according to claim 1, wherein the wired/wireless network comprises a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable. 5. A device for collecting and sharing small hydropower energy data, comprising a memory and a processor, wherein the memory stores instructions, and the instructions are adapted to be loaded by the processor and perform the following steps: A concentrator is set in the small hydropower station, and a plurality of acquisition devices for collecting data of each power equipment are arranged corresponding to each power equipment in the small hydropower station. Each of the acquisition devices is connected in communication with the control cabinet in the hydropower station. The concentrator is connected in communication and performs data interaction; The concentrator communicates and connects with the electricity consumption information collection system deployed in the internal network of the power system through wired/wireless network and performs data exchange; A first data service platform is deployed in the internal network of the power system, and a second data service platform is deployed in the external network, the first data service platform and the second data service platform are communicated and connected through a strong isolation device and perform data interaction; The second data service platform communicates with the third-party application platform and performs data interaction. 6 . The method for collecting and sharing small hydropower energy data according to claim 5 , wherein a firewall is set between the second data service platform and the third-party application platform. 7 . 7 . The method for collecting and sharing small hydropower energy data according to claim 5 , wherein the power equipment data includes customer information, power station information, dam site information, unit information, collection device information, and equipment status. 8 . , electrical quantity data, non-electrical quantity data, abnormal alarm data and fault alarm data. 8. The method for collecting and sharing small hydropower energy data according to claim 5, wherein the wired/wireless network comprises a GPRS network, a CDMA network, a 4G network, a 5G network or an optical fiber cable.

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