CN220207887U - Centralized power transmission line weather specific load measurement system - Google Patents

Abstract

A centralized transmission line meteorological specific load measurement system, including an atmospheric temperature measurement system, a wind speed measurement system, an ice coating thickness measurement system, an overvoltage and installation maintenance status judgment device and a receiving display system, a wind speed measurement system, and an ice coating thickness measurement system The overvoltage and installation and maintenance status judgment device is installed on the transmission tower body, the atmospheric temperature measurement system and the receiving display system are installed on the ground, and the data signal is transmitted through the data wireless transmission module and the receiving display system; the utility model uses centralized measurement The calculation method calculates the comprehensive specific load of the transmission line, avoiding the time difference of parameter scattered measurement and the waste of measurement manpower, solving the problem of dynamic real-time measurement and calculation of meteorological specific load measurement of transmission lines, saving human resources and reducing safety risks.

Description

A centralized meteorological load measurement system for transmission lines

Technical field

The utility model relates to the technical field of power transmission equipment and its auxiliary equipment, and specifically relates to a centralized transmission line meteorological specific load measurement system.

Background technique

The transmission poles and towers have high structures and are widely distributed. The transmission lines installed on the transmission poles and towers are also located at a correspondingly high position. Moreover, most transmission poles and towers are located in areas with harsh environments, which makes it difficult to measure the parameters of meteorological conditions. In addition, due to the large number of parameters to be measured in meteorological conditions and the constant changes in natural meteorological conditions, multiple rapid and simultaneous manual measurements will bear greater personnel safety risks and human resource costs.

Therefore, a centralized transmission line meteorological specific load measurement system is needed to conduct centralized measurement of meteorological parameters, thereby accurately and quickly obtaining the calculation of each parameter value and meteorological specific load, greatly saving human resources and reducing safety risks.

Contents of the invention

The technical problem to be solved by this utility model is to provide a centralized transmission line meteorological specific load measurement system, which uses a centralized measurement method to avoid the time difference of parameter dispersion measurement and the waste of measurement manpower, and solves the problem of dynamic real-time meteorological specific load measurement of transmission lines. Measure calculation problems, save human resources and reduce safety risks.

In order to solve the above technical problems, the technical solution adopted by this utility model is:

A centralized transmission line meteorological specific load measurement system, which includes an atmospheric temperature measuring device. The output end of the temperature measuring device of the atmospheric temperature measuring device is connected to the input end of a temperature data storage module. The output end of the temperature data storage module is connected to the temperature data. The input end of the wireless transmission module is connected; the output end of the three-cup anemometer in the wind load measurement system is connected to the input end of the wind load data storage module, and the output end of the wind load data storage module is connected to the wind load data wireless transmission module; covering The output end of the ice coating distance sensor in the ice thickness measurement system is connected to the input end of the distance data storage module, and the output end of the distance data storage module is connected to the distance data wireless transmission module; the voltage wave recording in the overvoltage and installation maintenance status monitoring device is The output end of the instrument is connected to the input end of the status data storage module, and the output end of the status data storage module is connected to the input end of the status data wireless transmission module; the output end of the wireless receiving module in the receiving and display system is connected to the input end of the data processing module. , the output end of the data processing module is connected to the display screen; the temperature data wireless transmission module, wind load data wireless transmission module, distance data wireless transmission module and status data wireless transmission module transmit the data to the wireless receiver in the receiving display system by sending wireless signals. receiving module.

The atmospheric temperature measuring device consists of a temperature measuring device, a temperature data storage module and a temperature data wireless transmission module. The temperature measuring device, temperature data storage module and temperature data wireless transmission module are connected through signal lines. The entire atmospheric temperature measuring device is placed above the ground. Inside the louver box at a certain height.

The wind load measurement system includes a three-cup wind direction anemometer, a wind load data storage module and a wind load data wireless transmission module. Each part is connected through a signal line. The wind load measurement system is placed near the top of the tower to avoid obstructions and is fixed through the bottom plate. Three of the wind direction and anemometers need to be placed vertically and in a fixed direction.

The ice coating thickness measurement system includes an ice coating distance sensor, a distance data storage module and a distance data wireless transmission module. The ice coating distance sensor, distance data storage module and distance data wireless transmission module are connected through signal lines. The ice coating thickness measurement system is placed on On the tower body between the transmission line conductors and the overhead ground wire, the direction of the ice covering distance sensor is consistent with the direction of the transmission line.

The overvoltage and installation and maintenance status monitoring device includes a voltage wave recorder, a status data storage module and a status data wireless transmission module. The voltage wave recorder, status data storage module and status data wireless transmission module are connected through equipment cables; overvoltage and The installation and maintenance status monitoring device is placed on the tower body, and the voltage wave recorder is connected to the overhead ground wire and the tower body through two wires.

The receiving display system is an integrated device, including a wireless receiving module, a data processing module and a display screen. The wireless receiving module is located at the top of the receiving display system, the display screen is located on the side of the receiving display system, and the data processing module is located inside the receiving display system. The receiving and display system is placed on the ground at the smallest spatial distance from the atmospheric temperature measuring device, wind load measuring system, ice thickness measuring system and overvoltage and installation and maintenance status monitoring device.

Compared with the existing technology, the utility model has the following technical effects:

1) By adding wireless transmission and reception modules to the atmospheric temperature measurement system, wind speed measurement system, ice thickness measurement system, overvoltage and installation maintenance status judgment device and receiving display system, various installation problems on the tower and between devices are avoided. Connections are made everywhere to enhance the accuracy of device measurement and reduce the difficulty and complexity of fixed maintenance of the device;

2) The atmospheric temperature measurement system, wind speed measurement system, icing thickness measurement system and overvoltage and installation maintenance status judgment device can measure meteorological specific load parameters at the same time, reducing the labor expenditure and time consumption of traditional manual measurement to reduce Risks of working in complex natural environments and working at high altitudes during parameter measurement;

3) The parameter data storage module of the atmospheric temperature measurement system, wind speed measurement system, ice coating thickness measurement system and overvoltage and installation and maintenance status judgment device can record and store parameters in real time and transmit them to the data processing module through a wireless transmission device, and then through The receiving and display system automatically processes data and calculates the meteorological load of the transmission line. The recorded data is more accurate, timely and detailed, which improves the efficiency of the entire meteorological load collection and calculation project.

Description of drawings

The utility model will be further described below in conjunction with the accompanying drawings and examples:

Figure 1 is a system structural block diagram of the present utility model;

Figure 2 is an overall schematic diagram of the system of the present utility model;

Figure 3 is a schematic diagram of the wind load measurement system of the present utility model;

Figure 4 is a schematic diagram of the ice coating thickness measurement system of the present invention.

Detailed ways

As shown in Figures 1 to 4, a centralized transmission line meteorological specific load measurement system includes an atmospheric temperature measurement device 1, a wind load measurement system 2, an ice thickness measurement system 3, a receiving display system 4, and a temperature measurement device 5. Overvoltage and installation and maintenance status monitoring device 6. Temperature data storage module 7. Temperature data wireless transmission module 8. Display screen 9. Data processing module 10. Wireless receiving module 11. Three-cup wind direction anemometer 12. Wind load data storage Module 13, wind load data wireless transmission module 14, ice covering distance sensor 15, distance data storage module 16, distance data wireless transmission module 17, blind box 18, voltage wave recorder 19, status data storage module 20, status data wireless transmission Module 21;

The output end of the temperature measuring device 5 of the atmospheric temperature measuring device 1 is connected to the input end of the temperature data storage module 7, and the output end of the temperature data storage module 7 is connected to the input end of the temperature data wireless transmission module 8; in the wind load measurement system 2 The output end of the three-cup wind direction anemometer 12 is connected to the input end of the wind load data storage module 13, and the output end of the wind load data storage module 13 is connected to the wind load data wireless transmission module 14; the ice coating distance in the ice coating thickness measurement system 3 The output end of the sensor 15 is connected to the input end of the distance data storage module 16, and the output end of the distance data storage module 16 is connected to the distance data wireless transmission module 17; the output of the voltage wave recorder 19 in the overvoltage and installation and maintenance status monitoring device 6 The terminal is connected to the input terminal of the status data storage module 20, the output terminal of the status data storage module 20 is connected to the input terminal of the status data wireless transmission module 21; the output terminal of the wireless receiving module 11 in the receiving display system 4 is connected to the data processing module 10 The input end of the data processing module 10 is connected to the display screen 9; the temperature data wireless transmission module 8, the wind load data wireless transmission module 14, the distance data wireless transmission module 17 and the status data wireless transmission module 21 send wireless signals by The data is transmitted to the wireless receiving module 11 in the receiving and display system 4 .

The atmospheric temperature measuring device 1 is composed of a temperature measuring device 5 of model AMB200, a temperature data storage module 7 of model DH2600NAS, and a temperature data wireless transmission module 8 of model DTD418M. The temperature measuring device 5, the temperature data storage module 7 and the temperature data wireless transmission module 8 rooms are connected through signal lines. The entire atmospheric temperature measuring device 1 is placed in a shutter box 18 at a certain height from the ground. The shutter box 18 is placed in an open space three times the height of the tower;

The wind load measurement system 2 includes a model DBM620 three-cup wind direction anemometer 12, a model DH2600NAS wind load data storage module 13, and a model DTD418M wind load data wireless transmission module 14. Each part is connected through a signal line, and the wind load measurement system 2 is placed Near the top of the tower, avoid obstructions and fix it through the bottom plate. The three-cup wind direction and anemometer 12 must be placed vertically and fixed in the direction.

The ice coating thickness measurement system 3 includes an ice coating distance sensor 15 of model LK-H008, a distance data storage module 16 of model DH2600NAS, and a distance data wireless transmission module 17 of model DTD418M. The ice coating distance sensor 15, distance data storage module 16 and distance The data wireless transmission modules 17 are connected through signal lines. The ice coating thickness measurement system 3 is placed on the iron tower between the transmission line conductors and the overhead ground wires. The direction of the ice coating distance sensor 15 is consistent with the direction of the transmission line.

The overvoltage and installation maintenance status monitoring device 6 includes a voltage wave recorder 19 of model PS500, a status data storage module 20 of model DH2600NAS, and a status data wireless transmission module 21 of model DTD418M. The voltage wave recorder 19, status data storage module 20 and The status data wireless transmission modules 21 are connected through equipment cables; the overvoltage and installation and maintenance status monitoring device 6 is placed on the tower body, and the voltage wave recorder 19 is connected to the overhead ground wire and the tower body through two wires.

The receiving and display system 4 is an integrated device, including a DTD120HFC wireless receiving module 11, a data processing module 10 of model CS1237 and a display screen 9 of model MCGS. The wireless receiving module 11 is located at the top of the receiving display system 4, and the display screen 9 is located at the receiving end. On the device side of the display system 4, the data processing module 10 is located inside the receiving display system 4. The receiving display system 4 is placed at a distance from the atmospheric temperature measuring device 1, the wind load measuring system 2, the ice thickness measuring system 3 and the overvoltage and installation maintenance. Condition monitoring device 6 spatial distance and the minimum point of the ground.

In this utility model, firstly, the temperature measurement system measures and records the highest temperature, lowest temperature and annual average temperature of the air; the ice coating observation device determines whether the transmission line is covered with ice and determines whether the ice coating thickness measurement system is started; the overvoltage status monitoring system monitors Whether the line generates overvoltage due to lightning weather and manual operation, and the number of times overvoltage occurs; the installation status judgment device judges whether the line is under installation and maintenance; the temperature data storage module records the temperature measurement system, ice observation device, and overvoltage status The monitoring system installs data from the maintenance status judgment device and sends the collected data to the wireless receiving module of the input display system through the temperature data wireless transmission module;

In summary, this utility model uses a centralized measurement method to avoid the time difference of dispersed measurement of parameters and the waste of measurement manpower, solves the problem of dynamic real-time measurement and calculation of meteorological specific load measurement of transmission group towers, saves human resources and reduces security risks.

Claims (6)

1. The centralized power transmission line weather specific load measurement system is characterized by comprising an atmospheric temperature measurement device (1), wherein the output end of a temperature measurement device (5) of the atmospheric temperature measurement device (1) is connected with the input end of a temperature data storage module (7), and the output end of the temperature data storage module (7) is connected with the input end of a temperature data wireless transmission module (8); the output ends of three wind direction anemometers (12) in the wind load measuring system (2) are connected with the input end of a wind load data storage module (13), and the output end of the wind load data storage module (13) is connected with a wind load data wireless transmission module (14); the output end of an icing distance sensor (15) in the icing thickness measurement system (3) is connected with the input end of a distance data storage module (16), and the output end of the distance data storage module (16) is connected with a distance data wireless transmission module (17); the output end of a voltage recorder (19) in the overvoltage and installation maintenance state monitoring device (6) is connected with the input end of a state data storage module (20), and the output end of the state data storage module (20) is connected with the input end of a state data wireless transmission module (21); the output end of a wireless receiving module (11) in the receiving display system (4) is connected with the input end of a data processing module (10), and the output end of the data processing module (10) is connected with a display screen (9); the temperature data wireless transmission module (8), the wind load data wireless transmission module (14), the distance data wireless transmission module (17) and the state data wireless transmission module (21) transmit data to the wireless receiving module (11) in the receiving display system (4) by sending wireless signals.

2. The system according to claim 1, wherein: the atmospheric temperature measuring device (1) is composed of a temperature measuring device (5), a temperature data storage module (7) and a temperature data wireless transmission module (8), the temperature measuring device (5), the temperature data storage module (7) and the temperature data wireless transmission module (8) are connected through signal lines, and the atmospheric temperature measuring device (1) is integrally placed in a shutter box (18) at a certain height from the ground.

3. The system according to claim 1, wherein: the wind load measuring system (2) comprises three wind direction anemometers (12), a wind load data storage module (13) and a wind load data wireless transmission module (14), all the parts are connected through signal lines, the wind load measuring system (2) is placed near the top end of the iron tower, shielding objects are avoided, and the wind load measuring system is fixed through a bottom plate, wherein the three wind direction anemometers (12) are required to be vertically placed and fixed.

4. The system according to claim 1, wherein: the ice coating thickness measurement system (3) comprises an ice coating distance sensor (15), a distance data storage module (16) and a distance data wireless transmission module (17), wherein the ice coating distance sensor (15), the distance data storage module (16) and the distance data wireless transmission module (17) are connected through a signal line, the ice coating thickness measurement system (3) is placed on a tower body of an iron tower in the middle of a transmission line wire and an overhead ground wire, and the direction of the ice coating distance sensor (15) is consistent with the direction of the transmission line.

5. The system according to claim 1, wherein: the overvoltage and installation overhaul state monitoring device (6) comprises a voltage oscillograph (19), a state data storage module (20) and a state data wireless transmission module (21), wherein the voltage oscillograph (19), the state data storage module (20) and the state data wireless transmission module (21) are connected through equipment connecting wires; the overvoltage and installation and maintenance state monitoring device (6) is placed at the tower body, and the voltage recorder (19) is respectively connected to the overhead ground wire and the tower body through two wires.

6. The system according to claim 1, wherein: the integrated device for receiving the display system (4) comprises a wireless receiving module (11), a data processing module (10) and a display screen (9), wherein the wireless receiving module (11) is positioned at the top end of the receiving display system (4), the display screen (9) is positioned on the side surface of the device for receiving the display system (4), the data processing module (10) is positioned in the receiving display system (4), the receiving display system (4) is placed in the position away from the atmospheric temperature measuring device (1), the wind load measuring system (2), the icing thickness measuring system (3) and the ground of the space distance and the minimum position of the overvoltage and installation maintenance state monitoring device (6).