CN219328428U - Side slope collapse detection system of hydroelectric power station - Google Patents

Abstract

The utility model belongs to the technical field of detection, and relates to a slope collapse detection system of a hydroelectric power station, which comprises a plurality of camera devices, a data transceiver base station, a monitoring processing device and a database server, wherein the camera devices are arranged on a support frame and are used for collecting slope image data; the camera device comprises at least one camera, a first image processor, a microprocessor, a first memory and a first wireless communication module; the monitoring processing device comprises a second wireless communication module, a controller, a digital processor, a second memory, a display and a database server. According to the utility model, the high-definition camera device is deployed in the hydroelectric power station, the high-definition image data is obtained to monitor the side slope area of the hydroelectric power station, the risk of landslide and other disasters is monitored, and the collected side slope image data is compared with the standard side slope image data, so that the accuracy and the reliability are higher.

Description

Side slope collapse detection system of hydroelectric power station

Technical Field

The utility model relates to the technical field of detection, in particular to a side slope collapse detection system of a hydroelectric power station.

Background

The landslide, mud-rock flow and other geological disasters can cause the collapse of the side slope of the hydroelectric power station, the safe production operation of the hydroelectric power station is seriously threatened, the existing hydroelectric power station only has the measurement of the water level and the measurement of the horizontal displacement of the side slope, the measured water level can not observe the weak change of the collapse of the side slope before or just before the occurrence of the geological disasters, the horizontal displacement of the side slope needs to be measured by means of a measuring tool, on one hand, the installation of the measuring tool is more complicated, on the other hand, the measuring tool depends on the measuring result of a certain reference point during the measurement, after the reference point disappears, the accuracy of the measuring result is greatly reduced, the measuring error is relatively large, and the data authenticity and reliability are poor.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a slope collapse detection system of a hydroelectric power station, which comprises a plurality of camera devices, a data transceiver base station, a monitoring processing device and a database server, wherein the camera devices are arranged on a support frame and are used for collecting slope image data;

the camera device comprises at least one camera, a first image processor, a microprocessor, a first memory and a first wireless communication module;

the monitoring processing device comprises a second wireless communication module, a controller, a digital processor, a second memory, a display and a database server;

the camera is in electrical signal connection with the microprocessor through the first image processor; the microprocessor is in electrical signal connection with the memory and the first wireless communication module; the memory is used for storing the slope image data processed by the first image processor; the first wireless communication module is connected with the data transceiver base station in a network manner and is used for sending the slope image data to the second wireless communication module of the monitoring processing device;

the second wireless communication module is in electrical signal connection with the controller and is used for receiving the slope image data acquired by the camera device;

the controller is in electrical signal connection with the second memory, the display and the database server; the digital processor is electrically connected with the second memory and is used for reading and processing the slope image data acquired by the image pick-up device;

the database server is in electrical signal connection with the digital processor;

the second memory is used for storing the slope image data acquired by the camera device; the database server is used for storing reference slope image data; the digital processor is used for processing the collected slope image data and the reference slope image data; the display is used for displaying the slope image data and the reference slope image data acquired by the image pickup device.

The beneficial effects of the utility model are as follows: according to the utility model, the high-definition camera device is deployed in the hydroelectric power station, the high-definition image data is obtained to monitor the side slope area of the hydroelectric power station, the risk of landslide and other disasters is monitored, and the collected side slope image data is compared with the standard side slope image data, so that the accuracy and the reliability are higher.

On the basis of the technical scheme, the utility model can be improved as follows.

Further, the camera is a high definition pan-tilt camera.

Further, the first wireless communication module comprises a first GPRS communication module, a first RS232 interface and a first SIM card; the microprocessor is in electrical signal connection with the first GPRS communication module through the first RS232 interface; the first GPRS communication module is electrically connected with the first SIM card.

Further, the second wireless communication module comprises a second GPRS communication module, a second RS232 interface and a second SIM card; the controller is in electrical signal connection with the second GPRS communication module through the second RS232 interface; and the second GPRS communication module is electrically connected with the second SIM card.

Further, the image pickup device is arranged on the supporting frame; an infrared ranging sensor is arranged at the top of the supporting frame; the infrared ranging sensor is electrically connected with the microprocessor.

Further, the image pickup apparatus includes a housing; the camera is fixedly arranged on one side of the shell; a main board is arranged in the shell; the first image processor, the microprocessor, the first memory and the first wireless communication module are arranged on the main board; the lower part of the shell is fixedly connected with the supporting frame; a solar panel is arranged above the shell; a solar inverter controller and a storage battery are arranged in the shell; the solar panel is electrically connected with the storage battery through the solar inversion controller.

Further, a guide rail and a support plate are arranged on one side of the support frame; the guide rail is provided with a fastener; one side of the supporting plate is arranged on the guide rail through the fastening piece; the camera is fixed above the support plate.

Further, the operation table and the fixing frame of the monitoring and processing device; the display is fixed on the fixing frame; the operation desk is provided with an input key.

Drawings

FIG. 1 is a schematic diagram of a system for detecting slope collapse of a hydroelectric power station according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of an image capturing device according to an embodiment of the present utility model mounted on a support frame.

Icon: 1-a supporting frame; 2-a housing; 3-solar panels; 4-camera; 5-supporting plates; 6, a guide rail; 7-infrared ranging sensor.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Example 1

As an embodiment, as shown in fig. 1, to solve the above technical problems, the present embodiment provides a slope collapse detection system for a hydroelectric power station, which includes a plurality of camera devices disposed on a support frame for collecting slope image data, a data transceiver base station, a monitoring processing device disposed at a control station, and a database server disposed at the control station;

the camera device comprises at least one camera, a first image processor, a microprocessor, a first memory and a first wireless communication module;

the monitoring processing device comprises a second wireless communication module, a controller, a digital processor, a second memory, a display and a database server;

the camera is electrically connected with the microprocessor through the first image processor; the microprocessor is electrically connected with the memory and the first wireless communication module; the memory is used for storing the slope image data processed by the first image processor; the first wireless communication module is connected with the data transceiver base station in a network manner and is used for sending the slope image data to the second wireless communication module of the monitoring processing device;

the second wireless communication module is in electrical signal connection with the controller and is used for receiving slope image data acquired by the camera device;

the controller is in electrical signal connection with the second memory, the display and the database server; the digital processor is electrically connected with the second memory and is used for reading and processing the slope image data acquired by the image pick-up device;

the database server is in electrical signal connection with the digital processor;

the second memory is used for storing the slope image data acquired by the camera device; the database server is used for storing reference slope image data; the digital processor is used for processing the collected slope image data and the reference slope image data; the display is used for displaying the slope image data acquired by the image pickup device and the reference slope image data.

Optionally, the camera is a high definition pan-tilt camera. The high-definition image data of the side slope of the hydroelectric power station can be collected by adopting the high-definition pan-tilt camera, and the angle adjustment of the camera can be realized.

Optionally, the first wireless communication module includes a first GPRS communication module, a first RS232 interface, and a first SIM card; the microprocessor is in electrical signal connection with the first GPRS communication module through a first RS232 interface; the first GPRS communication module is electrically connected with the first SIM card. And realizing stable transmission of image data through the first GPRS communication module and the first SIM card.

Optionally, the second wireless communication module includes a second GPRS communication module, a second RS232 interface, and a second SIM card; the controller is in electrical signal connection with the second GPRS communication module through a second RS232 interface; the second GPRS communication module is electrically connected with the second SIM card. And stably acquiring image data through the second GPRS communication module and the second SIM card.

Optionally, as shown in fig. 2, the image pickup device is arranged on the support frame 1; an infrared ranging sensor 7 is arranged at the top of the supporting frame 1; the infrared distance measuring sensor 7 is electrically connected with the microprocessor.

The infrared ranging sensor 7 is used for measuring auxiliary measurement, the distance from the point position of the image pickup device to the slope is obtained, the slope is not displaced when the distance is stable, and when the distance is changed rapidly, the slope is indicated to be rapidly displaced, so that visual auxiliary detection of the slope displacement is realized.

Optionally, as shown in fig. 2, the image pickup device includes a housing 2; the camera 4 is fixedly arranged on one side of the shell 2; a main board is arranged in the shell 2; the first image processor, the microprocessor, the first memory and the first wireless communication module are arranged on the main board; the lower part of the shell 2 is fixedly connected with the support frame 1; a solar panel 3 is arranged above the shell 2; a solar inverter controller and a storage battery are arranged in the shell 2; the solar panel 3 is electrically connected with the storage battery through a solar inversion controller.

In the practical application process, the shell 2 is arranged on the support frame 1, so that the camera 4 on one side of the shell 2 is positioned at the top of the support frame 1; the solar power supply mode is adopted, and power supply equipment does not need to be installed independently.

Optionally, a guide rail and a support plate are arranged on one side of the support frame 1; the guide rail is provided with a fastener; one side of the supporting plate is arranged on the guide rail through a fastener; the camera is fixed above the supporting plate.

When the fastener is fastened, the camera device is fixed on the guide rail through the fastener; when the fastener is not fastened, the height of the camera device is adjusted, after the adjustment is completed, the fastener is fastened, and after the fastening is completed, the camera device is fixed on the guide rail through the fastener, so that the height adjustment of the camera device is realized.

Optionally, the operation table and the fixing frame of the monitoring and processing device are monitored; the display is fixed on the fixing frame; the operation desk is provided with an input key. And obtaining side slope image data at a set moment and determining the azimuth of the cradle head through an input key.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The system for detecting the slope collapse of the hydroelectric power station is characterized by comprising a plurality of camera devices, a data transceiver base station, a monitoring processing device and a database server, wherein the camera devices are arranged on a supporting frame (1) and are used for collecting slope image data, the monitoring processing device is arranged at a control station, and the database server is arranged at the control station;

the camera device comprises at least one camera (4), a first image processor, a microprocessor, a first memory and a first wireless communication module;

the monitoring processing device comprises a second wireless communication module, a controller, a digital processor, a second memory, a display and a database server;

the camera (4) is in electrical signal connection with the microprocessor through the first image processor; the microprocessor is in electrical signal connection with the memory and the first wireless communication module; the memory is used for storing the slope image data processed by the first image processor; the first wireless communication module is connected with the data transceiver base station in a network manner and is used for sending the slope image data to the second wireless communication module of the monitoring processing device;

the second wireless communication module is in electrical signal connection with the controller and is used for receiving the slope image data acquired by the camera device;

the controller is in electrical signal connection with the second memory, the display and the database server; the digital processor is electrically connected with the second memory and is used for reading and processing the slope image data acquired by the image pick-up device;

the database server is in electrical signal connection with the digital processor;

the second memory is used for storing the slope image data acquired by the camera device; the database server is used for storing reference slope image data; the digital processor is used for processing the collected slope image data and the reference slope image data; the display is used for displaying the slope image data and the reference slope image data acquired by the image pickup device.

2. The hydropower station slope collapse detection system according to claim 1, wherein the camera (4) is a high definition pan-tilt camera (4).

3. The hydropower station side slope collapse detection system according to claim 1, wherein the first wireless communication module comprises a first GPRS communication module, a first RS232 interface and a first SIM card; the microprocessor is in electrical signal connection with the first GPRS communication module through the first RS232 interface; the first GPRS communication module is electrically connected with the first SIM card.

4. The hydropower station side slope collapse detection system according to claim 1, wherein the second wireless communication module comprises a second GPRS communication module, a second RS232 interface and a second SIM card; the controller is in electrical signal connection with the second GPRS communication module through the second RS232 interface; and the second GPRS communication module is electrically connected with the second SIM card.

5. A hydropower station side slope collapse detection system according to claim 1, characterized in that the camera device is arranged on the support frame (1); an infrared ranging sensor (7) is arranged at the top of the supporting frame (1); the infrared ranging sensor (7) is electrically connected with the microprocessor.

6. A hydropower station side slope collapse detection system according to claim 1, wherein the camera means comprises a housing (2); the camera (4) is fixedly arranged at one side of the shell (2); a main board is arranged in the shell (2); the first image processor, the microprocessor, the first memory and the first wireless communication module are arranged on the main board; the lower part of the shell (2) is fixedly connected with the support frame (1); a solar panel (3) is arranged above the shell (2); a solar inverter controller and a storage battery are arranged in the shell (2); the solar panel (3) is electrically connected with the storage battery through the solar inversion controller.

7. The system for detecting the side slope collapse of a hydroelectric power station according to claim 6, wherein a guide rail (6) and a support plate (5) are arranged on one side of the support frame (1); the guide rail (6) is provided with a fastener; one side of the supporting plate (5) is arranged on the guide rail (6) through the fastening piece; the camera (4) is fixed above the support plate (5).

8. The hydropower station side slope collapse detection system according to claim 1, wherein the monitoring and processing device operation table and a fixing frame; the display is fixed on the fixing frame; the operation desk is provided with an input key.

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