CN215598451U - Tower footing monitoring system - Google Patents

Abstract

The utility model provides a tower footing monitoring system, which comprises a monitoring device and an upper computer, wherein the monitoring device is arranged at a set height of a tower footing and comprises a controller, a wireless transmission unit, a temperature detection unit, a vibration detection unit, an angle detection unit, an image acquisition unit and a power supply unit; the controller is connected with the temperature detection unit, the vibration detection unit, the angle detection unit and the image acquisition unit and receives corresponding data information; the controller is connected with the wireless transmission unit, and the wireless transmission unit is used for transmitting data information to the upper computer; the tower footing is effectively monitored in real time, the tower footing state data are acquired in time to deal with the emergency situation, the emergency fault disaster situation can be mastered in time, and a scheme is formulated to be managed, so that the loss caused by abnormal disasters is avoided.

Description

Tower footing monitoring system

Technical Field

The disclosure belongs to the field of power transmission line tower footing equipment, and relates to a tower footing monitoring system.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

With the rapid development of national power grid construction in recent years, line towers of power transmission lines in remote areas are often invaded by various natural disasters, such as landslide areas, debris flow areas and the like, when natural disasters occur, if affected poles and towers and lines cannot be timely and effectively determined, the problem of power supply in partial areas is easily caused, and how to effectively monitor the tower foundation in real time is solved, and the technical problem that how to acquire the state data of the tower foundation to deal with sudden situations is obtained.

Disclosure of Invention

In order to solve the above problems, the present disclosure provides a tower footing monitoring system, which is capable of acquiring status data of a tower footing in real time, remotely transmitting the monitoring data to a server, and effectively acquiring data of an operating status of the tower footing in real time, so as to notify a technician of a line tower footing on a road section where a natural disaster easily occurs to perform a first-time processing and repairing work.

The utility model provides a tower footing monitoring system, which comprises a monitoring device and an upper computer, wherein the monitoring device is arranged at a set height of a tower footing and comprises a controller, a wireless transmission unit, a temperature detection unit, a vibration detection unit, an angle detection unit, an image acquisition unit and a power supply unit; the controller is connected with the temperature detection unit, the vibration detection unit, the angle detection unit and the image acquisition unit and receives corresponding data information; the controller is connected with the wireless transmission unit, and the wireless transmission unit is used for transmitting data information to the upper computer.

As an embodiment, the angle detection unit comprises a rotary encoder and a standard rod, one end of the standard rod is rotatably installed on a tower through a rotating shaft, and the other end of the standard rod is suspended; and the detection end of the rotary encoder is connected with the rotating shaft. The angle detection unit further comprises a shell, and an encoder and a standard rod are arranged in the shell. The rotary encoder is installed on one side of the tower foundation through the fixed support, and the controller receives and collects pulse signals of the rotary encoder through the data transmission line. The image acquisition unit comprises a camera, the camera is connected with the controller, and the camera is installed at the top of the tower footing or the side surface of the tower footing at a set height.

As another embodiment, the power supply unit includes a power generation module and a power supply module, the power generation module is connected to the power supply module, the power generation module uses a solar panel to generate power, and the power supply module uses a storage battery to store and supply electric energy. The vibration detection unit comprises a vibration sensor, and the vibration sensor is installed at a measuring point of the tower footing. The vibration sensor comprises a cover plate, a sensor main body and an antenna which are connected in sequence. The temperature detection unit comprises a temperature sensor, and the temperature sensor is installed at a measuring point of the tower footing. The wireless transmission unit adopts Bluetooth to perform wireless transmission.

Compared with the prior art, this disclosure possesses following beneficial effect:

the tower footing monitoring system comprises a monitoring device and an upper computer, wherein the monitoring device is installed at a set height of a tower footing and comprises a controller, and the controller is connected with a temperature detection unit, a vibration detection unit, an angle detection unit and an image acquisition unit and receives corresponding data information; the controller is connected with the wireless transmission unit, and the wireless transmission unit is used for transmitting data information to the host computer, carries out effectual real-time supervision to the tower footing to and obtain tower footing state data in time and deal with the proruption situation, can in time master the proruption trouble calamity condition, and the scheme is administered in the formulation, thereby avoids the loss that abnormal disasters brought.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

FIG. 1 is a schematic view of an installation configuration of a tower foundation monitoring system of the present disclosure;

FIG. 2 is a schematic diagram of the internal structure of the tower footing detection system of the present disclosure;

100, a monitoring device; 110. a controller; 120. a wireless transmission unit; 130. a temperature detection unit; 140. a vibration detection unit; 150. an angle detection unit; 160. an image acquisition unit; 200. a power supply unit; 210. a power generation module; 220. a power supply module; 300. and (4) an upper computer.

Detailed Description

The present disclosure is further described with reference to the following drawings and examples.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

As shown in fig. 1, the present embodiment provides a tower footing monitoring system, which includes a monitoring device, the monitoring device is installed at a set height of a tower footing through a bracket, the monitoring device has a plurality of detection sensors, and detection heads of the sensors are connected to detection points of the tower footing; the monitoring device is connected with the upper computer through the wireless transmission unit, the upper computer is used for transmitting data to the centralized control center, and an operator can remotely process monitoring data of the monitoring device through the remote management holder. The monitoring device comprises a controller, a wireless transmission unit, a temperature detection unit, a vibration detection unit, an angle detection unit, an image acquisition unit and a power supply unit; the controller is respectively connected with the temperature detection unit, the vibration detection unit, the angle detection unit and the image acquisition unit in a one-way mode through data cables and receives corresponding data information; the controller is connected with the wireless transmission unit in a bidirectional mode; and the upper computer establishes bidirectional connection with the controller, thereby realizing the transmission and the reception of corresponding data information.

As an implementation manner, the wireless transmission unit performs wireless transmission by using bluetooth, and specifically, the wireless transmission unit includes a sending end and a receiving end, the sending end includes a first wireless transmission unit, and the first wireless transmission unit is connected to a first antenna; the first wireless transmission unit is also connected with a first frequency modulation module, and the transmission frequency of the wireless signal is adjusted according to the instruction transmitted by the second wireless transmission unit; the receiving end comprises a second wireless transmission unit, the second wireless transmission unit is connected with a second antenna, and the second antenna receives the transmitted Bluetooth signal.

As an embodiment, the temperature detection unit comprises a temperature sensor and a detection line, the temperature sensor is installed at a measuring point of the tower footing through the detection line, the temperature sensor is used for collecting temperature data at the measuring point of the tower footing, and when a fire or a short circuit occurs, the temperature rise can be effectively acquired through the temperature detection unit and transmitted to the management cloud deck through the upper computer, so that necessary measures can be taken when the situation is known at the first time.

As an implementation mode, the vibration detecting unit includes the vibration sensor, and the vibration sensor is installed in the survey point department of column foot, and the vibration sensor includes sensor main part, apron, antenna, connecting block, upper portion semicircle pillar sleeve pipe, lower part semicircle pillar sleeve pipe and side flange, there is sensor control chip in the sensor main part, there is the apron at sensor main part top, the antenna lower part is fixed in wireless vibration sensor main part one side through the mount, there is the connecting block sensor main part bottom, upper portion semicircle pillar sleeve pipe transversely places, the connecting block bottom links to each other with upper portion semicircle pillar sleeve pipe middle part top, upper portion semicircle pillar sleeve pipe and lower part semicircle pillar sleeve pipe both sides respectively have a side flange and link to each other through the connecting piece. Wherein, the measuring points of the tower footing are respectively arranged on the side surface of the tower footing, the bottom end of the tower footing and the top end of the tower footing.

As an embodiment, the angle detection unit comprises a rotary encoder, a standard rod and a shell, wherein the encoder and the standard rod are arranged in the shell; one end of the standard rod is rotatably arranged on the tower through a rotating shaft, and the other end of the standard rod is suspended in the air; the detection end of the rotary encoder is connected with the rotating shaft, and in order to reduce the influence of wind power on the standard rod, a wind shielding shell is arranged outside the standard rod. And the rotary encoder is arranged on one side of the tower foundation through the fixed support, the controller receives and collects pulse signals of the rotary encoder through the data transmission line, and the rotary encoder is a device which is connected to the rotating shaft and rotates along with the shaft to output signals.

As an implementation mode, the image acquisition unit comprises a camera, the camera is connected with the controller, the camera is used for acquiring image data and transmitting the data to an upper computer, and the camera can be installed at the top of the tower footing or the side surface of the tower footing at a set height.

As an embodiment, the power supply unit comprises a power generation module and a power supply module, wherein the power generation module can generate power by adopting a solar cell panel or a wind driven generator so as to ensure the energy supply of equipment in remote mountainous areas; the power supply module can store and supply power to electric energy by adopting a storage battery, and is connected with the controller, the wireless transmission unit, the temperature detection unit, the vibration detection unit, the angle detection unit and the image acquisition unit through the storage battery to supply point energy to each unit.

Although the present disclosure has been described with reference to specific embodiments, it should be understood that the scope of the present disclosure is not limited thereto, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit and scope of the present disclosure.

Claims (10)

1. A tower footing monitoring system is characterized by comprising a monitoring device and an upper computer, wherein the monitoring device is installed at a set height of a tower footing and comprises a controller, a wireless transmission unit, a temperature detection unit, a vibration detection unit, an angle detection unit, an image acquisition unit and a power supply unit; the controller is connected with the temperature detection unit, the vibration detection unit, the angle detection unit and the image acquisition unit and receives corresponding data information; the controller is connected with the wireless transmission unit, and the wireless transmission unit is used for transmitting data information to the upper computer.

2. The tower footing monitoring system of claim 1, wherein the angle detection unit comprises a rotary encoder and a standard rod, one end of the standard rod is rotatably mounted on the tower through a rotating shaft, and the other end of the standard rod is suspended; and the detection end of the rotary encoder is connected with the rotating shaft.

3. The tower footing monitoring system of claim 2, wherein the angle detection unit further comprises a housing in which the encoder and the reference bar are disposed.

4. The tower footing monitoring system of claim 2, wherein the rotary encoder is mounted on one side of the tower footing by a fixed bracket, and the controller receives and collects pulse signals of the rotary encoder through a data transmission line.

5. The tower footing monitoring system of claim 1, wherein the image acquisition unit comprises a camera, the camera is connected with the controller, and the camera is installed at a set height on the top of the tower footing or on the side of the tower footing.

6. The tower footing monitoring system of claim 1, wherein the power supply unit comprises a power generation module and a power supply module, the power generation module is connected with the power supply module, the power generation module uses a solar panel to generate power, and the power supply module uses a storage battery to store and supply electric energy.

7. The tower footing monitoring system of claim 1, wherein the vibration detection unit includes a vibration sensor mounted at a survey point of the tower footing.

8. The tower footing monitoring system of claim 1, wherein the vibration sensor comprises a cover plate, a sensor body, and an antenna connected in series.

9. The tower footing monitoring system of claim 1, wherein the temperature detection unit comprises a temperature sensor mounted at a measurement point of the tower footing.

10. The tower footing monitoring system of claim 1, wherein the wireless transmission unit uses bluetooth for wireless transmission.

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