CN212645641U - Photoelectric micro-displacement monitoring equipment based on finished oil pipeline site - Google Patents

Abstract

The application discloses photoelectric micro-displacement monitoring equipment based on a finished oil pipeline site, which is used for solving the technical problem that the finished oil pipeline site micro-displacement monitoring is inaccurate in a complex environment. The monitoring device includes: the photoelectric micro-displacement integrated machine is internally provided with photoelectric micro-displacement equipment and an intelligent monitoring module, the photoelectric micro-displacement equipment is used for monitoring the micro-displacement of a finished oil pipeline on site in real time, and the intelligent monitoring module is used for monitoring any one or more of the following items: whether the power supply process of the photoelectric micro-displacement equipment is normal or not, the battery power, the on-site temperature of the finished oil pipeline and the on-site humidity of the finished oil pipeline. The photoelectric micro-displacement all-in-one machine further comprises a Beidou module, and the Beidou module assists photoelectric micro-displacement equipment to detect the absolute displacement of the geology of the finished oil pipeline site so as to determine the position of the geological displacement.

Description

Photoelectric micro-displacement monitoring equipment based on finished oil pipeline site

The technical field is as follows:

the application relates to photoelectric micro-displacement monitoring equipment based on a finished oil pipeline site.

Background art:

in recent years, with the rapid and stable growth of the economy of China and the vigorous development of the petroleum industry, the pipeline construction engineering of China is rapidly developed. The important energy pipelines form an oil and gas pipe network pattern crossing east and west, passing north and south and communicating overseas in China, and inevitably cross various complex geological environments due to the fact that the pipelines have the characteristics of being long in line and wide in area, and are subjected to dangers such as traffic fatigue load, mountain landslide, pressure occupation, illegal mining, earthquake and the like. The existing system is difficult to monitor the situation because the environment of the finished oil pipeline is complex, and the whole relative translation landslide exists, so that the safety of the finished oil pipeline is influenced.

The utility model has the following contents:

the embodiment of the application provides a photoelectric micro-displacement monitoring device based on a finished oil pipeline site, adopts the photoelectric micro-displacement detection with Beidou micro-displacement assistance, realizes the real-time monitoring of geological landslide displacement of the finished oil pipeline site based on a photoelectric principle, and solves the problem that the prior art cannot accurately monitor the micro-displacement of the finished oil pipeline site in a complex environment.

On the one hand, the embodiment of the application provides on-site photoelectric micro-displacement monitoring equipment based on a finished oil pipeline. The photoelectric micro-displacement monitoring equipment comprises a photoelectric micro-displacement all-in-one machine, wherein the photoelectric micro-displacement all-in-one machine is internally provided with photoelectric micro-displacement equipment and an intelligent monitoring module, the photoelectric micro-displacement equipment is used for monitoring the micro-displacement of a finished oil pipeline in real time, and the intelligent monitoring module is used for monitoring any one or more of the following items: whether the power supply process of the photoelectric micro-displacement equipment is normal or not and the battery power quantity are monitored, and meanwhile, the on-site temperature and humidity change conditions of the finished oil pipeline are monitored. The photoelectric micro-displacement all-in-one machine further comprises a Beidou module, and the Beidou module assists photoelectric micro-displacement equipment to detect the geological absolute displacement of the finished oil pipeline on site and determine the fixed point position of the geological displacement.

In one implementation of the present application, the model of the optoelectronic micro-displacement device is SM-DL 630A.

In an implementation manner of the present application, the photoelectric micro-displacement monitoring device is powered by a solar battery.

In an implementation manner of the present application, the photoelectric micro displacement monitoring device includes a power management module, configured to distribute electric energy of a power source to different modules of the photoelectric micro displacement monitoring device, and monitor remaining battery power.

In one implementation manner of the present application, the photoelectric micro-displacement monitoring device includes a transmission module; the transmission module is used for uploading information monitored by the photoelectric micro-displacement equipment and the Beidou module to a cloud platform.

In an implementation of the application, the big dipper module is connected with big dipper antenna, big dipper antenna is used for receiving the position signal of big dipper satellite transmission.

According to the embodiment of the application, the Beidou module assists the photoelectric micro-displacement equipment to monitor, so that the positioning is more accurate, particularly, the geological transformation which cannot be accurately monitored by the existing monitoring technologies such as relative translation landslide and the like in the external environment can be effectively guaranteed, and the monitoring of the micro-displacement of the finished oil pipeline under the complex environment can be effectively guaranteed. Receiving a Beidou satellite signal through a Beidou antenna; the monitoring module can monitor the power supply, the battery capacity and the field environment information parameters of the finished oil pipeline of the photoelectric micro-displacement equipment in real time. Monitoring information can be uploaded to the platform in real time through the transmission module; the power is supplied by renewable energy solar energy, so that no pollution is caused; the power supply management module can distribute the electric quantity of the power supply battery to each module, and energy consumption of the assembly when the assembly is idle is reduced. In a word, the photoelectric micro-displacement equipment integrates a Beidou positioning terminal, can effectively monitor the absolute displacement change of the photoelectric micro-displacement host, and directly reflects the displacement of the oil-gas outlet pipeline.

Description of the drawings:

the accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a structural block diagram of an on-site photoelectric micro-displacement monitoring device based on a finished oil pipeline according to an embodiment of the present application.

The specific implementation mode is as follows:

in order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In recent years, for the transmission of petroleum energy, the pipeline construction engineering in China is continuously developed and strengthened, and the monitoring of whether the pipeline works normally is more and more important. Photoelectric micro-displacement monitoring equipment in the prior art is easily interfered by the external environment, often causes abnormal work of a photoelectric module, and cannot monitor the problem of geological landslide displacement.

The photoelectric micro-displacement monitoring equipment based on the finished oil pipeline site conducts auxiliary monitoring through Beidou equipment, transmits monitoring information to a cloud platform, and solves the problem of inaccurate monitoring.

The technical solutions proposed in the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Fig. 1 is a structural block diagram of an on-site photoelectric micro-displacement monitoring device based on a finished oil pipeline according to an embodiment of the present application.

As shown in fig. 1, the photoelectric micro-displacement monitoring device includes a power module 1, a detection module 2 and a transmission module 3.

In an embodiment of the application, the photoelectric micro-displacement device works in an external environment, the photoelectric micro-displacement device 6 and the Beidou module 8 of the detection module 2 monitor the field environment of the finished oil pipeline in real time, the photoelectric micro-displacement device 6 adopts a photoelectric principle to monitor based on a transverse photoelectric effect, and the geological displacement is measured according to the light flux blocked by the geological environment of the detected pipeline field. The Beidou module 8 is used for assisting photoelectric micro-displacement equipment to monitor absolute displacement.

For example: when geological landslide displacement appears on the finished oil pipeline site, only relying on the existing photoelectric micro-displacement equipment possibly cannot monitor, the photoelectric micro-displacement monitoring equipment in the embodiment of the application, the Beidou module 8 in the detection module 2 and the photoelectric micro-displacement equipment 6 monitor together.

In an embodiment of the application, the photoelectric micro-displacement device 6 monitors geological displacement in real time based on the photoelectric principle, and simultaneously the Beidou antenna 9 continuously receives position signals transmitted by the Beidou satellite. The Beidou module 8 determines the displacement position through the position signal received by the Beidou antenna 9, and transmits the positioning information to the intelligent monitoring module 7. The intelligent monitoring module 7 is connected with the transmission module 3, and the wireless communication device of the transmission module 3 uploads the fixed point position information monitored by the Beidou module 8 and the geological displacement information monitored by the photoelectric micro-displacement equipment 6 to the cloud platform together.

Because geological landslide can lead to vertical direction and horizontal direction to change simultaneously, this application embodiment adopts photoelectricity micro displacement equipment 6 to obtain the change data of geological vertical direction through the line monitoring mode. And the Beidou module 8 is used for assisting photoelectric micro-displacement equipment to monitor the geological landslide in the horizontal direction, so that horizontal displacement data are obtained. Therefore, the photoelectric micro-displacement device 6 and the Beidou module 8 obtain absolute displacement information, the absolute displacement information is compared with information prestored in a database in the cloud platform, and the change state of the pipeline field environment can be accurately known. Therefore, the condition that the oil gas pipeline takes place the displacement is directly reflected through the absolute displacement change of monitoring photoelectricity micro displacement host computer to this application embodiment.

In one embodiment of the present application, the transmission module 3 comprises a wireless communication device. The wireless communication device can upload geological displacement change data monitored by the detection module 2 to the cloud platform, and can give an early warning to the change of the site environment of the finished oil pipeline. Meanwhile, the intelligent monitoring module 7 monitors whether the power supply process of the photoelectric micro-displacement device 6 is normal or not, the battery power and the temperature and humidity of the pipeline site, and uploads the power to the cloud platform in real time through the transmission module, so that the working state of the device is effectively guaranteed.

In one embodiment of the present application, in order to ensure that the monitoring device can work in the field for a long time, the power module 1 of the device comprises a solar cell 4 and a power management module 5. One end of the power management module is connected with the battery, and the other end of the power management module is connected with the detection module. The power management module distributes the electric quantity of the power supply battery to each module, so that the average distribution of power consumption can be realized, the power supply time of the battery is prolonged, and the practicability is high.

The above-described embodiments should not be construed as limiting the scope of the present application, and any alternative modifications or alterations made to the embodiments of the present application will be apparent to those skilled in the art. Those skilled in the art will appreciate that the details of the present application are not specifically described in the present application.

Claims (6)

1. A photoelectric micro-displacement monitoring device based on a finished oil pipeline site is characterized by comprising: the photoelectric micro-displacement integrated machine is internally provided with photoelectric micro-displacement equipment and an intelligent monitoring module, the photoelectric micro-displacement equipment is used for monitoring the micro-displacement of a finished oil pipeline on site in real time, and the intelligent monitoring module is used for monitoring any one or more of the following items: whether the power supply process of the photoelectric micro-displacement equipment is normal or not, the battery power, the on-site temperature of the finished oil pipeline and the on-site humidity of the finished oil pipeline;

the photoelectric micro-displacement all-in-one machine further comprises a Beidou module, and the Beidou module assists photoelectric micro-displacement equipment to detect the geological absolute displacement of the finished oil pipeline on site so as to determine the position of the geological displacement.

2. The photoelectric micro-displacement monitoring device of claim 1, wherein: the model of the photoelectric micro-displacement equipment is SM-DL 630A.

3. The photoelectric micro-displacement monitoring device of claim 1, wherein: the photoelectric micro-displacement monitoring equipment is powered by a solar cell.

4. The photoelectric micro-displacement monitoring device of claim 1, wherein: the photoelectric micro-displacement monitoring equipment comprises a power supply management module, and is used for distributing the electric energy of a power supply to different modules of the photoelectric micro-displacement monitoring equipment and monitoring the residual electric quantity of a battery.

5. The photoelectric micro-displacement monitoring device of claim 1, wherein: the photoelectric micro-displacement monitoring equipment comprises a transmission module; the transmission module is used for uploading information monitored by the photoelectric micro-displacement equipment and the Beidou module to a cloud platform.

6. The photoelectric micro-displacement monitoring device of claim 1, wherein: the Beidou module is connected with a Beidou antenna, and the Beidou antenna is used for receiving position signals transmitted by Beidou satellites.

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