CN218825798U - Full-automatic oil gas pipeline stress monitoring system - Google Patents

Abstract

The application relates to a full-automatic oil and gas pipeline stress monitoring system, which comprises a strain sensing module, an alarm module, a communication module and a controller; the strain sensing module is connected with the controller and used for detecting the deformation condition of the oil and gas pipeline and sending a strain detection signal; the controller is used for receiving a strain detection signal; the alarm module is connected with the controller and used for giving an alarm; the communication module is connected with the controller and is used for receiving and transmitting information with a control center; when the strain data embodied by the strain detection signal received by the controller is larger than the data embodied by the strain threshold value preset in the controller, the controller sends out an alarm signal; and the alarm module sends out an alarm after receiving the alarm signal. This application has the effect that can avoid irrelevant personnel to be close to the oil gas pipeline that takes place to warp in order to cause bigger harm to a certain extent.

Description

Full-automatic oil gas pipeline stress monitoring system

Technical Field

The application relates to the field of oil and gas pipeline monitoring, in particular to a full-automatic oil and gas pipeline stress monitoring system.

Background

The stress monitoring of the oil and gas pipeline is a method for monitoring the safety of the oil and gas pipeline, usually, a strain gage is adopted for measurement, the strain gage is an element for measuring strain formed by a sensitive grid and the like, the working principle of the resistance strain gage is manufactured based on a strain effect, namely, when a conductor or a semiconductor material generates mechanical deformation under the action of external force, the resistance value of the conductor or the semiconductor material changes correspondingly, the oil and gas pipeline is installed when oil is conveyed underground, the oil and gas pipeline is often influenced by oil pressure and temperature, therefore, the oil and gas pipeline needs to be monitored in time, and the safety of the oil and gas pipeline is known in real time by a monitoring alarm mode.

However, the monitoring technology used commonly is only to monitor the inside of the pipeline, and cannot respond to the external environment change in time, and even if professional maintenance personnel can be informed in time when the oil gas pipeline is deformed or leaked, it is difficult to avoid that unknown passers-by are close to the oil gas pipeline to cause greater harm.

SUMMERY OF THE UTILITY MODEL

In order to avoid personnel to be close to the oil gas pipeline of revealing in order to cause bigger harm to a certain extent, this application provides a full-automatic oil gas pipeline stress monitoring system.

The application provides a full-automatic oil gas pipeline stress monitoring system adopts following technical scheme: a full-automatic oil and gas pipeline stress monitoring system comprises a strain sensing module, an alarm module, a communication module and a controller;

the strain sensing module is connected with the controller and used for detecting the deformation condition of the oil and gas pipeline and sending a strain detection signal;

the controller is used for receiving a strain detection signal;

the alarm module is connected with the controller and used for giving an alarm;

the communication module is connected with the controller and is used for receiving and transmitting information with a control center;

when the strain data embodied by the strain detection signal received by the controller is larger than the data embodied by the strain threshold value preset in the controller, the controller sends out an alarm signal;

and the alarm module sends out an alarm after receiving the alarm signal.

Through adopting above-mentioned technical scheme, strain detection module detects the oil gas pipeline and takes place deformation and send the detection signal that meets an emergency, and the controller receives the detection signal that meets an emergency, is greater than the threshold value that meets an emergency when the detection signal that meets an emergency, then controller control alarm module sends out the police dispatch newspaper, can avoid personnel to be close to the oil gas pipeline that takes place the deformation in order to cause bigger harm to a certain extent.

Optionally, the system further comprises a monitoring module connected with the controller;

the controller sends a starting signal after the controller sends the alarm module, the monitoring module receives the starting signal and then starts, and the monitoring module is used for monitoring surrounding pictures and sending monitoring signals.

Optionally, the monitoring module is arranged on the ground where the oil and gas pipeline is located.

Optionally, the system further comprises a temperature detection module connected with the controller;

the temperature detection module is used for detecting the temperature around the oil and gas pipeline and sending a temperature detection signal;

the controller is used for receiving the temperature detection signal and sending the temperature detection signal to the control center through the communication module.

Optionally, the system further comprises a humidity detection module connected with the controller;

the humidity detection module is used for detecting the humidity around the oil and gas pipeline and sending a humidity detection signal;

the controller is used for receiving the humidity detection signal and sending the humidity detection signal to the control center through the communication module.

Optionally, the system further comprises a human-computer interaction module connected with the controller;

and a password is arranged in the human-computer interaction module, and the human-computer interaction module can be started only by using the password.

The man-machine interaction module is used for controlling the opening and closing of the alarm module.

By adopting the technical scheme, the rescue personnel can master the password of the man-machine interaction module, and when the rescue personnel arrives at the rescue address, the rescue personnel can close the alarm module through the man-machine interaction module.

The positioning module is connected with the controller;

the positioning module is used for detecting the position of the oil and gas pipeline and sending a position signal;

the controller is used for receiving the position signal and sending the position signal to the control center through the communication module.

Through adopting above-mentioned technical scheme, the oil gas pipeline position that the position of oil gas pipeline place that orientation module detected can effectually remind the rescue personnel to take place the position at oil gas pipeline place that deformation or reveal.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the strain detection module detects deformation of the oil-gas pipeline and sends a strain detection signal, the controller receives the strain detection signal, and when the strain detection signal is larger than a strain threshold value, the controller controls the alarm module to send an alarm, so that personnel can be prevented from approaching the deformed oil-gas pipeline to cause greater harm to a certain extent;

2. the rescue personnel can master the password of the man-machine interaction module, and when the rescue personnel reach the rescue address, the rescue personnel can close the alarm module through the man-machine interaction module.

Drawings

FIG. 1 is a system diagram of a full-automatic oil and gas pipeline stress detection system according to an embodiment of the application.

Description of reference numerals: 1. a controller; 2. a strain sensing module; 3. a positioning module; 4. an alarm module; 5. a monitoring module; 6. a temperature detection module; 7. a communication module; 8. a humidity detection module; 9. and a man-machine interaction module.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses full-automatic oil gas pipeline stress monitoring system. Referring to fig. 1, the full-automatic oil and gas pipeline stress monitoring system comprises a controller 1, a strain sensing module 2, a positioning module 3, an alarm module 4, a monitoring module 5, a temperature detection module 6, a communication module 7, a humidity detection module 8 and a human-computer interaction module 9.

Continuing to refer to fig. 1, strain sensing module 2 is connected with controller 1, and strain sensing module 2 is used for detecting the deformation condition of oil gas pipeline and sends out the detection signal that meets an emergency, and controller 1 is used for receiving the detection signal that meets an emergency.

In this application embodiment strain sensing module 2 includes eight foil gages, and eight foil gages are arranged along the axis of oil gas pipeline in circular array mode, are provided with the joint on every foil gage, and the joint passes through optic fibre and is connected with controller 1, or is connected with controller 1 through wireless connection's mode.

The alarm module 4 is connected with the controller 1, the controller 1 sends out an alarm signal, and the alarm module 4 is used for sending out an alarm after receiving the alarm signal;

the communication module 7 is connected with the controller 1, and the communication module 7 is used for receiving and transmitting information with the control center;

the monitoring module 5 is connected with the controller 1, the monitoring module 5 is arranged on the ground where the oil and gas pipeline is located, and the monitoring module 5 is used for monitoring pictures around the ground and sending monitoring signals;

the controller 1 is used for receiving the monitoring signal.

In the actual operation process, sensing module 2 sends out the detection signal that meets an emergency, controller 1 receives the detection signal that meets an emergency, when the detection signal that meets an emergency is greater than the predetermined threshold value that meets an emergency in controller 1, then it needs to maintain to deem this pipeline, controller 1 sends alarm signal, alarm module 4 sends out the police dispatch newspaper behind the receipt alarm signal, with the oil gas pipeline that is used for reminding personnel around the pipeline to be close to and treats the maintenance, controller 1 controls monitoring module 5 to start simultaneously, monitoring module 5 monitors environment and personnel and record on every side.

In another case, the monitoring module 5 can be started all the time, and the shot picture is sent to the control center through the controller 1 and the communication module 7 in sequence, when the control center finds that a person is close to the oil and gas pipeline and makes a behavior unfavorable to the oil and gas pipeline through the detection module, the control center can send an alarm signal to the controller 1 to remind the person close to evacuate the dangerous area.

Still include orientation module 3, orientation module 3 is connected with controller 1, and orientation module 3 is used for detecting the position at oil gas pipeline place and sends position signal, and controller 1 is used for sending for control center through communication module 7 after receiving position signal.

Still including temperature detect module 6, temperature detect module 6 is connected with controller 1, and temperature detect module 6 is used for detecting the temperature around the oil gas pipeline and sends temperature detect signal, and controller 1 is used for receiving temperature detect signal and sends temperature detect signal for control center through communication module 7.

The device also comprises a humidity detection module 8; humidity detection module 8 is connected with controller 1, and humidity detection module 8 is used for detecting the humidity around the oil gas pipeline and sends humidity detection signal, and controller 1 is used for receiving humidity detection signal and sends humidity detection signal for control center through communication module 7.

In this application embodiment, because the oil gas pipeline is buried underground, underground temperature and humidity can influence the sensitivity of strain sensing module 2, corrode strain sensing module 2 even, be provided with temperature detection threshold value and humidity detection threshold value in the controller 1, when temperature detect signal surpassed the temperature detection threshold value, the position at this pipeline place is fixed a position to controller 1 control orientation module 3, orientation module 3 sends position signal, transmit position signal to control center through communication module 7 after controller 1 received position signal, when humidity detect signal surpassed humidity detection threshold value, the position at this pipeline place is fixed a position to controller 1 control orientation module 3, orientation module 3 sends position signal, transmit position signal to control center through communication module 7 after controller 1 received position signal.

The alarm device is characterized by further comprising a human-computer interaction module 9, the human-computer interaction module 9 is connected with the controller 1, a password is arranged in the human-computer interaction module 9, the human-computer interaction module 9 can be started only by using the password, and the human-computer interaction module 9 is used for controlling the alarm module 4 to be turned on and off.

In the embodiment of the application, the human-computer interaction module 9 is arranged on the alarm module 4, when the rescue workers arrive at the site, if the alarm module 4 gives an alarm all the time, the maintenance of the pipeline by the rescue workers can be influenced, so that after the rescue workers arrive at the appointed position, the rescue workers can close the alarm device by means of the preset password, and then the rescue workers can maintain the pipeline.

The implementation principle of the full-automatic oil and gas pipeline stress monitoring system in the embodiment of the application is as follows: stress detection module is used for detecting the deformation degree of oil gas pipeline and sends stress detection signal, controller 1 is used for receiving stress detection signal, be provided with the stress threshold value in the controller 1, after stress detection signal surpassed the stress threshold value, controller 1 sends alarm signal, alarm module 4 sends out the police dispatch newspaper after receiving alarm signal, simultaneously controller 1 control monitoring module 5 starts, shoot and take notes picture on every side, can avoid irrelevant personnel to be close to the oil gas pipeline that takes place the deformation in order to cause the effect of bigger harm to a certain extent.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A full-automatic oil and gas pipeline stress monitoring system is characterized by comprising a strain sensing module (2), an alarm module (4), a communication module (7) and a controller (1);

the strain sensing module (2) is connected with the controller (1), and the strain sensing module (2) is used for detecting the deformation condition of the oil-gas pipeline and sending a strain detection signal;

the controller (1) is used for receiving a strain detection signal;

the alarm module (4) is connected with the controller (1), and the alarm module (4) is used for giving an alarm;

the communication module (7) is connected with the controller (1), and the communication module (7) is used for receiving and transmitting information with a control center;

when the strain data embodied by the strain detection signal received by the controller (1) is larger than the data embodied by the strain threshold value preset in the controller (1), the controller (1) sends out an alarm signal;

and the alarm module (4) sends out an alarm after receiving the alarm signal.

2. The fully automatic oil and gas pipeline stress monitoring system according to claim 1, further comprising a monitoring module (5) connected to the controller (1);

after the controller (1) sends the alarm module (4), the controller (1) sends a starting signal, the monitoring module (5) receives the starting signal and then starts, and the monitoring module (5) is used for monitoring surrounding pictures and sending monitoring signals.

3. The fully automatic oil and gas pipeline stress monitoring system according to claim 2, wherein the monitoring module (5) is arranged on the ground where the oil and gas pipeline is located.

4. The fully automatic oil and gas pipeline stress monitoring system according to claim 1, further comprising a temperature detection module (6) connected to the controller (1);

the temperature detection module (6) is used for detecting the temperature around the oil and gas pipeline and sending a temperature detection signal;

the controller (1) is used for receiving the temperature detection signal and sending the temperature detection signal to the control center through the communication module (7).

5. The full-automatic oil and gas pipeline stress monitoring system according to claim 1, further comprising a humidity detection module (8) connected with the controller (1);

the humidity detection module (8) is used for detecting the humidity around the oil and gas pipeline and sending a humidity detection signal;

the controller (1) is used for receiving the humidity detection signal and sending the humidity detection signal to the control center through the communication module (7).

6. The fully automatic oil and gas pipeline stress monitoring system according to claim 1, further comprising a human-machine interaction module (9) connected to the controller (1);

a password is arranged in the human-computer interaction module (9), and the human-computer interaction module (9) can be started only by using the password;

the man-machine interaction module (9) is used for controlling the opening and closing of the alarm module (4).

7. The fully automatic oil and gas pipeline stress monitoring system of claim 1, further comprising a positioning module (3) connected to the controller (1);

the positioning module (3) is used for detecting the position of the oil and gas pipeline and sending out a position signal;

the controller (1) is used for receiving the position signal and sending the position signal to the control center through the communication module (7).

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