CN115507304A - Intelligent monitoring system for petroleum short circuit - Google Patents

Abstract

The invention provides an intelligent monitoring system for an oil short circuit, which consists of an oil pipeline, a monitoring module, sub-control nodes, pipeline nodes and an intelligent control system, wherein the oil pipeline is connected with the sub-control nodes and the pipeline nodes through an oil inner pipeline; the monitoring module comprises a positioning sensor, a signal receiver, a display screen and an operation end, wherein the positioning sensor is arranged in a flow sensor, the flow sensor is distributed on each port of an oil pipeline, the positioning sensor is connected with the monitoring module through the signal receiver, an image analysis device and a data processing device are arranged in the monitoring module, infrared imaging is generated through the image analysis device and the data processing device, and the infrared imaging is displayed and pushed to the operation end by using the display screen; the intelligent petroleum pipeline management system realizes intelligent management of petroleum pipelines through the intelligent monitoring system and the control system, improves the working efficiency and simultaneously realizes safety monitoring.

Description

Intelligent monitoring system for petroleum short circuit

Technical Field

The invention relates to the technical field of petroleum short circuit monitoring, in particular to a petroleum short circuit intelligent monitoring system.

Background

The tubing coupling is one kind of oil well drilling tool and is used mainly in connecting oil pipe. The tubing coupling mainly solves the problem that the existing coupling is easy to fatigue and break due to stress concentration; in the prior art, a traditional coupling is sleeved outside a pipeline through threads, and the worn gaps among the threads cause leakage of substances inside the pipeline; and the surface of the traditional coupling is smooth and easy to slip in the rotating process.

Application number is CN 202020252894.4's a thermal compensation petroleum pipeline pipe connector hoop structure, including petroleum pipeline and petroleum coupling, the one end fixedly connected with toper swivel nut of petroleum pipeline, the threaded ring that the inner wall fixedly connected with of petroleum coupling and toper swivel nut mate, be equipped with two arc splint on the petroleum pipeline, two the equal fixedly connected with fixed block of lateral wall of arc splint, the lateral wall of fixed block is equipped with fixing bolt, fixing bolt runs through two fixed blocks and threaded connection has fixation nut, two the equal fixedly connected with mount pad of lateral wall of arc splint, the lateral wall of mount pad is equipped with locking bolt, a plurality of thread grooves have been seted up to the lateral wall of petroleum coupling, locking bolt runs through the mount pad and extends to in the thread groove. The utility model discloses an effect of arc splint to under locking bolt and fixing bolt's restriction, make oil coupling and petroleum pipeline link together more closely, the leakproofness is better simultaneously.

However, when the tubing coupling works, on one hand, the tubing coupling is inconvenient to fix and disassemble, and on the other hand, the change of the flow velocity of the liquid in the tubing cannot be detected and adjusted in time, so that the tubing is easy to burst.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an intelligent monitoring system for an oil short circuit, which comprises an oil pipeline, a monitoring module, sub-control nodes, pipeline nodes and an intelligent control system, wherein the oil pipeline is connected with the sub-control nodes and the pipeline nodes through an oil inner pipeline, and the monitoring module and the intelligent control system are connected with the oil pipeline through a sensing device.

Furthermore, the monitoring module comprises a positioning sensor, a signal receiver, a display screen and an operation end, the positioning sensor is installed in the flow sensor, the flow sensor is distributed on each port of the petroleum inner pipeline, the positioning sensor is connected with the monitoring module through the signal receiver, an image analysis device and a data processing device are arranged in the monitoring module, infrared imaging is generated through the image analysis device and the data processing device, and the infrared imaging is displayed and pushed to the operation end through the display screen.

Further, the intelligent control system comprises a flow sensor, an A/D converter, an amplifier, a signal receiver and a control unit; the positioning sensor and the flow sensor are installed on each port of the petroleum pipeline, one end of the flow sensor is connected with the intelligent control system, and the other end of the flow sensor is connected with the control unit through the A/D converter, the amplifier and the signal receiver.

Furthermore, the control unit is connected with a master control point through a signal, a master control valve is arranged on the master control point, the master control valve is connected with the branch control nodes through an inner petroleum pipeline, the branch control nodes are provided with branch control valves, the branch control valves are connected with the pipeline nodes through the inner petroleum pipeline, electric control valves are installed on the pipeline nodes, and the electric control valves are connected with an electric control area.

Further, the petroleum pipeline comprises an inner pipe, a left fixing pipe, a fixing layer, a bump, a right fixing pipe, a pin hole and a groove; the left fixing pipe and the right fixing pipe are combined into a whole to form an oil inner pipeline with the inner pipe, the left fixing pipe and the right fixing pipe are fixed through a convex block and a groove, and the pin is installed in the pin hole.

1. The invention provides an intelligent monitoring system for an oil short circuit, which comprises an oil pipeline, a monitoring module, sub-control nodes, pipeline nodes and an intelligent control system; the monitoring module is connected with the positioning sensor through the signal receiver, the image analysis device and the data processing device are arranged in the monitoring module, the image analysis device and the data processing device generate infrared imaging, and the infrared imaging is displayed and pushed to the operation end through the display screen, so that the petroleum pipeline can be monitored in time.

2. The intelligent monitoring system for the petroleum short circuit provided by the invention realizes petroleum intelligent management through a sensor device, an A/D converter, an amplifier, a signal receiver and a control unit in an intelligent control system, and the total valve, the total control valve, the sub-control valve and the petroleum pipeline are all provided with current flow sensors, so that the petroleum pipeline can be accurately managed and controlled through pipeline nodes and sub-control nodes when the change of the petroleum flow in the petroleum pipeline is detected in time.

Drawings

FIG. 1 is a general diagram of an intelligent monitoring system for an oil short circuit provided by the invention;

FIG. 2 is a structure diagram of an oil external pipeline of the intelligent monitoring system for the oil short circuit provided by the invention;

FIG. 3 is a structural diagram of an adjusting device of an intelligent petroleum short circuit monitoring system provided by the invention;

FIG. 4 is an exploded view of an oil pipe of the intelligent monitoring system for an oil short circuit according to the present invention;

FIG. 5 is an assembly diagram of an oil pipe in an intelligent monitoring system for short circuit of oil according to the invention;

FIG. 6 is a flow chart of a sensing system of the intelligent monitoring system for the short circuit of petroleum according to the invention;

fig. 7 is a flow chart of a positioning sensor of the intelligent petroleum short circuit monitoring system provided by the invention.

Wherein: 100. the intelligent control system comprises a petroleum pipeline, 101, an inner pipe, 102, a left fixed pipe, 103, a fixed layer, 104, a bump, 105, a right fixed pipe, 106, a pin, 107, a pin hole, 108, a groove, 200, a monitoring module, 201, an image analysis device, 202, a data processing device, 203, infrared imaging, 204, a display screen, 205, an operation end, 210, a master control point, 211, a power supply master control valve, 300, a branch control node, 311, a branch control valve, 400, a pipeline node, 410, an electric control area, 411, an electric control valve, 500, an intelligent control system, 501, a flow sensor, 503, a positioning sensor, 511, an A/D converter, 512, an amplifier, 513, a signal receiver, 514, a control unit, 515 and a signal.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

Referring to fig. 1, the intelligent monitoring system for the short circuit of the petroleum, provided by the invention, comprises a petroleum pipeline 100, a monitoring module 200, a sub-control node 300, a pipeline node 400 and an intelligent control system 500, wherein the petroleum pipeline 100 is connected with the sub-control node 300 and the pipeline node 400 through an inner petroleum pipeline 102, and the monitoring module 200 and the intelligent control system 500 are connected with the petroleum pipeline 100 through a sensing device 501.

Referring to fig. 2 and 3, the monitoring module 200 includes a positioning sensor 503, a signal receiver 513, a display screen 204 and an operation terminal 205, the positioning sensor 503 is installed in the flow sensor 501, the flow sensor 501 is distributed at each port of the petroleum pipeline 102, the positioning sensor 503 is connected with the monitoring module 200 through the signal receiver 513, an image analysis device 201 and a data processing device 202 are arranged in the monitoring module 200, an infrared image 203 is generated through the image analysis device 201 and the data processing device 202, and the infrared image 203 is displayed and pushed to the operation terminal 205 by using the display screen 204.

Referring to fig. 4, the intelligent control system 500 includes a flow sensor 501, an a/D converter 511, an amplifier 512, a signal receiver 513, and a control unit 514; the positioning sensor 503 and the flow sensor 501 are installed on each port of the petroleum pipeline 100, one end of the flow sensor 501 is connected with the intelligent control system 500, and the other end of the flow sensor 501 is connected with the control unit 514 through the A/D converter 511, the amplifier 512, the signal receiver 513.

Referring to fig. 4 and 5, the control unit 514 is connected to the master control point 210 through a signal 515, the master control point 210 is provided with a master control valve 211, the master control valve 211 is connected to the branch control nodes 300 through the petroleum inner pipeline 102, the branch control nodes 300 are provided with branch control valves 311, the branch control valves 311 are connected to the pipeline nodes 400 through the petroleum inner pipeline 102, the pipeline nodes 400 are provided with electric control valves 411, and the electric control valves 411 are connected to the electric control area 410.

Referring to fig. 6 and 7, the petroleum pipeline 100 comprises an inner pipe 101, a left fixing pipe 102, a fixing layer 103, a bump 104, a right fixing pipe 105, a pin 106, a pin hole 107 and a groove 108; the left fixing pipe 102 and the right fixing pipe 105 are integrated into a whole to form the oil pipeline 100 together with the inner pipe 101, the left fixing pipe 102 and the right fixing pipe 105 are fixed through the convex block 104 and the groove 108, and the pin 106 is installed in the pin hole 107.

When the monitoring system works, firstly, the monitoring module 200 is connected with the positioning sensor 503 through the signal receiver 513, the image analysis device 201 and the data processing device 202 are arranged in the monitoring module 200, the infrared imaging 203 is generated through the image analysis device 201 and the data processing device 202, the infrared imaging 203 is displayed and pushed to the operation end 205 through the display screen 204, and the petroleum pipeline 100 is monitored in time. Secondly, the electric control valve 113 and the branch control valve 311 are managed through an electric current sensor 501, an A/D converter 511, an amplifier 512, a signal receiver 513 and a control unit 514 in the intelligent control system 500, the positioning sensor 503 and the electric current sensor 501 are arranged on the electric control valve 113 and the branch control valve 311, the change of the flow in the petroleum pipeline 100 is detected in time, the accurate management and control of the flow are realized through the master control point 210, the branch control node 300 and the pipeline node 400, the intelligent control system 500 can enable the flow in the petroleum pipeline 100 to pass through the electric current sensor 501 in real time, the signal is amplified by the A/D converter 511 and then transmitted to the signal receiver 513, and the signal receiver 513 receives the signal to the control unit 514. The invention can detect the change of the petroleum flow in the petroleum pipeline 100 in time and realize the precise management and control of the petroleum pipeline through the pipeline node 400 and the sub-control node 300.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The intelligent petroleum short circuit monitoring system is characterized by comprising a petroleum pipeline (100), a monitoring module (200), branch control nodes (300), pipeline nodes (400) and an intelligent control system (500), wherein the petroleum pipeline (100) is connected with the branch control nodes (300) and the pipeline nodes (400) through a petroleum inner pipeline (102), and the monitoring module (200) and the intelligent control system (500) are connected with the petroleum pipeline (100) through a sensing device (501).

2. The intelligent petroleum pipeline safety monitoring control system and the intelligent petroleum pipeline safety monitoring control method according to claim 1, wherein the monitoring module (200) comprises a positioning sensor (503), a signal receiver (513), a display screen (204) and an operation end (205), the positioning sensor (503) is installed in the flow sensor (501), the flow sensor (501) is distributed on each port of the petroleum pipeline (102), the positioning sensor (503) is connected with the monitoring module (200) through the signal receiver (513), an image analysis device (201) and a data processing device (202) are arranged in the monitoring module (200), an infrared image (203) is generated through the image analysis device (201) and the data processing device (202), and the infrared image (203) is displayed and pushed to the operation end (205) through the display screen (204).

3. The intelligent monitoring and control system and the intelligent monitoring and control method for petroleum pipelines according to claim 1, wherein the intelligent control system (500) comprises a flow sensor (501), an A/D converter (511), an amplifier (512), a signal receiver (513) and a control unit (514); the positioning sensor (503) and the flow sensor (501) are installed on each port of the petroleum pipeline (100), one end of the flow sensor (501) is connected with the intelligent control system (500), and the other end of the flow sensor (501) is connected with the control unit (514) through the A/D converter (511), the amplifier (512), the signal receiver (513).

4. The intelligent petroleum pipeline safety monitoring control system and method as claimed in claim 3, wherein the control unit (514) is connected with the master control point (210) through a signal (515), the master control point (210) is provided with a master control valve (211), the master control valve (211) is connected with the branch control nodes (300) through the petroleum inner pipeline (102), the branch control nodes (300) are provided with branch control valves (311), the branch control valves (311) are connected with the pipeline nodes (400) through the petroleum inner pipeline (102), the pipeline nodes (400) are provided with electric control valves (411), and the electric control valves (411) are connected with the electric control area (410).

5. The intelligent monitoring and controlling system and the method for petroleum pipeline safety as claimed in claim 4, wherein the petroleum pipeline (100) comprises an inner pipe (101), a left fixing pipe (102), a fixing layer (103), a bump (104), a right fixing pipe (105), a pin (106), a pin hole (107) and a groove (108); the left fixing pipe (102) and the right fixing pipe (105) are integrated into a whole to form an oil inner pipeline (100) together with the inner pipe (101), the left fixing pipe (102) and the right fixing pipe (105) are fixed through a bump (104) and a groove (108), and a pin (106) is installed in a pin hole (107).

Images