CN219082821U - Real-time monitoring device for oil-gas long-distance pipeline - Google Patents

Abstract

The utility model discloses an oil gas long-distance pipeline real-time monitoring device which comprises a main body mechanism, a monitoring mechanism arranged at the top of the main body mechanism, a temperature measuring mechanism arranged at one side of the main body mechanism, a monitoring mechanism, a wind speed monitoring component arranged at the top of the wind direction monitoring instrument, an environment monitoring component arranged at one side of the wind direction monitoring instrument, a motor arranged at one side of the wind direction monitoring instrument and a camera arranged at the top of the motor, wherein the main body mechanism comprises a monitoring box arranged at the bottom of the wind direction monitoring instrument. When the wind direction monitoring device is used, the wind direction monitor and the wind speed monitoring piece monitor the external wind direction and the wind speed in real time, so that damage to a pipeline caused by monitoring the external wind is prevented, meanwhile, the motor can drive the camera to rotate, the surrounding environment is monitored, and the influence of external factors such as breakage of the monitored pipeline on pipeline transportation is prevented.

Description

Real-time monitoring device for oil-gas long-distance pipeline

Technical Field

The utility model relates to the technical field of oil and gas long-distance pipelines, in particular to a real-time monitoring device for an oil and gas long-distance pipeline.

Background

The oil and gas transportation is a link of transporting oil and gas from a production place to a user, most of the oil and gas production place is far away from a consumption area, and after underground exploitation, the oil and gas is processed and is guaranteed to be supplied to the user uninterruptedly, so that an independent industrial system and an operation system are formed, and long-distance oil and gas transportation needs to be carried out through pipelines and needs to be monitored.

Through retrieving, chinese patent publication No. CN212869392U discloses a long-distance pipeline leakage monitoring device, including double-deck pipe and control box, double-deck pipe includes outer tube and inner tube, seal between outer tube, inner tube and the sealing washer and form the pressure chamber, install the stamping valve with the pressure chamber intercommunication on the outer tube, the pressure intracavity is filled with pressurized gas through the stamping valve, the monitor is installed to the pressure intracavity, install controller and wireless communication module in the control box, monitor and controller signal connection, the device of control room terminal signal connection is passed through to the controller. The above patent suffers from the following disadvantages: when detecting pressure intensity inside the pressure cavity through the monitor, the monitor is difficult to detect external environment change through the pressure cavity, so that external environment factors influence pipeline transportation.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a real-time monitoring device for an oil gas long-distance pipeline.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an oil gas long distance pipeline real-time supervision device, includes main body mechanism, set up in the monitoring mechanism at main body mechanism top, set up in temperature measuring mechanism of main body mechanism one side, monitoring mechanism, it includes the wind direction monitor, set up in wind speed monitor at wind direction monitor top sets up in environmental monitoring subassembly of wind direction monitor one side, environmental monitoring subassembly including set up in motor of wind direction monitor one side, and set up in the camera at motor top.

As still further aspects of the utility model: the main body mechanism comprises a monitoring box arranged at the bottom of the wind direction monitor, elastic fixing belts arranged at two sides of the monitoring box, a first fixing assembly arranged at one end of the elastic fixing belts, and a buffer plate arranged at the top of the first fixing assembly.

As still further aspects of the utility model: the first fixing component comprises a fixing plate arranged at one end of the elastic fixing belt, a magnetic attraction piece is arranged inside the fixing plate, and a threaded hole is formed inside the fixing plate.

As still further aspects of the utility model: the elastic fixing belt is characterized in that a second fixing component is arranged on the other side of the elastic fixing belt, and the second fixing component and the first fixing component are identical in structure.

As still further aspects of the utility model: the monitoring box is internally provided with a first mounting groove and a second mounting groove.

As still further aspects of the utility model: the monitoring box is internally provided with an air tank, the bottom of the air tank is provided with a threaded butt joint port, the top of the air tank is provided with an air duct, the top of the air duct is provided with an air bag, and one side of the air duct is provided with an air pressure valve.

As still further aspects of the utility model: the temperature measuring mechanism comprises a heat insulation plate arranged on one side of the monitoring box, a temperature measuring groove arranged in the heat insulation plate, and a temperature measuring probe arranged in the temperature measuring groove.

As still further aspects of the utility model: the heat-collecting layer is arranged inside the heat-insulating plate, and one side of the top of the heat-insulating plate is provided with a temperature measuring device.

Compared with the prior art, the utility model provides the real-time monitoring device for the oil gas long-distance pipeline, which has the following beneficial effects:

1. when the wind direction monitoring device is used, the wind direction monitor and the wind speed monitoring piece monitor the external wind direction and the wind speed in real time, so that damage to a pipeline caused by monitoring the external wind is prevented, meanwhile, the motor can drive the camera to rotate, the surrounding environment is monitored, and the influence of external factors such as breakage of the monitored pipeline on pipeline transportation is prevented.

2. When the fixing device is used, after the elastic fixing belt is attached to the pipeline, the fixing plates at the two ends of the elastic fixing belt are attached, and after the magnetic attraction pieces on the two fixing plates are magnetically attracted and fixed, the fixing device is further fixed through the fixing bolt penetrating through the threaded hole, so that the fixing effect is further improved.

3. When the utility model is used, after the heat collection layer in the heat insulation plate concentrates the heat in the pipeline, the temperature measurement probe in the temperature measurement groove measures the temperature of the heat collection layer, and the temperature measuring device at the top of the heat insulation plate monitors the external temperature to prevent the pipeline transportation from being dangerous due to the rise of the temperature in the pipeline.

The device has the advantages that the parts which are not involved in the device are the same as or can be realized by adopting the prior art, and the device has a simple structure and is convenient to operate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a real-time monitoring device for oil and gas long-distance pipelines;

FIG. 2 is a schematic structural diagram of a first fixing assembly of the device for monitoring the oil and gas long-distance pipeline in real time;

fig. 3 is a schematic cross-sectional structure of a device for monitoring oil and gas long-distance pipeline in real time according to the present utility model.

In the figure: 100. a main body mechanism; 101. a monitoring box; 102. an elastic fixing band; 103. a buffer plate; 104. a first fixing assembly; 104a, a fixing plate; 104b, a magnetic attraction piece; 104c, a threaded hole; 105. a second fixing assembly; 200. a monitoring mechanism; 201. a first mounting groove; 202. a wind direction monitor; 203. a wind speed monitoring member; 204. an air tank; 205. a thread interface; 206. an air duct; 207. an air bag; 208. an air pressure valve; 209. an environmental monitoring component; 209a, a second mounting groove; 209b, motor; 209c, a camera; 300. a temperature measuring mechanism; 301. a thermal insulation plate; 302. a heat collecting layer; 303. a temperature measuring groove; 304. a temperature measurement probe; 305. and a temperature measuring device.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Example 1

1-3, including main body mechanism 100, bolt fastening in the monitoring mechanism 200 at main body mechanism 100 top, bolt fastening in the temperature measuring mechanism 300 at main body mechanism 100 one side, monitoring mechanism 200, it includes wind direction monitor 202, wind speed monitor 203 at wind direction monitor 202 top is connected in the rotation, wind direction monitor 202 and wind speed monitor 203 real-time supervision outside wind direction and wind speed prevent to monitor outside wind-force and cause the damage to the pipeline, connect in the environmental monitoring subassembly 209 of wind direction monitor 202 one side, environmental monitoring subassembly 209 includes motor 209b that is connected in wind direction monitor 202 one side, and bolt fastening in the camera 209c at motor 209b top, motor 209b can drive the camera 209c and rotate, monitor the surrounding environment.

Further, the main body mechanism 100 includes a monitor box 101 fixed at the bottom of the wind direction monitor 202 by bolts, elastic fixing belts 102 adhered to two sides of the monitor box 101, a first fixing component 104 welded to one end of the elastic fixing belts 102, and a buffer plate 103 adhered to the top of the first fixing component 104, the first fixing component 104 includes a fixing plate 104a adhered to one end of the elastic fixing belts 102, magnetic attraction pieces 104b are arranged inside the fixing plate 104a and provided with threaded holes 104c inside the fixing plate 104a, after the elastic fixing belts 102 are attached to a pipeline, the fixing plates 104a at two ends of the elastic fixing belts 102 are attached, after the magnetic attraction pieces 104b on the two fixing plates 104a are fixed by magnetic attraction, the fixing plates are further fixed by fixing bolts through the threaded holes 104c, so that the fixing effect is further improved, a second fixing component 105 is adhered to the other side of the elastic fixing belts 102, and the second fixing component 105 has the same structure as the first fixing component 104.

Further, the first mounting groove 201 and the second mounting groove 209a are formed in the monitoring box 101, and the motor 209b is mounted in the second mounting groove 209a to protect the inside of the monitoring box by mounting the bottom of the wind direction monitor 202 in the first mounting groove 201.

This embodiment: when the wind direction monitor 202 and the wind speed monitor 203 monitor the external wind direction and the wind speed in real time, so that the damage to the pipeline caused by the monitored external wind is prevented, meanwhile, the motor 209b can drive the camera 209c to rotate, the surrounding environment is monitored, and the influence on the pipeline transportation caused by external factors such as the breakage of the monitored pipeline is prevented.

Example 2

1-3, an air tank 204 is provided in the monitoring box 101, a threaded butt joint 205 is welded at the bottom of the air tank 204, an air duct 206 is welded at the top of the air tank 204, an air bag 207 is adhered at the top of the air duct 206, an air pressure valve 208 is bolted on one side of the air duct 206, when the internal air pressure is high, air enters the air tank 204, then enters the air bag 207 through the air duct 206, the air pressure in the pipeline is monitored by observing the inflation size of the air bag 207, and when the air pressure is high, the pressure can be released through the air pressure valve 208.

Further, the temperature measuring mechanism 300 includes a thermal insulation plate 301 fixed on one side of the monitoring box 101 by bolts, a temperature measuring groove 303 formed in the thermal insulation plate 301, and a temperature measuring probe 304 welded in the temperature measuring groove 303, wherein the temperature measuring probe 304 in the temperature measuring groove 303 measures the temperature of the thermal insulation plate, a heat collecting layer 302 is adhered in the thermal insulation plate 301, after the heat collecting layer 302 in the thermal insulation plate 301 concentrates the heat in the pipeline, a temperature measuring device 305 is fixed on one side of the top of the thermal insulation plate 301 by bolts, and the temperature measuring device 305 at the top of the thermal insulation plate 301 monitors the external temperature.

This embodiment: when the temperature measuring device is used, after the heat collection layer 302 inside the heat insulation plate 301 concentrates heat inside a pipeline, the temperature measuring probe 304 inside the temperature measuring groove 303 measures the temperature of the heat collection layer, and meanwhile the temperature measuring device 305 at the top of the heat insulation plate 301 monitors the external temperature, so that the danger of pipeline transportation caused by the rise of the internal temperature of the pipeline is prevented.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an oil gas long distance pipeline real-time supervision device, includes main body mechanism (100), set up in monitoring mechanism (200) at main body mechanism (100) top set up in temperature measuring mechanism (300) of main body mechanism (100) one side, its characterized in that:

a monitoring mechanism (200), comprising: wind direction monitor (202), set up in wind speed monitor (203) at wind direction monitor (202) top set up in environmental monitoring subassembly (209) of wind direction monitor (202) one side, environmental monitoring subassembly (209) including set up in motor (209 b) of wind direction monitor (202) one side, and set up in camera (209 c) at motor (209 b) top.

2. The device for monitoring the oil and gas long-distance pipeline in real time according to claim 1, wherein the main body mechanism (100) comprises a monitoring box (101) arranged at the bottom of the wind direction monitor (202), elastic fixing belts (102) arranged at two sides of the monitoring box (101), a first fixing assembly (104) arranged at one end of the elastic fixing belts (102), and a buffer plate (103) arranged at the top of the first fixing assembly (104).

3. The device for monitoring the oil and gas long-distance pipeline in real time according to claim 2, wherein the first fixing component (104) comprises a fixing plate (104 a) arranged at one end of the elastic fixing belt (102), a magnetic attraction piece (104 b) arranged inside the fixing plate (104 a), and a threaded hole (104 c) arranged inside the fixing plate (104 a).

4. A real-time monitoring device for oil and gas long-distance pipeline according to claim 3, characterized in that a second fixing component (105) is arranged on the other side of the elastic fixing band (102), and the second fixing component (105) has the same structure as the first fixing component (104).

5. The device for monitoring the oil and gas long-distance pipeline in real time according to claim 2, wherein a first mounting groove (201) and a second mounting groove (209 a) are formed in the monitoring box (101).

6. The oil gas long-distance pipeline real-time monitoring device according to claim 2, wherein an air groove (204) is formed in the monitoring box (101), a threaded butt joint (205) is formed in the bottom of the air groove (204), an air duct (206) is formed in the top of the air groove (204), an air bag (207) is arranged on the top of the air duct (206), and an air pressure valve (208) is arranged on one side of the air duct (206).

7. The device for monitoring the oil and gas long-distance pipeline in real time according to claim 2, wherein the temperature measuring mechanism (300) comprises a heat insulation plate (301) arranged on one side of the monitoring box (101), a temperature measuring groove (303) arranged inside the heat insulation plate (301), and a temperature measuring probe (304) arranged inside the temperature measuring groove (303).

8. The oil and gas long-distance pipeline real-time monitoring device according to claim 7, wherein a heat collecting layer (302) is arranged inside the heat insulation plate (301), and a temperature measuring device (305) is arranged on one side of the top of the heat insulation plate (301).

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