CN205001868U - Oil gas pipeline wall thickness monitoring system - Google Patents

Abstract

The utility model provides an oil gas pipeline wall thickness monitoring system. It includes the guide rail, a machine support, running gear, the toroidal frame, the liquid honeycomb duct, the liquid case, a water pump, microwave applicator, infrared thermoscope, solar cell panel, the battery, switching of power module and controller, the guide rail is side along the oil gas pipeline laying in the oil gas pipeline, running gear reciprocating sliding on the guide rail is passed through to the frame, the toroidal frame is fixed in the frame and the toroidal frame encircles the oil gas pipeline, the liquid case is fixed in the frame, one end of liquid honeycomb duct is passed through the water pump and is connected the liquid case, another of liquid honeycomb duct is fixed with along with the toroidal frame encircles the oil gas pipeline along toroidal frame, be equipped with a plurality of nozzles towards oil gas pipeline and interval distribution on the liquid honeycomb duct, microwave applicator and infrared thermoscope locate on the toroidal frame, a water pump, microwave applicator, infrared thermoscope all is connected with the controller electricity, solar cell panel supplies power to the controller. The utility model discloses can can't harm on -line measuring to the oil gas pipeline.

Description

Oil and gas pipes wall thickness monitoring system

Technical field

The utility model relates to oil and gas pipes monitoring technique field, particularly relates to a kind of oil and gas pipes wall thickness monitoring system.

Background technique

Present oil and gas pipes wall thickness detects, and many employings manually detect, and need stopping production to detect, and cost is higher.And stopping production detection can have impact on normal production, manufacturing efficiency is reduced, benefit reduces.

Model utility content

The technical problem that the utility model mainly solves is to provide a kind of oil and gas pipes wall thickness monitoring system, can carry out lossless audio coding to oil and gas pipes.

For solving the problems of the technologies described above, the technological scheme that the utility model adopts is: provide a kind of oil and gas pipes wall thickness monitoring system, comprise guide rail, frame, traveller, toroidal frame, liquid guide flow pipe, fluid box, water pump, microwave applicator, infrared temperature measurement device, solar panel, storage battery, electrical source exchange module and controller, described guide rail is layed in by oil and gas pipes side along oil and gas pipes, described frame is reciprocatingly slided on described guide rail by described traveller, described toroidal frame to be fixed in described frame and described toroidal frame around oil and gas pipes, described fluid box is fixed in described frame, one of described liquid guide flow pipe connects described fluid box by described water pump, the other end of described liquid guide flow pipe is fixing with along with described toroidal frame is around oil and gas pipes along described toroidal frame, described liquid guide flow pipe is provided with multiple towards described oil and gas pipes and nozzle spaced apart, described microwave applicator and described infrared temperature measurement device are located on described toroidal frame, described solar panel, described storage battery and electrical source exchange module are installed in described frame, described solar panel is electrically connected described electrical source exchange module, described electrical source exchange module is electrically connected described storage battery and described controller, described water pump, microwave applicator, infrared temperature measurement device is all electrically connected with described controller.

Be different from the situation of prior art, the beneficial effects of the utility model are: by carrying out liquid spray to oil and gas pipes, liquid is being heated, then infrared temperature measurement device is utilized to detect oil and gas pipes surface temperature, by the temperature of analyzing oil and gas pipeline different parts, grasp the corrosion condition of oil and gas pipes, thus lossless audio coding can be carried out to oil and gas pipes.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of the utility model embodiment oil and gas pipes wall thickness monitoring system.

Fig. 2 is the side-looking structural representation of the utility model embodiment oil and gas pipes wall thickness monitoring system.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technological scheme in the utility model embodiment, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Please also refer to Fig. 1 and Fig. 2, the oil and gas pipes wall thickness monitoring system of the utility model embodiment comprises guide rail 1, frame 2, traveller 3, toroidal frame 4, liquid guide flow pipe 5, fluid box 6, water pump 7, microwave applicator 8, infrared temperature measurement device 9, solar panel 10, storage battery 11, electrical source exchange module 12 and controller (figure does not mark).

Guide rail 1 is layed in by oil and gas pipes 100 side along oil and gas pipes 100, frame 2 is reciprocatingly slided on guide rail 1 by traveller 3, toroidal frame 4 to be fixed in frame 2 and toroidal frame 4 around oil and gas pipes 100, fluid box 6 is fixed in frame 2, one of liquid guide flow pipe 5 connects fluid box 6 by water pump 7, the other end of liquid guide flow pipe 5 annularly frame 4 is fixing with along with toroidal frame 4 is around oil and gas pipes 100, liquid guide flow pipe 5 is provided with multiple towards oil and gas pipes 100 and nozzle 51 spaced apart, microwave applicator 8 and infrared temperature measurement device 9 are located on toroidal frame 4, solar panel 10, storage battery 11 and electrical source exchange module 12 are installed in frame 2, solar panel 10 electric connection of power supply handover module 12, electrical source exchange module 12 is electrically connected storage battery 11 and controller, water pump 7, microwave applicator 8, infrared temperature measurement device 9 is all electrically connected with controller.

When the oil and gas pipes wall thickness monitoring system of the utility model embodiment works, if weather is fine day, solar panel 10 is charged for storage battery 11 by electrical source exchange module 12, powers to controller simultaneously; If weather is the cloudy day, storage battery 11 is powered to controller.

Frame 2 is first moved to precalculated position by traveller 3 by oil and gas pipes wall thickness monitoring system, and then, controller starts water pump 7 makes the liquid in fluid box 6 pump into liquid guide flow pipe 5, and then liquid is ejected on oil and gas pipes 100 by nozzle 51; Then the liquid on controller startup microwave applicator 8 pairs of oil and gas pipes 100 surfaces heats, last at startup infrared temperature measurement device 9, and controller 8 starts stepper motor 15 makes infrared measurement of temperature module 3 aim at the temperature on oil and gas pipes measurement oil and gas pipes 100 surface.In the present embodiment, nozzle 51, microwave applicator 8 and infrared temperature measurement device 9 are four, are looped around oil and gas pipes 100 surrounding, and equidistantly distribute.The temperature data of controller to infrared temperature measurement device 9 is analyzed, when note abnormalities data time (such as certain data is apparently higher than other data), then think the wall thickness of position of the oil and gas pipes 100 corresponding to infrared temperature measurement device 9 measuring this abnormal data and other positions inconsistent.

By the way, the oil and gas pipes wall thickness monitoring system of the utility model embodiment is by carrying out liquid spray to oil and gas pipes, liquid is being heated, then infrared temperature measurement device is utilized to detect oil and gas pipes surface temperature, by the temperature of analyzing oil and gas pipeline different parts, grasp the corrosion condition of oil and gas pipes, thus lossless audio coding can be carried out to oil and gas pipes.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (1)

1. an oil and gas pipes wall thickness monitoring system, is characterized in that, comprises guide rail, frame, traveller, toroidal frame, liquid guide flow pipe, fluid box, water pump, microwave applicator, infrared temperature measurement device, solar panel, storage battery, electrical source exchange module and controller, described guide rail is layed in by oil and gas pipes side along oil and gas pipes, described frame is reciprocatingly slided on described guide rail by described traveller, described toroidal frame to be fixed in described frame and described toroidal frame around oil and gas pipes, described fluid box is fixed in described frame, one of described liquid guide flow pipe connects described fluid box by described water pump, the other end of described liquid guide flow pipe is fixing with along with described toroidal frame is around oil and gas pipes along described toroidal frame, described liquid guide flow pipe is provided with multiple towards described oil and gas pipes and nozzle spaced apart, described microwave applicator and described infrared temperature measurement device are located on described toroidal frame, described solar panel, described storage battery and electrical source exchange module are installed in described frame, and described solar panel is electrically connected described electrical source exchange module, and described electrical source exchange module is electrically connected described storage battery and described controller, described water pump, microwave applicator, infrared temperature measurement device is all electrically connected with described controller.