CN204594930U - A kind of simulative tube pipe magnet leakage detector is by the proving installation of performance - Google Patents

Abstract

The utility model provides a kind of simulative tube pipe magnet leakage detector by the proving installation of performance, comprise water inlet end, water side, simulation pipeline and flux leakage detector, and set gradually simulation service straight length by arranging described simulation pipeline along water flow direction, ball straight length is received in simulation step straight length and simulation, detect flux leakage detector by performance time, first described flux leakage detector is put into the simulation service straight length of described simulation pipeline, highly pressurised liquid and low pressure liquid is filled with respectively afterwards in described flux leakage detector both sides, thus by the pressure change that detects the highly pressurised liquid of described flux leakage detector both sides and low pressure liquid and the change of pressure reduction between the two, just accurately can judge the particular location of described flux leakage detector in described simulation pipeline and walking states, thus realize effectively being detected by performance flux leakage detector, workable, security is good, measure accurately.

Description

A kind of simulative tube pipe magnet leakage detector is by the proving installation of performance

Technical field

The utility model relates to the proving installation of a kind of simulative tube pipe magnet leakage detector by performance, belongs to the technical field of oil and gas pipes defects detection.

Background technology

Long oil and gas pipeline is in use due to reasons such as burn into crackle and damages, and oil gas can be caused to reveal, and the oil gas leaked not only can pollute long distance pipeline surrounding environment, but also likely burn, the security incident such as blast; Therefore, long oil and gas pipeline leakage can cause huge economic loss, needs regularly to detect to guarantee the safe, reliable of pipe-line to long oil and gas pipeline in real work.

In the detection of long oil and gas pipeline, leakage method is a kind of defect inspection method of comparatively widespread use, and it, by be rendered to by flux leakage detector in tested pipeline and to make it walk at pipeline internal, realizes the on-line checkingi to defect in pipeline.Flux leakage detector is made up of mechanical carrier and electric part, mechanical carrier constitutes the basic framework of flux leakage detector, comprise detecting device skeleton, drive leather cup, steel brush, permanent magnet and iron core, universal joint, mileage wheel and pressurized capsule etc., by popping one's head in, in set of signals, processing module, packet of electrons, power brick, odometer sensor, temperature, pressure differential pressure pick-up, wire harness form electric part.Principle analysis is as follows: in the process that flux leakage detector is walked at pipeline internal, its permanent magnet carried is by tube wall saturated magnetization, tube wall and steel brush, magnet and iron core form magnetic loop, when tube wall does not have defect, the magnetic line of force is uniformly distributed in pipeline, forms uniform magnetic field, when tube wall defectiveness makes, the magnetic line of force, in fault location distortion, passes tube wall and produces leakage field.Under mileage wheel pulse signal triggers, the field signal characterizing pipeline feature is converted to electric signal by probe module, packet of electrons is entered after processing module in set of signals, and be recorded in the storer of packet of electrons, eventually pass the step of data analysis Search For Oil And Gas long pipeline inwall or defective locations and the order of severity, thus instruct that pipeline rehabilitation workmen excavates pipeline, repair.

The accuracy adopting flux leakage detector to detect long oil and gas pipeline and precision all higher, but, in the process that flux leakage detector is walked at pipeline internal, there is step or the accident such as fault location easily blocks, stoppage in transit at inner-walls of duct, therefore, in order to ensure that the long-term safety of oil gas long pipeline uses, can flux leakage detector have step or fault location passes through smoothly at inner-walls of duct, becomes the important performance indexes evaluating flux leakage detector.But directly drop into flux leakage detector by the oil and gas pipes under in running order, with being tested by performance flux leakage detector, do not possess realistic meaning, operability and security are all poor.

Summary of the invention

Technical problem to be solved in the utility model is in order to being tested by performance flux leakage detector, directly flux leakage detector is dropped into by the oil and gas pipes under in running order, do not possess realistic meaning, operability and security are all poor, thus propose a kind of security good, measure accurate Magnetic Flux Leakage Inspecting analogue means.

For solving the problems of the technologies described above, the technical solution of the utility model is:

A kind of simulative tube pipe magnet leakage detector is by the proving installation of performance, it is provided with water inlet end, water side, simulation pipeline and flux leakage detector, described water inlet end is provided with highly pressurised liquid inlet, first row gas port and the first tensimeter, described water side is provided with low pressure liquid escape hole, second exhaust port and the second tensimeter, the closed at both ends of described simulation pipeline is arranged, and described flux leakage detector is close to the inwall of described simulation pipeline and is walked along water flow direction;

Along water flow direction, described simulation pipeline is provided with simulation service straight length, simulation step straight length and simulation successively and receives ball straight length, and the ratio that the internal diameter of ball straight length is received in described simulation service straight length, described simulation step straight length and described simulation is 800-810:850-860:800-810;

Described simulation step straight length and described simulation are served a ball between straight length and are provided with first step, and described simulation is received between ball straight length and described simulation step straight length and is provided with second step.

Along water flow direction, the length ratio that described simulation service straight length, simulation step straight length, simulation receive ball straight length is 2000-2500:2300-2600:2000-2500.

Along water flow direction, described water inlet end is provided with highly pressurised liquid straight length and contraction section successively, and described water side is provided with expansion segment and low pressure liquid straight length successively.

Along water flow direction, the length ratio of described highly pressurised liquid straight length and described contraction section is 2500-3000:600-650.

Along water flow direction, the length ratio of described expansion segment and described low pressure liquid straight length is 600-650:2500-3000.

The internal diameter of described simulation service straight length is 800-805:1000-1200 with the ratio of the internal diameter of described highly pressurised liquid straight length, and described low pressure liquid straight length is 800-805:1000-1200 with described ratio of simulating the internal diameter receiving ball straight length.

The height of described first step on the direction vertical with the axis of described simulation pipeline is 20-50mm, and the height of described second step on the direction vertical with the axis of described simulation pipeline is 20-50mm.

The pressure of described highly pressurised liquid is 1.0-1.1MPa, and the pressure of described low pressure liquid is 0-0.8MPa; Pressure reduction between described highly pressurised liquid and described low pressure liquid is 0.3MPa-1.1MPa.

Based on the method for testing of described simulative tube pipe magnet leakage detector by the proving installation of performance, comprise the steps:

(1) described flux leakage detector is put into the simulation service straight length of described simulation pipeline, by the closed at both ends of described simulation pipeline, backward described simulation to receive in ball straight length water filling till the water outlet of described low pressure liquid escape hole, close the valve of described low pressure liquid escape hole, flux leakage detector described in whole the injecting process keeps motionless;

(2) valve of described highly pressurised liquid inlet is slowly opened, in described simulation service straight length, water filling is until described flux leakage detector starts mobile, slowly open the valve of described low pressure liquid escape hole afterwards, utilize the pressure reduction between the described highly pressurised liquid and described low pressure liquid of described flux leakage detector both sides to promote described flux leakage detector and walk forward;

(3) when described flux leakage detector walks to described simulation step straight length, and in the process walked on, when rising fast all appears in the pressure of the described highly pressurised liquid and described low pressure liquid that are positioned at described flux leakage detector both sides, slowly strengthen the valve opening of described low pressure liquid escape hole again, the pressure reduction of described flux leakage detector both sides is increased, receive ball straight length to make described flux leakage detector by described simulation step straight length and to arrive described simulation, namely complete the test of described simulative tube pipe magnet leakage detector by performance.

Described proving installation is for detecting the purposes of flux leakage detector by performance.

Technique scheme of the present utility model has the following advantages compared to existing technology:

(1) simulative tube pipe magnet leakage detector described in the utility model is by the proving installation of performance, comprise water inlet end, water side, simulation pipeline and flux leakage detector, and set gradually simulation service straight length by arranging described simulation pipeline along water flow direction, ball straight length is received in simulation step straight length and simulation, detect flux leakage detector by performance time, first described flux leakage detector is put into the simulation service straight length of described simulation pipeline, highly pressurised liquid and low pressure liquid is filled with respectively afterwards in described flux leakage detector both sides, the pressure reduction of described highly pressurised liquid and low pressure liquid is utilized to promote described flux leakage detector at described simulation pipe interior dexterously, be close to described simulation inner-walls of duct and walk along water flow direction, thus by the pressure change that detects the highly pressurised liquid of described flux leakage detector both sides and low pressure liquid and the change of pressure reduction between the two, just accurately can judge the particular location of described flux leakage detector in described simulation pipeline and walking states, thus realize effectively being detected by performance flux leakage detector, workable, security is good, measure accurately.

Simulative tube pipe magnet leakage detector described in the utility model is by the proving installation of performance, performance is passed through for what detect flux leakage detector, with the qualification rate of accurate evaluation flux leakage detector, effectively avoid when using underproof flux leakage detector to detect long oil and gas pipeline, at inner-walls of duct, there is the accident such as blocking, stoppage in transit that flux leakage detector easily occurs for step or fault location, even cause the problem of serious consequence.

Accompanying drawing explanation

In order to make content of the present utility model be more likely to be clearly understood, below according to specific embodiment of the utility model also by reference to the accompanying drawings, the utility model is described in further detail, wherein

Fig. 1 is the structural representation of Magnetic Flux Leakage Inspecting analogue means described in the utility model.

In figure, Reference numeral is expressed as: 1-highly pressurised liquid straight length, 11-highly pressurised liquid inlet, 12-first row gas port, 13-first tensimeter, 14-the 3rd exhausr port, 15-the 3rd tensimeter, 2-contraction section, 3-simulation service straight length, 4-simulates step straight length, 5-simulation receives ball straight length, 6-expansion segment, 7-low pressure liquid straight length, 71-low pressure liquid escape hole, 72-second exhaust port, 73-second tensimeter, 8-flux leakage detector, 9-first bearing, 10-second bearing.

Embodiment

Embodiment 1

The present embodiment provides a kind of simulative tube pipe magnet leakage detector by the proving installation of performance, as shown in Figure 1, be provided with water inlet end, water side, simulation pipeline and flux leakage detector 8, described water inlet end is provided with highly pressurised liquid inlet 11, first row gas port 12 and the first tensimeter 13, described water side is provided with low pressure liquid escape hole 71, second exhaust port 72 and the second tensimeter 73, the closed at both ends of described simulation pipeline is arranged, and described flux leakage detector 8 is close to the inwall of described simulation pipeline and is walked along water flow direction.

As the embodiment that can select, in the present embodiment, being communicated with described highly pressurised liquid inlet and filling pipe is set, described filling pipe is provided with the 3rd tensimeter 15, realizing the accurate detection to injecting s; Also be provided with the 3rd exhausr port 14 at described water inlet end, described 3rd exhausr port 14 is communicated with described filling pipe and arranges;

The pressure of described highly pressurised liquid is 1.1MPa, and the pressure of described low pressure liquid is 0.8MPa; Pressure reduction between described highly pressurised liquid and described low pressure liquid is 0.3MPa.

Along water flow direction, described simulation pipeline is provided with simulation service straight length 3, simulation step straight length 4 and simulation successively and receives ball straight length 5; In the present embodiment, along water flow direction, the length ratio that described simulation service straight length 3, simulation step straight length 4, simulation receive ball straight length 5 is 2000:2300:2000, and the ratio that the internal diameter of ball straight length 5 is received in described simulation service straight length 3, described simulation step straight length 4 and described simulation is 802:856:802.

Along water flow direction, described water inlet end is provided with highly pressurised liquid straight length 1 and contraction section 2 successively, and described water side is provided with expansion segment 6 and low pressure liquid straight length 7 successively; In the present embodiment, along water flow direction, described highly pressurised liquid straight length 1 is 2500:600 with the length ratio of described contraction section 2; Described expansion segment 6 is 600:2500 with the length ratio of described low pressure liquid straight length 7; Further, the internal diameter of described simulation service straight length 3 is 800:1000 with the ratio of the internal diameter of described highly pressurised liquid straight length 1, and described low pressure liquid straight length 7 is 800:1000 with described ratio of simulating the internal diameter receiving ball straight length 5.

Described simulation step straight length 4 and described simulate to serve a ball between straight length 3 be provided with first step, described simulation is received between ball straight length 5 and described simulation step straight length 4 and is provided with second step; In the present embodiment, the height of described first step on the direction vertical with the axis of described simulation pipeline is 27mm, and the height of described second step on the direction vertical with the axis of described simulation pipeline is 27mm.

Based on the method for testing of described simulative tube pipe magnet leakage detector by the proving installation of performance, comprise the steps:

(1) described simulation pipeline adopts the first bearing 9 and the second bearing 10 to support, and described flux leakage detector 8 is put into the simulation service straight length 3 of described simulation pipeline, by the closed at both ends of described simulation pipeline, backward described simulation to receive in ball straight length 5 water filling till the water outlet of described low pressure liquid escape hole 71, close the valve of described low pressure liquid escape hole 71, described in whole the injecting process, flux leakage detector 8 keeps motionless;

(2) valve of described highly pressurised liquid inlet 11 is slowly opened, in described simulation service straight length 3, water filling is until described flux leakage detector 8 starts mobile, slowly open the valve of described low pressure liquid escape hole 71 afterwards, utilize the pressure reduction between the described highly pressurised liquid and described low pressure liquid of described flux leakage detector 8 both sides to promote described flux leakage detector 8 and walk forward;

(3) when described flux leakage detector 8 walks to described simulation step straight length 4, and in the process walked on, be positioned at the described described highly pressurised liquid of flux leakage detector 8 both sides and the pressure of described low pressure liquid when all occurring rising fast, slowly strengthen the valve opening of described low pressure liquid escape hole 71 again, the pressure reduction of described flux leakage detector 8 both sides is increased, receive ball straight length 5 to make described flux leakage detector 8 by described simulation step straight length 4 and to arrive described simulation, namely complete the test of described simulative tube pipe magnet leakage detector by performance.

Embodiment 2

The present embodiment provides a kind of simulative tube pipe magnet leakage detector by the proving installation of performance, be provided with water inlet end, water side, simulation pipeline and flux leakage detector 8, described water inlet end is provided with highly pressurised liquid inlet 11, first row gas port 12 and the first tensimeter 13, described water side is provided with low pressure liquid escape hole 71, second exhaust port 72 and the second tensimeter 73, the closed at both ends of described simulation pipeline is arranged, and described flux leakage detector 8 is close to the inwall of described simulation pipeline and is walked along water flow direction.

The pressure of described highly pressurised liquid is 1.1MPa, and the pressure of described low pressure liquid is 0.3MPa; Pressure reduction between described highly pressurised liquid and described low pressure liquid is 0.8MPa.

Along water flow direction, described simulation pipeline is provided with simulation service straight length 3, simulation step straight length 4 and simulation successively and receives ball straight length 5; In the present embodiment, along water flow direction, the length ratio that described simulation service straight length 3, simulation step straight length 4, simulation receive ball straight length 5 is 2200:2350:2200, and the ratio that the internal diameter of ball straight length 5 is received in described simulation service straight length 3, described simulation step straight length 4 and described simulation is 800:850:800.

Along water flow direction, described water inlet end is provided with highly pressurised liquid straight length 1 and contraction section 2 successively, and described water side is provided with expansion segment 6 and low pressure liquid straight length 7 successively; In the present embodiment, along water flow direction, described highly pressurised liquid straight length 1 is 2800:620 with the length ratio of described contraction section 2; Described expansion segment 6 is 620:2800 with the length ratio of described low pressure liquid straight length 7; Further, the internal diameter of described simulation service straight length 3 is 803:1050 with the ratio of the internal diameter of described highly pressurised liquid straight length 1, and described low pressure liquid straight length 7 is 803:1050 with described ratio of simulating the internal diameter receiving ball straight length 5.

Described simulation step straight length 4 and described simulate to serve a ball between straight length 3 be provided with first step, described simulation is received between ball straight length 5 and described simulation step straight length 4 and is provided with second step; In the present embodiment, the height of described first step on the direction vertical with the axis of described simulation pipeline is 20mm, and the height of described second step on the direction vertical with the axis of described simulation pipeline is 20mm.

Based on the method for testing of described simulative tube pipe magnet leakage detector by the proving installation of performance, comprise the steps:

(1) described flux leakage detector 8 is put into the simulation service straight length 3 of described simulation pipeline, by the closed at both ends of described simulation pipeline, backward described simulation to receive in ball straight length 5 water filling till the water outlet of described low pressure liquid escape hole 71, close the valve of described low pressure liquid escape hole 71, described in whole the injecting process, flux leakage detector 8 keeps motionless;

(2) valve of described highly pressurised liquid inlet 11 is slowly opened, in described simulation service straight length 3, water filling is until described flux leakage detector 8 starts mobile, slowly open the valve of described low pressure liquid escape hole 71 afterwards, utilize the pressure reduction between the described highly pressurised liquid and described low pressure liquid of described flux leakage detector 8 both sides to promote described flux leakage detector 8 and walk forward;

(3) when described flux leakage detector 8 walks to described simulation step straight length 4, and in the process walked on, be positioned at the described described highly pressurised liquid of flux leakage detector 8 both sides and the pressure of described low pressure liquid when all occurring rising fast, slowly strengthen the valve opening of described low pressure liquid escape hole 71 again, the pressure reduction of described flux leakage detector 8 both sides is increased, receive ball straight length 5 to make described flux leakage detector 8 by described simulation step straight length 4 and to arrive described simulation, namely complete the test of described simulative tube pipe magnet leakage detector by performance.

Embodiment 3

The present embodiment provides a kind of simulative tube pipe magnet leakage detector by the proving installation of performance, be provided with water inlet end, water side, simulation pipeline and flux leakage detector 8, described water inlet end is provided with highly pressurised liquid inlet 11, first row gas port 12 and the first tensimeter 13, described water side is provided with low pressure liquid escape hole 71, second exhaust port 72 and the second tensimeter 73, the closed at both ends of described simulation pipeline is arranged, and described flux leakage detector 8 is close to the inwall of described simulation pipeline and is walked along water flow direction.

The pressure of described highly pressurised liquid is 1.0MPa, and the pressure of described low pressure liquid is 0.3MPa; Pressure reduction between described highly pressurised liquid and described low pressure liquid is 0.7MPa.

Along water flow direction, described simulation pipeline is provided with simulation service straight length 3, simulation step straight length 4 and simulation successively and receives ball straight length 5; In the present embodiment, along water flow direction, the length ratio that described simulation service straight length 3, simulation step straight length 4, simulation receive ball straight length 5 is 2500:2600:2500, and the ratio that the internal diameter of ball straight length 5 is received in described simulation service straight length 3, described simulation step straight length 4 and described simulation is 810:860:810.

Along water flow direction, described water inlet end is provided with highly pressurised liquid straight length 1 and contraction section 2 successively, and described water side is provided with expansion segment 6 and low pressure liquid straight length 7 successively; In the present embodiment, along water flow direction, described highly pressurised liquid straight length 1 is 3000:650 with the length ratio of described contraction section 2; Described expansion segment 6 is 650:3000 with the length ratio of described low pressure liquid straight length 7; Further, the internal diameter of described simulation service straight length 3 is 805:1200 with the ratio of the internal diameter of described highly pressurised liquid straight length 1, and described low pressure liquid straight length 7 is 805:1200 with described ratio of simulating the internal diameter receiving ball straight length 5.

Described simulation step straight length 4 and described simulate to serve a ball between straight length 3 be provided with first step, described simulation is received between ball straight length 5 and described simulation step straight length 4 and is provided with second step; In the present embodiment, the height of described first step on the direction vertical with the axis of described simulation pipeline is 50mm, and the height of described second step on the direction vertical with the axis of described simulation pipeline is 50mm.

Further, based on the method for testing of described simulative tube pipe magnet leakage detector by the proving installation of performance, comprise the steps:

(1) described flux leakage detector 8 is put into the simulation service straight length 3 of described simulation pipeline, by the closed at both ends of described simulation pipeline, backward described simulation to receive in ball straight length 5 water filling till the water outlet of described low pressure liquid escape hole 71, close the valve of described low pressure liquid escape hole 71, described in whole the injecting process, flux leakage detector 8 keeps motionless;

(2) valve of described highly pressurised liquid inlet 11 is slowly opened, in described simulation service straight length 3, water filling is until described flux leakage detector 8 starts mobile, slowly open the valve of described low pressure liquid escape hole 71 afterwards, utilize the pressure reduction between the described highly pressurised liquid and described low pressure liquid of described flux leakage detector 8 both sides to promote described flux leakage detector 8 and walk forward;

(3) when described flux leakage detector 8 walks to described simulation step straight length 4, and in the process walked on, be positioned at the described described highly pressurised liquid of flux leakage detector 8 both sides and the pressure of described low pressure liquid when all occurring rising fast, slowly strengthen the valve opening of described low pressure liquid escape hole 71 again, the pressure reduction of described flux leakage detector 8 both sides is increased, receive ball straight length 5 to make described flux leakage detector 8 by described simulation step straight length 4 and to arrive described simulation, namely complete the test of described simulative tube pipe magnet leakage detector by performance.

It should be noted that, flux leakage detector described in above-described embodiment 1-embodiment 3 is existing various types of flux leakage detector, that is, simulative tube pipe magnet leakage detector described in the utility model is by the proving installation of performance, being detected by performance flux leakage detector various types of in prior art can be applicable to, such as Chinese patent literature CN202746846U, CN203657734U, flux leakage detector disclosed in CN101819082A all can adopt proving installation described in the utility model to be detected by performance it, thus the qualification rate of accurate evaluation flux leakage detector, effectively avoid when using underproof flux leakage detector to detect long oil and gas pipeline, at inner-walls of duct, there is the blocking that flux leakage detector easily occurs for step or fault location, the accidents such as stoppage in transit, even cause the problem of serious consequence.

Obviously, above-described embodiment is only for clearly example being described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here without the need to also giving exhaustive to all embodiments.And thus the apparent change of extending out or variation be still among the protection domain of the invention.

Claims (1)

1. a simulative tube pipe magnet leakage detector is by the proving installation of performance, it is characterized in that, be provided with water inlet end, water side, simulation pipeline and flux leakage detector, described water inlet end is provided with highly pressurised liquid inlet, first row gas port and the first tensimeter, described water side is provided with low pressure liquid escape hole, second exhaust port and the second tensimeter, the closed at both ends of described simulation pipeline is arranged, and described flux leakage detector is close to the inwall of described simulation pipeline and is walked along water flow direction;

Along water flow direction, described simulation pipeline is provided with simulation service straight length, simulation step straight length and simulation successively and receives ball straight length, and the ratio that the internal diameter of ball straight length is received in described simulation service straight length, described simulation step straight length and described simulation is 800-810:850-860:800-810;

Be provided with first step between described simulation service straight length and described simulation step straight length, described simulation is received between ball straight length and described simulation step straight length and is provided with second step.

2. simulative tube pipe magnet leakage detector according to claim 1 is by the proving installation of performance, it is characterized in that, along water flow direction, the length ratio that described simulation service straight length, simulation step straight length, simulation receive ball straight length is 2000-2500:2300-2600:2000-2500.

3. simulative tube pipe magnet leakage detector according to claim 1 and 2 is by the proving installation of performance, it is characterized in that, along water flow direction, described water inlet end is provided with highly pressurised liquid straight length and contraction section successively, and described water side is provided with expansion segment and low pressure liquid straight length successively.

4. simulative tube pipe magnet leakage detector according to claim 3 is by the proving installation of performance, it is characterized in that, along water flow direction, the length ratio of described highly pressurised liquid straight length and described contraction section is 2500-3000:600-650.

5. simulative tube pipe magnet leakage detector according to claim 4 is by the proving installation of performance, it is characterized in that, along water flow direction, the length ratio of described expansion segment and described low pressure liquid straight length is 600-650:2500-3000.

6. the simulative tube pipe magnet leakage detector according to claim 1 or 2 or 4 or 5 is by the proving installation of performance, it is characterized in that, the internal diameter of described simulation service straight length is 800-805:1000-1200 with the ratio of the internal diameter of described highly pressurised liquid straight length, and described low pressure liquid straight length is 800-805:1000-1200 with described ratio of simulating the internal diameter receiving ball straight length.

7. simulative tube pipe magnet leakage detector according to claim 6 is by the proving installation of performance, it is characterized in that, the height of described first step on the direction vertical with the axis of described simulation pipeline is 20-50mm, and the height of described second step on the direction vertical with the axis of described simulation pipeline is 20-50mm.

8. the simulative tube pipe magnet leakage detector according to claim 1 or 2 or 4 or 5 or 7 is by the proving installation of performance, and it is characterized in that, the pressure of described highly pressurised liquid is 1.0-1.1MPa, and the pressure of described low pressure liquid is 0-0.8MPa; Pressure reduction between described highly pressurised liquid and described low pressure liquid is 0.3MPa-1.1MPa.