CN208833708U - Disc type coiled tubing damage detection apparatus - Google Patents

Abstract

The utility model discloses a kind of disc type coiled tubing damage detection apparatus, it is related to oil pipe detection field, the disc type coiled tubing damage detection apparatus includes: the casing mechanism with axis, and the casing mechanism has aperture in the axial direction, and the aperture for coiled tubing for passing through；Multiple telescoping mechanisms that setting is circumferentially distributed around the aperture, the telescoping mechanism include: the pedestal being fixed on the casing mechanism；Sliding part on the pedestal is set, and the sliding part can be slided along the pedestal；Elastic component, the elastic component can make the sliding part mobile to the axis direction；The inside being arranged on the sliding part is equipped with the accommodating member of giant magnetoresistance magnetic field sensor；The idler wheel close to described axis one end of the accommodating member is set.The application is able to detect the gross imperfection of coiled tubing, and can the stress collection to coiled tubing neutralize earlier damage and detect, provide support for the failure analysis and life appraisal of coiled tubing.

Description

Disc type coiled tubing damage detection apparatus

Technical field

The utility model relates to oil pipe detection field, in particular to a kind of disc type coiled tubing damage detection apparatus.

Background technique

A kind of application tool of the coiled tubing as Oil Field, have job execution it is high-efficient, without box cupling, can continuously rise Inferior advantage, and be able to satisfy the needs of some special process, making coiled tubing in recent years, field use is more and more at home Extensively.Therefore, the research for coiled tubing safety is particularly important, and coiled tubing can bear internal pressure in operation, draw Bend the collective effect of the load such as torsion, it may appear that deformation, aperture, cracking equivalent damage so cause the wall thickness of coiled tubing to occur Variation, easily causes safety accident.Through experiments, it was found that fatigue life cycle can reduce after defect occurs for material, and if in advance It detects the region that defect occurs and takes corresponding remedial measure, cycle-index when can make relative to generation defect is significantly Increase, so, non-destructive testing has a very big significance the application of coiled tubing.

Currently, common coiled tubing detection technique has EDDY CURRENT, electromagnetic acoustic detection, ultrasound detection etc..But whirlpool Stream detection limitation is state modulator hardly possible, and it is difficult as a result to explain, and limits conductive material.It is big and right that electromagnetic acoustic tests and analyzes difficulty The sensitivity requirement of probe is very high, implements more difficult.Ultrasound detection generally by reflecting damage indirectly to wall thickness measuring, But it is complete to surface and stress concentrates serious region that can not detect.Therefore, the new detection device of one kind is needed to continuous oil Pipe carries out damage check, to find coiled tubing existing defects.

Utility model content

In order to overcome the drawbacks described above of the prior art, the technical problem to be solved is that provide for the utility model embodiment A kind of disc type coiled tubing damage detection apparatus is able to detect the gross imperfection of coiled tubing, and can answer coiled tubing Power collection neutralizes earlier damage and is detected, and provides support for the failure analysis and life appraisal of coiled tubing.

The specific technical solution of the utility model embodiment is:

A kind of disc type coiled tubing damage detection apparatus, the disc type coiled tubing damage detection apparatus include:

Casing mechanism with axis, the casing mechanism have aperture in the axial direction, and the aperture is used for for continuous Oil pipe passes through；

Multiple telescoping mechanisms that setting is circumferentially distributed around the aperture, the telescoping mechanism include: to be fixed at institute State the pedestal on casing mechanism；Sliding part on the pedestal is set, and the sliding part can be slided along the pedestal；Elasticity Part, the elastic component can make the sliding part mobile to the axis direction；

The inside being arranged on the sliding part is equipped with the accommodating member of giant magnetoresistance magnetic field sensor；

The idler wheel close to described axis one end of the accommodating member is set.

In a preferred embodiment, the casing mechanism includes: the first disk body；It is fixed at first disk The second disk body above body；There is pre-determined distance, the telescoping mechanism setting between first disk body and second disk body Between first disk body and second disk body.

In a preferred embodiment, it is connected between first disk body and second disk body by connecting column It connects, first disk body includes multiple first disk body ring blocks, and second disk body includes multiple second disk body ring blocks, the first disk body The end of ring block and the second opposite disk body ring block is provided with link block, passes through locking screw between two pieces of adjacent link blocks It tethers and connects.

In a preferred embodiment, the aperture, second disk body are offered in the middle part of first disk body Middle part offer the aperture.

In a preferred embodiment, the pedestal is fixed on the upper surface of first disk body, described There is guide rail, the guide rail extends along the radial direction of the aperture, offers and the guide rail on the sliding part on pedestal The sliding slot to match.

In a preferred embodiment, one end of the elastic component is mutually fixed with first disk body or the pedestal Connection, the other end of the elastic component are mutually fixedly connected with the accommodating member or the sliding part.

In a preferred embodiment, the lower end of the accommodating member has the radially extended along the aperture One groove, the elastic component are located in first groove.

In a preferred embodiment, the upper end of the accommodating member offers close to one end of the axis direction Two grooves, the giant magnetoresistance magnetic field sensor are encapsulated in second groove.

In a preferred embodiment, the idler wheel is mounted on the accommodating member by bolt, is arranged at one The idler wheel of the accommodating member is two, and an idler wheel is located at the top of described accommodating member one end, another idler wheel is located at the appearance Set the lower section of part one end.

In a preferred embodiment, when coiled tubing passes through the aperture, the idler wheel is in the elastic component Under the action of be adjacent to the surface of the coiled tubing with generate sliding.

The technical solution of the utility model have it is following significant the utility model has the advantages that

Disc type coiled tubing damage detection apparatus in the application is used to carry out the magnetic memory signal of coiled tubing tube body Acquisition.When needing to carry out damage check to coiled tubing, by adjusting the distance between sliding part and pedestal in telescoping mechanism To which multiple accommodating members are mobile to the axis direction far from shell, in this way, coiled tubing can be threaded through to the aperture of shell In, due to the effect of elastic component in telescoping mechanism, sliding part has mobile trend to the axis direction, therefore on sliding part The accommodating member and idler wheel of setting can be close or be fitted on the side wall of coiled tubing.When coiled tubing is along the axis direction of shell When mobile, idler wheel enables coiled tubing smoothly to slide through in aperture, and at the same time, the giant magnetoresistance magnetic field in accommodating member passes Sensor can successively acquire the magnetic memory signal at coiled tubing difference tube body position, by the magnetic memory signal data of acquisition with Qualitative, positioning analysis is carried out to coiled tubing vessel wall damage position, to be early diagnosed, be detected a flaw to coiled tubing.

Referring to following description and accompanying drawings, the particular implementation of the utility model is disclosed in detail, specifies practical Novel principle can be in a manner of adopted.It should be understood that the embodiments of the present invention in range not thus by Limitation.In the range of the spirit and terms of appended claims, the embodiments of the present invention includes many changes, modifications With it is equivalent.The feature for describing and/or showing for a kind of embodiment can be in a manner of same or similar one or more It uses in a other embodiment, is combined with the feature in other embodiment, or the feature in substitution other embodiment.

Detailed description of the invention

Attached drawing described here is only used for task of explanation, and is not intended to limit in any way disclosed by the utility model Range.In addition, shape and proportional sizes of each component in figure etc. are only schematically, to be used to help the reason to the utility model Solution is not the specific shape and proportional sizes for limiting each component of the utility model.Those skilled in the art is practical new at this Under the introduction of type, various possible shapes and proportional sizes can be selected to implement the utility model as the case may be.

Fig. 1 is the front view of disc type coiled tubing damage detection apparatus in the utility model embodiment；

Fig. 2 is the sectional view of disc type coiled tubing damage detection apparatus in the utility model embodiment；

Fig. 3 is the schematic diagram of the first disk body in the utility model embodiment；

Fig. 4 is the schematic diagram of the second disk body in the utility model embodiment；

Fig. 5 is the schematic diagram that telescoping mechanism, accommodating member and idler wheel fit together in the utility model embodiment；

Fig. 6 is the top view of disc type coiled tubing damage detection apparatus in the utility model embodiment.

The appended drawing reference of the figures above:

1, casing mechanism；11, aperture；12, the first disk body；121, the first disk body ring block；13, the second disk body；131, second Disk body ring block；14, connecting column；15, link block；2, telescoping mechanism；21, pedestal；211, guide rail；22, sliding part；221, sliding slot； 23, elastic component；3, accommodating member；31, the first groove；32, the second groove；4, idler wheel.

Specific embodiment

In conjunction with the description of attached drawing and specific embodiment of the present invention, the utility model can be clearly understood Details.But specific embodiment of the present utility model described herein, it is only used for explaining the purpose of this utility model, without It can be understood as being limitations of the present invention in any way.Under the introduction of the utility model, technical staff is contemplated that Any possible deformation based on the utility model, these are regarded as belonging to the scope of the utility model.It needs to illustrate It is that when element is referred to as " being set to " another element, it can directly on the other element or there may also be placed in the middle Element.When an element is considered as " connection " another element, it can be directly to another element or can Centering elements can be existed simultaneously.Term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be mechanical connection or Electrical connection, the connection being also possible to inside two elements can be directly connected, can also indirectly connected through an intermediary, For the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.Made herein Term " vertical ", " horizontal ", "upper", "lower", "left", "right" and similar statement simply to illustrate that mesh , it is not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term as used herein "and/or" includes one or more Any and all combinations of relevant listed item.

In order to detect the gross imperfection of coiled tubing, and can the stress collection to coiled tubing neutralize earlier damage and carry out Detection, provides support for the failure analysis of coiled tubing and life appraisal, proposes a kind of disc type coiled tubing in this application Damage detection apparatus, Fig. 1 are the front view of disc type coiled tubing damage detection apparatus in the utility model embodiment, and Fig. 2 is this The sectional view of disc type coiled tubing damage detection apparatus in utility model embodiment, as depicted in figs. 1 and 2, disc type coiled tubing Damage detection apparatus may include: the casing mechanism 1 with axis, and casing mechanism 1 has aperture 11, aperture 11 in the axial direction For being passed through for coiled tubing；Multiple telescoping mechanisms 2 that setting is circumferentially distributed around aperture 11, telescoping mechanism 2 include: that fixation is set Set the pedestal 21 on casing mechanism 1；Sliding part 22 on pedestal 21 is set, and sliding part 22 can be slided along pedestal 21；Elasticity Part 23, elastic component 23 can make sliding part 22 mobile to axis direction；The inside being arranged on sliding part 22 is equipped with giant magnetoresistance The accommodating member 3 of magnetic field sensor；The idler wheel 4 by axial ray one end of accommodating member 3 is set.

Disc type coiled tubing damage detection apparatus in the application is used to carry out the magnetic memory signal of coiled tubing tube body Acquisition.When needing to carry out damage check to coiled tubing, by adjusting in telescoping mechanism 2 between sliding part 22 and pedestal 21 Distance is to mobile to the axis direction far from casing mechanism 1 by multiple accommodating members 3, in this way, coiled tubing can be threaded through In the aperture 11 of casing mechanism 1, due to the effect of elastic component 23 in telescoping mechanism 2, sliding part 22 has movement to axis direction Trend, therefore, the accommodating member 3 and idler wheel 4 that are arranged on sliding part 22 can be close or be fitted on the side wall of coiled tubing.When When coiled tubing is moved along the axis direction of casing mechanism 1, idler wheel 4 enables coiled tubing, and smoothly sliding is logical in aperture 11 It crosses, at the same time, the giant magnetoresistance magnetic field sensor in accommodating member 3 can successively acquire the magnetic at coiled tubing difference tube body position Memory signal, by the magnetic memory signal data of acquisition to carry out qualitative, positioning analysis to coiled tubing vessel wall damage position, from And coiled tubing is early diagnosed, is detected a flaw.

In order to the disc type coiled tubing damage detection apparatus being better understood by the application, it will be done into one below Walk description and interpretation.As shown in Figure 1, casing mechanism 1 has axis along the vertical direction, the middle part of casing mechanism 1 is along axis side To with aperture 11, aperture 11 for being passed through for coiled tubing, the aperture 11 can rounded or other shapes, only need to meet Coiled tubing can pass through.

Fig. 3 is the schematic diagram of the first disk body 12 in the utility model embodiment, and Fig. 4 is second in the utility model embodiment The schematic diagram of disk body 13, shown as shown in Figure 1, Figure 3 and Figure 4, casing mechanism 1 may include: the first disk body 12；It is fixed at first Second disk body 13 of 12 top of disk body；There is pre-determined distance, the setting of telescoping mechanism 2 exists between first disk body 12 and the second disk body 13 Between first disk body 12 and the second disk body 13.Space can be saved by this way, and can be to avoid telescoping mechanism 2 by external force Damage.The middle part of first disk body 12 offers aperture 11, and the middle part of the second disk body 13 offers aperture 11, and the first disk body 12 is opened The aperture 11 of hole 11 and the second disk body 13 for coiled tubing for passing through.

As depicted in figs. 1 and 2, in order to make the first disk body 12 and the second disk body 13 be capable of fixing and link together, And be able to maintain pre-determined distance between the two, in a kind of feasible embodiment, the first disk body 12 and the second disk body 13 it Between be connected by connecting column 14.Connecting column 14 can be the cylindrical body of variable diameters, and both ends are contour small diameter cylinders, the Circular hole is offered on one disk body 12 and the second disk body 13, so that in the small diameter cylinders insertion circular hole of connecting column 14, then It can be fixed by welding or nut.Connecting column 14 can be around the axis of casing mechanism 1 in circumferentially distributed.

Shown in as shown in Figure 1, Figure 3 and Figure 4, the first disk body 12 may include multiple first disk body ring blocks 121, and the second disk body 13 can To include multiple second disk body ring blocks 131, the end of the first disk body ring block 121 and the second opposite disk body ring block 131 is provided with Link block 15 passes through clamping screw between two pieces of adjacent link blocks 15 and connects.Enable connected ring block by link block 15 It is enough fixed together, to form complete disk body.In the present embodiment, the first disk body 12 includes two piece of first disk body Ring block 121, the first disk body ring block 121 are in semi-annular shape, and the second disk body 13 includes two piece of second disk body ring block 131, the second disk body Ring block 131 is also in semi-annular shape.End between first disk body ring block 121 and the second disk body ring block 131 is fixedly installed connection Block 15, can be locked by positioning pin between link block 15 and the first disk body ring block 121, the second disk body ring block 131, can also lead to It crosses bolt to fix, can also be fixedly welded fixed etc..Pass through horizontally disposed lock between two pieces of adjacent link blocks 15 It tightly is bolted fixation, detachably state between the ring block that can so to be connected.By dismountable connecting column 14 and even This disc type coiled tubing damage detection apparatus can be opened at any time by connecing 15 clamping screws of block, be pacified in this way convenient for the later period to device Dress and maintenance.

Fig. 5 is the schematic diagram that telescoping mechanism, accommodating member and idler wheel fit together in the utility model embodiment, and Fig. 6 is The top view of disc type coiled tubing damage detection apparatus in the utility model embodiment, as shown in Figure 2, Figure 5 and Figure 6, Duo Geshen Contracting mechanism 2 is circumferentially distributed setting around aperture 11, and telescoping mechanism 2 includes: the pedestal 21 being fixed on casing mechanism 1；If The sliding part 22 on pedestal 21 is set, sliding part 22 can be slided along guide rail 211；Elastic component 23, elastic component 23 can make sliding part 22 is mobile to axis direction.

As shown in figure 5, the pedestal 21 equipped with several threaded holes, for fixing in telescoping mechanism 2 is opened up on the first disk body 12, Through-hole is offered on pedestal 21, is mutually fixedly connected between pedestal 21 and the first disk body 12 by screw.Pedestal 21 is fixed at On the upper surface of first disk body 12, there is guide rail 211 on pedestal 21, guide rail 211 extends along the radial direction of aperture 11, sliding part The sliding slot 221 to match with guide rail 211 is offered on 22.In a kind of feasible embodiment, the track of pedestal 21 is two sides The concave groove having, the sliding slot 221 of sliding part 22 are the concave slot of two sides, the concave groove of pedestal 21 and the concave slot of sliding part 22 Xiang Ka, so that sliding part 22 can slide on pedestal 21 along the radial direction of aperture 11.Of course, in other embodiment party In formula, guide rail 211 and sliding slot 221 can be the other structures form to match, not do any restrictions to it in this application.

In order to enable elastic component 23 to make sliding part 22 mobile to axis direction, one end of elastic component 23 and the first disk body 12 Or 21 phase of pedestal is fixedly connected, the other end of elastic component 23 is fixedly connected with accommodating member 3 or 22 phase of sliding part.Pass through above-mentioned side Formula, when sliding part 22 is mobile backwards to aperture 11, the circular space formed between multiple accommodating members 3 increases, in this way, may be implemented Variable diameter is to detect various sizes of coiled tubing.Meanwhile elastic component 23 has sliding part 22 to axis direction shifting Dynamic trend, in this way, guaranteeing that the accommodating member 3 on sliding part 22 can be tightly attached on the side wall of coiled tubing, and then convenient for accommodating Giant magnetoresistance magnetic field sensor in part 3 carries out Magnetic memory testing to the tube wall of coiled tubing.

In the present embodiment, as shown in Fig. 2, one end of elastic component 23 is mutually solid at aperture 11 with the first disk body 12 Fixed, the one end of the other end of elastic component 23 with accommodating member 3 far from aperture 11 is mutually fixed.Elastic component 23 can select spring, spring Both ends pass through screw respectively and fixed with accommodating member 3 and 12 phase of the first disk body.The lower end of accommodating member 3 has a diameter along aperture 11 To the first groove 31 of extension, elastic component 23 is located in the first groove 31.It through the above way can entire disc type coiled tubing The structure of damage detection apparatus is more compact.In other embodiments, one end of elastic component 23 is fixedly connected with 21 phase of pedestal, The other end of elastic component 23 is fixedly connected with 22 phase of sliding part.

As shown in figure 4, accommodating member 3 is fixed on sliding part 22.Specifically, between accommodating member 3 and sliding part 22 It can be fixed by screw.The upper end of accommodating member 3 offers the second groove 32, giant magnetoresistance magnetic close to one end of axis direction Field sensor is encapsulated in the second groove 32.For example, giant magnetoresistance magnetic field sensor can be encapsulated in the second groove by marine glue In 32, to avoid giant magnetoresistance magnetic field sensor short circuit failure.

As shown in Figure 2 and Figure 6, idler wheel 4 be arranged in accommodating member 3 by axial ray one end.In a kind of feasible embodiment In, idler wheel 4 is mounted on accommodating member 3 by bolt, and the idler wheel 4 that an accommodating member 3 is arranged in is two, and an idler wheel 4 is located at The top of 3 one end of accommodating member, another idler wheel 4 are located at the lower section of 3 one end of accommodating member.When coiled tubing passes through aperture 11, one Two idler wheels 4 are arranged on a accommodating member 3 can make coiled tubing remain perpendicular to the angle of the first disk body 12, avoid continuous oil Pipe tilts, thus appearance when the giant magnetoresistance magnetic field sensor in accommodating member 3 being avoided to detect the tube wall of coiled tubing Error.Idler wheel 4 can guarantee that giant magnetoresistance magnetic field sensor in the lift-off value stable operation of oil pipe surface, makes the sliding in detection process Friction becomes rolling friction, to reduce the loss to coiled tubing and detection device, and then increases coiled tubing and inspection Survey the service life of device.

Disc type coiled tubing damage detection apparatus portable construction in the application, it is easy to use, be easy to load and unload, it is mountable It is used on coiled tubing injection head.When tested coiled tubing is filled by given pace and direction across disc type coiled tubing damage check When aperture 11 in setting, telescopic telescoping mechanism 2 is bonded the giant magnetoresistance magnetic field sensor in accommodating member 3 well continuously The outer surface of oil pipe, and by idler wheel 4 along tube wall linear relative movement.The ferromagnetic component of coiled tubing tube wall in operation because The lower deformation for generating magnetoelastic properties of external carbuncle effect for bearing the load such as internal pressure, tension and compression bending, causes the displacement of neticdomain wall, To change the spontaneous manetization direction of magnetic domain, the variation of free stray field signal value, the method in magnetic field are formed in region of stress concentration Change and have zero point to component direction, tangential component has maximum value.It is this because of magneto-mechanical effect after external carbuncle is removed The reorientation of the magnetic domain tissue of initiation still will continue to retain, and thus remember ferromagnetic component microdefect or its stress collection In position.The present apparatus can be vertically moved along coiled tubing, be acquired by giant magnetoresistance magnetic field sensor to magnetic memory signal, Based on magnetic memory detection technology, which can not only detect the gross imperfection of coiled tubing, and Stress can be concentrated and earlier damage detects, provided strong support for the failure analysis and life appraisal of coiled tubing.

All articles and reference disclosed, including patent application and publication, for various purposes by quoting knot Together in this.Describing combined term " substantially by ... constitute " should include identified element, ingredient, component or step and reality Other elements, ingredient, component or the step of the basic novel feature of the combination are not influenced in matter.Using term "comprising" or " comprising " describes the combination of element here, ingredient, component or step it is also contemplated that substantially by these elements, ingredient, component Or the embodiment that step is constituted.Here by using term " can with ", it is intended to illustrate that " can with " includes described any Attribute is all optional.Multiple element, ingredient, component or step can be mentioned by single integrated component, ingredient, component or step For.Alternatively, single integrated component, ingredient, component or step can be divided into multiple element, ingredient, component or the step of separation Suddenly.For describe the open "a" or "an" of element, ingredient, component or step do not say in order to exclude other elements, at Point, component or step.

All the embodiments in this specification are described in a progressive manner, the highlights of each of the examples are with The difference of other embodiments, the same or similar parts between the embodiments can be referred to each other.Above-described embodiment is only Illustrate the technical ideas and features of the present invention, it is practical new its object is to allow person skilled in the art that can understand this The content of type is simultaneously implemented accordingly, does not limit the protection scope of the present invention.It is all real according to the spirit of the present invention Equivalent change or modification made by matter, should be covered within the scope of the utility model.

Claims (10)

1. a kind of disc type coiled tubing damage detection apparatus, which is characterized in that the disc type coiled tubing damage detection apparatus packet It includes:

Casing mechanism with axis, the casing mechanism have aperture in the axial direction, and the aperture is used for for coiled tubing It passes through；

Multiple telescoping mechanisms that setting is circumferentially distributed around the aperture, the telescoping mechanism include: to be fixed at the shell Pedestal on body mechanism；Sliding part on the pedestal is set, and the sliding part can be slided along the pedestal；Elastic component, institute Stating elastic component can make the sliding part mobile to the axis direction；

The inside being arranged on the sliding part is equipped with the accommodating member of giant magnetoresistance magnetic field sensor；

The idler wheel close to described axis one end of the accommodating member is set.

2. disc type coiled tubing damage detection apparatus according to claim 1, which is characterized in that the casing mechanism packet It includes: the first disk body；The second disk body being fixed above first disk body；First disk body and second disk body it Between there is pre-determined distance, the telescoping mechanism is arranged between first disk body and second disk body.

3. disc type coiled tubing damage detection apparatus according to claim 2, which is characterized in that first disk body and institute It states and is connected between the second disk body by connecting column, first disk body includes multiple first disk body ring blocks, second disk body Including multiple second disk body ring blocks, the end of the first disk body ring block and the second opposite disk body ring block is provided with link block, adjacent Two pieces of link blocks between pass through clamping screw connect.

4. disc type coiled tubing damage detection apparatus according to claim 2, which is characterized in that in first disk body Portion offers the aperture, offers the aperture in the middle part of second disk body.

5. disc type coiled tubing damage detection apparatus according to claim 2, which is characterized in that the pedestal fixed setting On the upper surface of first disk body, there is guide rail on the pedestal, the guide rail extends along the radial direction of the aperture, The sliding slot to match with the guide rail is offered on the sliding part.

6. disc type coiled tubing damage detection apparatus according to claim 2, which is characterized in that one end of the elastic component It is mutually fixedly connected with first disk body or the pedestal, the other end of the elastic component and the accommodating member or the sliding part Mutually it is fixedly connected.

7. disc type coiled tubing damage detection apparatus according to claim 6, which is characterized in that the lower end of the accommodating member With one along the aperture the first groove radially extended, the elastic component is located in first groove.

8. disc type coiled tubing damage detection apparatus according to claim 1, which is characterized in that the upper end of the accommodating member One end close to the axis direction offers the second groove, and the giant magnetoresistance magnetic field sensor is encapsulated in second groove In.

9. disc type coiled tubing damage detection apparatus according to claim 1, which is characterized in that the idler wheel passes through bolt It is mounted on the accommodating member, the idler wheel that an accommodating member is arranged in is two, and an idler wheel is located at the accommodating member one The top at end, another idler wheel are located at the lower section of described accommodating member one end.

10. disc type coiled tubing damage detection apparatus according to claim 1, which is characterized in that when coiled tubing passes through When the aperture, the idler wheel is adjacent to the surface of the coiled tubing under the action of elastic component to generate sliding.