CN207908399U - A kind of seamless steel pipe detection device - Google Patents

Abstract

A kind of seamless steel pipe detection device of the utility model offer adopts camera structure and second light source component including control base station, first light source component, first；Described first adopts camera structure is electrically connected with the control base station；The first light source component includes first annular light source, and the second light source component includes the second annular light source, second annular light source and the opposite light extraction irradiation of the first annular light source, and the illumination range of first annular light source and the second annular light source partially overlaps；The first perforation is offered on first annular light source, and the second perforation is offered on the second annular light source；Described first adopts camera structure between first annular light source and the second annular light source, to obtain the seamless steel pipe photo across the first perforation and the second perforation.

Description

A kind of seamless steel pipe detection device

【Technical field】

The utility model is related to seamless steel pipe detection technique field more particularly to a kind of seamless steel pipe detection devices.

【Background technology】

In recent years the Process of Urbanization Construction in China, new industrialization continuous promotion, seamless steel pipe application field is more and more, It is increasing to the demand of seamless steel pipe, it is also higher and higher simultaneously for the performance and surface quality requirements of steel pipe.

Detection of the major part seamless steel tube production enterprise to the surface defect of seamless steel pipe at present, most of enterprise still with Subject to manual measurement, the phenomenon that not only influencing speed of production, and be susceptible to missing inspection, false retrieval, to cause larger rework rate, Influence production efficiency.

Therefore, the surface defect for how fast and accurately detecting seamless steel pipe is that current those skilled in the art urgently solve Certainly the technical issues of.

【Utility model content】

To overcome detection efficiency present in current artificial detection and the low technical problem of accuracy rate, the utility model to provide A kind of seamless steel pipe detection device.

The technical solution that the utility model solves technical problem is to provide a kind of seamless steel pipe detection device, including：Control Base station, first light source component, first adopt camera structure and second light source component；Described first adopts camera structure and the control base station Electrical connection；The first light source component includes first annular light source, and the second light source component includes the second annular light source, described Second annular light source and the opposite light extraction irradiation of the first annular light source, and the illumination of first annular light source and the second annular light source Range section overlaps；The first perforation is offered on first annular light source, and the second perforation is offered on the second annular light source；Described One adopts camera structure between first annular light source and the second annular light source, to obtain across the first perforation and the second perforation Seamless steel pipe photo.

Preferably, the first light source component further includes first light source holder, and the first annular light source may connect to institute First light source holder is stated, and can be shifted up perpendicular to seamless steel pipe sender with respect to first light source holder；Second light Source component further includes second light source holder, and second annular light source may connect to the second light source holder, and can be with respect to Two light source brackets are shifted up perpendicular to seamless steel pipe sender.

Preferably, described first to adopt camera structure include first camera and the first adjusting bracket, first adjusting bracket It is connect with control base station, the first camera is detachably connected with first adjusting bracket.

Preferably, first adjusting bracket includes first direction adjusting bracket and second direction adjusting bracket, and described One direction adjusting bracket is set to be connect with control base station；First camera is connect with second direction adjusting bracket；Second direction tune Saving holder can be with respect to the displacement in the first direction and a second direction of first direction adjusting bracket；The first direction is perpendicular to nothing The direction that seam steel pipe transmits between first light source component and second light source component；The second direction is to be parallel to seamless steel pipe The direction transmitted between first light source component and second light source component.

Preferably, the seamless steel pipe detection device further includes transport mechanism, and the transport mechanism is connect with control assembly, And adopted with first as component and second are adopted as component is arranged in a linear, for transmitting seamless steel pipe.

Preferably, the transport mechanism at least two is located at first light source component and first light source component light extraction Direction opposite side.

Preferably, the seamless steel pipe detection device further includes rotating mechanism, and the rotating mechanism is set to transport mechanism It is electrically connected between first light source component, and with control assembly.

Preferably, the rotating mechanism includes runing rest, the first swing roller and the second swing roller；First rotation Idler wheel and the second swing roller are rotatablely connected with runing rest, and the first swing roller and the second swing roller rotation center It is consistent with the conveying direction of seamless steel pipe.

Preferably, the seamless steel pipe detection device further includes second adopting camera structure and panel light source, and panel light source is set It is placed between transport mechanism and first light source component or transport mechanism and second light source component, second, which adopts camera structure, is set to panel Above light source, to acquire the diameter of seamless steel pipe.

Preferably, be provided with control assembly and display panel on the control base station, the control assembly, display panel with First adopts the electrical connection of camera structure.

Compared with existing design, seamless steel pipe detection device provided by the utility model has the following advantages：

1, it is set between first light source component and second light source component by adopting camera structure by first, and first light source group The light extraction of the first annular light source of part and the second annular light source of second light source component is irradiated in opposite directions so that is in first annular light Seamless steel pipe M between source and the second annular light source can be irradiated by uniform light, and the defect of outer surface highlights under light illumination Out, so that first adopts the capture of camera structure.

Further, since polishing light source is annular light source, the illumination of annular light source is more bonded the surface of seamless steel pipe M, beats Light effect is more excellent, and the clear image that camera structure obtains seamless steel pipe M to be detected is adopted conducive to first.

Closer to further, first annular light source and the second annular light source irradiate in opposite directions, light along seamless steel pipe M length Extending direction is propagated, and the illumination reflection of outer surface is reduced, to which first adopts camera structure and can clearly capture the appearance of seamless steel pipe M The picture in face, accurately to judge surface defect.

2, adopting camera structure by setting transport mechanism, rotating mechanism and first makes seamless steel pipe in transmit process not Disconnected overturning, consequently facilitating first adopts the camera structure acquisition more comprehensive photo in the surfaces seamless steel pipe M.

【Description of the drawings】

Figure 1A is the seamless steel pipe detection device dimensional structure diagram that the utility model first embodiment is provided.

Figure 1B is seamless steel pipe structural schematic diagram to be detected.

Fig. 2A is the first light source modular construction for the seamless steel pipe detection device that the utility model first embodiment is provided Schematic diagram.

Fig. 2 B are the rings of the first light source component for the seamless steel pipe detection device that the utility model first embodiment is provided The schematic diagram of shape light-source structure.

Fig. 2 C are the structural schematic diagrams of the annular light source light extraction irradiation of the utility model first light source component.

Fig. 3 is that the second light source modular construction for the seamless steel pipe detection device that the utility model first embodiment is provided shows It is intended to.

Fig. 4 is the first of the seamless steel pipe detection device that the utility model first embodiment is provided to adopt as mechanism assembly shows It is intended to.

Fig. 5 is that the structure for the seamless steel pipe detection device progress Surface testing that the utility model first embodiment is provided is shown It is intended to.

Fig. 6 A are a kind of Deformable Volumetric structure structural schematic diagrams of seamless steel pipe detection device provided by the utility model.

Fig. 6 B are a kind of transport mechanism structural schematic diagrams of deformation of seamless steel pipe detection device provided by the utility model.

Fig. 7 A are the dimensional structure diagrams of another deformation of seamless steel pipe detection device provided by the utility model.

Fig. 7 B are the rotating mechanism structural representations of seamless steel pipe detection device another kind deformation provided by the utility model Figure.

Fig. 8 is the dimensional structure diagram of another deformation of seamless steel pipe detection device provided by the utility model.

Fig. 9 is the seamless steel pipe detection device dimensional structure diagram that the utility model second embodiment is provided.

Figure 10 is that the seamless steel pipe detection device seamless steel pipe that the utility model second embodiment is provided passes through panel light Structural schematic diagram when source.

【Specific implementation mode】

In order to make the purpose of this utility model, technical solution and advantage be more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to solve The utility model is released, is not used to limit the utility model.

A-1B is please referred to Fig.1, as shown in Figure 1B, the length of seamless steel pipe M to be detected is L, a diameter of R, seamless steel pipe Surface defect it is common have tiny scuffing, small slag inclusion, small lobe, small foreign matter, protrusion and recess etc., those defects are sentenced with human eye There can be large error when disconnected, and efficiency is low.The surface of seamless steel pipe M is relatively smooth simultaneously, under unsuitable lighting angle, Reflective phenomenon can occur, influence the judgement to its surface defect.

As shown in Figure 1A, the utility model provides a kind of seamless steel pipe detection device 10, for detecting outside seamless steel pipe M The quality testing in face.The seamless steel pipe detection device 10 includes control base station 90, and first light source component 60, first adopts camera structure 70 And second light source component 80.First light source component 60 and second light source component 70 are used to provide to seamless steel pipe M to be detected Illumination source, so that seamless steel pipe surface texture can clearly be obtained by adopting camera structure 70.First, which adopts camera structure 70, is set to first Between light source assembly 60 and second light source component 80, the image for obtaining seamless steel pipe surface.Control base station 90 and the first light Source component 60, first adopts camera structure 70 and the electrical connection of second light source component 80, to control 60 second light source of the first power supply module Component 80 and first adopt camera structure 70 collaborative work.

It is provided with control assembly 901, display panel 903 and processor (not shown) on control base station 90, wherein controlling Component 901 and first light source component 60, first adopts camera structure 70 and the electrical connection of second light source component 80, and first adopts camera structure 70 are electrically connected with processor, and the first image data information for adopting camera structure 70 can be for transmission to being handled in processor.Operation Personnel can control first light source component 60 by control assembly 901, first adopt camera structure 70 and second light source component 80 it Between cooperate so that first adopts camera structure 70 and completes the image of seamless steel pipe M and obtain, and the seamless steel pipe M that will be got Image transmitting to processor in, processor image is handled and judge image information whether there is defect, and will processing Result can be shown by display panel 903.

Fig. 2A -2C are please referred to, first light source component 60 includes first light source holder 601 and first annular light source 603, the One light source bracket 601 is connected to control base station 90 and connects, and first annular light source 603 is connected to first light source holder 601, and can phase To the displacement in the vertical direction of first light source holder 601, i.e., in the displacement on the vertical direction that seamless steel pipe transmits, to adjust The height of whole first annular light source 603.

First annular light source 603 includes annular ledge 6031 and lamp bead 6033, annular ledge 6031 and first light source branch Frame 601 connects, and can be with respect to the displacement in the vertical direction of first light source holder 601.Annular ledge 6031 is provided with the first perforation 6035, it is preferable that 6035 structure in a ring of the first perforation.Lamp bead 6033 is multiple, is located on around the first perforation 6035.It is to be checked The seamless steel pipe M of survey is passed through from the first perforation 6035, and lamp bead 6033 beats illumination seamless along the length direction of seamless steel pipe M The outer surface of steel pipe M so that the defect of outer surface highlights under light illumination, and reduces the light of the outer surface of seamless steel pipe M According to reflection, so that first adopts the picture that camera structure 70 can clearly capture the outer surface of seamless steel pipe M.

Referring to Fig. 3,60 structure having the same of second light source component 80 and first light source component, including second light source branch Frame 801 and the second annular light source 303, second light source holder 801 are connected to control base station 90 and connect, the second annular light source 803 It is connected to second light source holder 801, and can be with respect to second light source holder 801 upper perpendicular to the direction that seamless steel pipe transmits It moves, i.e. displacement in the vertical direction, to adjust the height of the second annular light source 803.

Second annular light source 803 and 603 structure having the same of first annular light source, including annular ledge 8031 and lamp Pearl 8033, annular ledge are provided with the second perforation 8035, and lamp bead 8033 is multiple, is located on around the second perforation 8035.Second Second annular light source 803 of light source assembly 80 and the first annular light source 603 of first light source component 60 and light direction on the contrary, Opposite irradiation, and the illumination range of the illumination range of first annular light source 603 and the second annular light source 803 partially overlaps, with more It is clearly radiated at the surface of the steel pipe to be detected between the second annular light source 803 and first annular light source 603, adopts picture so as to first Mechanism 70 obtains relatively sharp picture.

Referring to Fig. 4, first adopts camera structure 70 and be set between first light source component 60 and second light source component 80, it is used for It obtains by seamless between the first perforation 6035 of first light source component 60 and the second perforation 8035 of second light source component 80 The photo of steel pipe.

Specifically, first adopt camera structure 70 include first camera 703 and the first adjusting bracket 701, the first adjusting bracket 701 connect with control base station 90, and first camera 703 is detachably connected with the first adjusting bracket 701, passes through the first adjusting bracket 701 realize the spacing between first cameras 703 and seamless steel pipe M to be detected, to choose optimal image distance of adopting from ensureing first Camera 703 is adopted as effect, while first camera 703 is electrically connected with control base station 90.Preferably, first camera industry phase Machine, measurement accuracy 0.1mm/pixel.

Specifically, the first adjusting bracket 701 includes first direction adjusting bracket 7011 and second direction adjusting bracket 7013. First direction adjusting bracket 7011 is connect with control base station 90, second direction adjusting bracket 7013 and first direction adjusting bracket 7011 flexible connections, first camera 703 are connect with second direction adjusting bracket 7013, and second direction adjusting bracket 7013 can phase To the displacement in a first direction of first direction adjusting bracket 7011, to realize the displacement of first camera 703 in a first direction Adjust, in the present embodiment, first direction be perpendicular to seamless steel pipe between first light source component 60 and second light source component 80 The direction of transmission.

Meanwhile sliding slot (not shown) is provided in second direction adjusting bracket 7013, it is adjusted by sliding slot and first direction Holder 7011 is slidably connected, so that second direction adjusting bracket 7013 can also opposite first direction adjusting bracket 7011 displacements in a second direction, to drive opposite first displacement in a second direction of adjusting bracket 701 of first camera 703, Accurately to adjust the adopting as effect of first camera 703.

Second direction be seamless steel pipe M the direction of transfer between first light source component 60 and second light source component 80 each other Parallel direction, first direction and second direction are mutually perpendicular to.

It is appreciated that can also be the first the first adjusting bracket 701 for adopting camera structure 70 and control in some embodiments Base station 90 is slidably connected cooperation, can be with the displacement in a second direction of relation control base station 90, to drive first camera 703 second Side shifts up.First camera 703 realizes first camera 703 with respect to the first displacement in a second direction of adjusting bracket 701 simultaneously The displacement in a second direction of relation control base station 90.

Only need first camera 703 real with relation control base station 90 in a first direction with second direction displacement Adopting as effect for first camera 703 is now accurately adjusted in the first direction and a second direction.

First direction is the side transmitted between first light source component 60 and second light source component 80 perpendicular to seamless steel pipe To.Second direction is that the direction of transfer between first light source component 60 and second light source component 80 of seamless steel pipe M is parallel each other Direction

Referring to Fig. 5, when being detected to the surface of seamless steel pipe M, under external equipment or operating personnel's cooperation, by nothing Seam steel pipe M is rotated and is sent between first light source component 60 and second light source component 80, first annular light source 603 and the second ring 803 opposite polishing of shape light source so that the seamless steel pipe M between first light source component 60 and second light source component 80 can be abundant Illumination, first, which adopts camera structure 70, continuously acquires seamless steel to be detected between first light source component 60 and second light source component 80 Picture, photo or the image information of pipe M, and the picture got, photo or image information are sent in control base station 90 Processor, processor will include on its display panel 903 after picture, photo or Image Information Processing, and operator can pass through 903 display of display panel or the defect information of seamless steel pipe M.

When first adopts camera structure 70 and obtain picture, since first annular light source 603 and the second annular light source 803 shine downwards It penetrates and the surfaces seamless steel pipe M between first annular light source 603 and the second annular light source 803 is irradiated by uniform illumination, So that the defects of tiny scuffing on the surfaces seamless steel pipe M, small slag inclusion, small lobe, small foreign matter, protrusion and recess, appears more bright It is aobvious.

Simultaneously as first annular light source 603 and the second irradiation in opposite directions of annular light source 803, light is along seamless steel pipe M's Length extending direction propagates irradiation, reduces the surface reflection of seamless steel pipe M so that first, which adopts camera structure 70, can get clearly The surfaces seamless steel pipe M picture, accurately to judge surface defect.It avoids light source directly to irradiate the surfaces seamless steel pipe M, make Seamless steel pipe surface reflection is obtained, causing first to adopt, the seamless steel pipe M pictures that camera structure 70 is got are unintelligible, and None- identified is seamless The shortcomings that surface defect of steel pipe M.

Artificial naked eyes can not identify tiny scuffing, small slag inclusion, small lobe and the small foreign matter of steel pipe at a distance under light illumination The defects of, and the general measure precision of first camera 703 can guarantee 0.1mm/pixel, therefore the tiny surface defect of steel pipe is not It is easy to miss inspection, greatly shortens steel tube surface and check process time, and low surface reflection greatly enhances first camera 703 and obtains The readability for obtaining picture, increases the accuracy of defect dipoles.

It is appreciated that in some embodiments, seamless steel pipe detection device 10 can be only there are one light source assembly that is, the One light source assembly 60 or second light source component 80 need to only ensure that the light source of light source assembly (60,80) is annular light source, annular light source On be provided with perforation, in case seamless steel pipe passes through, seamless steel pipe to be detected from the perforation of annular light source across when, annular light source Can be uniformly to seamless steel pipe polishing, first adopts the picture in acquisition light source assembly (the 60,80) illumination range of camera structure 70.

Fig. 6 A-6B are please referred to, seamless steel pipe detection device 10 further includes transport mechanism 20, conveyer in some embodiments Structure 20 can transmit detection automatically for transmitting seamless steel pipe to be detected to complete steel pipe.Transport mechanism 20 can independently be set It sets, can also be set on control base station 90.It is carried out so that transport mechanism 20 is set on control base station 90 as an example in the present embodiment Illustrate, transport mechanism 20 includes transmission holder 201, delivery roller 203 and conveyer belt 205.Holder 201 connects with control base station 90 It connects, delivery roller 203 is rotatably assorted with transmission holder 201, and conveyer belt 205 is contacted with delivery roller 203, and motor (not shown) is driven Dynamic delivery roller 203 drives conveyer belt 205 to rotate synchronously to complete the seamless steel pipe M to being placed on conveyer belt 205 when rotating Transmission.

Transport mechanism 20 is one, two or more, only needs that transmission to seamless steel pipe M can be completed.Preferably, it passes It is two to send mechanism 20,80 light direction opposite side of light source assembly 60 and second light source component is located at, to realize seamless steel The continuous of pipe transmits continuously to detect.

Fig. 7 A-7B are please referred to, seamless steel pipe detection device 10 further includes rotating mechanism 30 in some embodiments, for revolving Turn seamless steel pipe M to be detected, with the outer surface of complete detection seamless steel pipe M.Specifically, rotating mechanism 30 includes runing rest 301, the first swing roller 303 and the second swing roller 305.Runing rest 301 is connect with control base station 90, the first rotation rolling Wheel 303 and the second swing roller 305 are rotatablely connected with runing rest 301.Under the driving of motor (not shown), the first rotation Idler wheel 303 and the second swing roller 305 synchronize rotating Vortex, and the first swing roller 303 and the rotation of the second swing roller 305 It is consistent with the conveying direction of seamless steel pipe to turn center, the first swing roller 303 and the second swing roller 305 are placed on to drive On seamless steel pipe M rotation.

Preferably, rotating mechanism 30 is two, the phase being separately positioned on the direction of control 90 seamless steel pipe of base station transmission To both ends, continuously detected with realizing the continuous rotation of seamless steel pipe M.

It is appreciated that rotating mechanism 30 can also be one or more, only need to complete be to the rotation of seamless steel pipe M It can.

Referring to Fig. 8, in some embodiments, 10 rotating mechanism 30 of seamless steel pipe detection device and transport mechanism 20 are equal Have, and structure is consistent with rotating mechanism 30 above-mentioned and transport mechanism 20, this will not be repeated here.

Fig. 9 and Figure 10 are please referred to, the utility model second embodiment provides a kind of seamless steel pipe detection device 210, with The different place of first embodiment is, seamless steel pipe detection device 210 further includes second adopting camera structure 40 and panel light source 50.Second, which adopts camera structure 40 and first, adopts 70 structure having the same of camera structure.Panel light source 50 is set to 230 He of transport mechanism Between first light source component 260, and it is electrically connected with control assembly 2901.Second, which adopts camera structure 40, is set on panel light source 50 Side, the photo for obtaining seamless steel pipe, to the diameter information of the seamless steel pipe obtained.

When seamless steel pipe M to be detected passes through panel 50 top of light source, second adopts the figure that camera structure 40 obtains seamless steel pipe M Picture.In the picture, panel light source 50 is first area S1 by seamless steel pipe M shield portions region, and first area S1 is black, not It is second area S2 by seamless steel pipe M shield portions, second area S2 is white.

Second, which adopts camera structure 40, is transferred to the image information of acquisition in processor, and processor measures the width of first area S1 Spend d, you can the diameter data for knowing seamless steel pipe M, by the diameter data compared with the threshold values set in processor, you can judge Whether the diameter of the seamless steel pipe M of detection meets the requirements.

It is appreciated that in some embodiments, panel light source 50 is set to transport mechanism 230 and second light source component 280 Between, second, which adopts camera structure 40, is set to 50 top of panel light source, and the photo for obtaining seamless steel pipe is seamless to what is obtained The diameter information of steel pipe.

Compared with existing design, seamless steel pipe detection device provided by the utility model has the following advantages：

1, it is set between first light source component and second light source component by adopting camera structure by first, and first light source group The light extraction of the first annular light source of part and the second annular light source of second light source component is irradiated in opposite directions so that is in first annular light Seamless steel pipe M between source and the second annular light source can be irradiated by uniform light, and the defect of outer surface highlights under light illumination Out, so that first adopts the capture of camera structure.

Further, since polishing light source is annular light source, the illumination of annular light source is more bonded the surface of seamless steel pipe M, beats Light effect is more excellent, and the clear image that camera structure obtains seamless steel pipe M to be detected is adopted conducive to first.

Closer to further, first annular light source and the second annular light source irradiate in opposite directions, light along seamless steel pipe M length Extending direction is propagated, and the illumination reflection of outer surface is reduced, to which first adopts camera structure and can clearly capture the appearance of seamless steel pipe M The picture in face, accurately to judge surface defect.

2, adopting camera structure by setting transport mechanism, rotating mechanism and first makes seamless steel pipe in transmit process not Disconnected overturning, consequently facilitating first adopts the camera structure acquisition more comprehensive photo in the surfaces seamless steel pipe M.

The preferred embodiment that these are only the utility model, is not intended to limit the utility model, all in the utility model Principle within made by any modification, equivalent replacement and improve etc. should all include the scope of protection of the utility model within.

Claims (10)

1. a kind of seamless steel pipe detection device, which is characterized in that including：Control base station, first light source component, first adopt camera structure And second light source component；Described first adopts camera structure is electrically connected with the control base station；

The first light source component includes first annular light source, and the second light source component includes the second annular light source, and described the Second ring light source and the opposite light extraction irradiation of the first annular light source, and the illumination model of first annular light source and the second annular light source It encloses and partially overlaps；

The first perforation is offered on first annular light source, and the second perforation is offered on the second annular light source；Described first adopts camera Structure is between first annular light source and the second annular light source, to obtain the seamless steel across the first perforation and the second perforation Pipe photo.

2. seamless steel pipe detection device as described in claim 1, it is characterised in that：The first light source component further includes first Light source bracket, the first annular light source may connect to the first light source holder, and can be with respect to first light source holder vertical In seamless steel pipe, sender shifts up；The second light source component further includes second light source holder, second annular light source The second light source holder is may connect to, and can be shifted up perpendicular to seamless steel pipe sender with respect to second light source holder.

3. seamless steel pipe detection device as described in claim 1, it is characterised in that：Described first, which adopts camera structure, includes the first phase Machine and the first adjusting bracket, first adjusting bracket are connect with control base station, and the first camera is adjusted with described first Holder is detachably connected.

4. seamless steel pipe detection device as claimed in claim 3, it is characterised in that：First adjusting bracket includes first party To adjusting bracket and second direction adjusting bracket, the first direction adjusting bracket is set to be connect with control base station；First phase Machine is connect with second direction adjusting bracket；Second direction adjusting bracket can be with respect to first direction adjusting bracket in a first direction with Two sides shift up；

The first direction is the direction transmitted between first light source component and second light source component perpendicular to seamless steel pipe；

The second direction is the direction for being parallel to seamless steel pipe and being transmitted between first light source component and second light source component.

5. seamless steel pipe detection device as described in claim 1, it is characterised in that：The seamless steel pipe detection device further includes Transport mechanism, the transport mechanism are connect with control assembly, and are adopted with first as component and second are adopted as component is arranged in a linear, For transmitting seamless steel pipe.

6. seamless steel pipe detection device as claimed in claim 5, it is characterised in that：The transport mechanism at least two, point It Wei Yu not first light source component and first light source component light direction opposite side.

7. seamless steel pipe detection device as described in claim 1, it is characterised in that：The seamless steel pipe detection device further includes Rotating mechanism, the rotating mechanism are set between transport mechanism and first light source component, and are electrically connected with control assembly.

8. seamless steel pipe detection device as claimed in claim 7, it is characterised in that：The rotating mechanism include runing rest, First swing roller and the second swing roller；First swing roller and the second swing roller are rotatablely connected with runing rest, And first swing roller and the second swing roller rotation center it is consistent with the conveying direction of seamless steel pipe.

9. seamless steel pipe detection device as claimed in claim 5, it is characterised in that：The seamless steel pipe detection device further includes Second adopts camera structure and panel light source, panel light source be set between transport mechanism and first light source component or transport mechanism and Second light source component, second, which adopts camera structure, is set to above panel light source, to acquire the diameter of seamless steel pipe.

10. seamless steel pipe detection device as described in any one of claims 1-9, it is characterised in that：On the control base station It is provided with control assembly and display panel, the control assembly, display panel are adopted camera structure with first and be electrically connected.