CN207318751U - Detection device - Google Patents

Abstract

A kind of detection device is the utility model is related to, for scanning imagery equipment, it includes：Bearing, bearing have arc basal plane；Prospective component afterwards, rear prospective component are slidably arranged on bearing by the first guide rail, so that rear prospective component can move along a straight line relative to the axial direction of bearing arcuately basal plane；Detector assembly, detector assembly are slidably arranged on rear prospective component by the second guide rail so that detector assembly can relatively after the axial direction of prospective component arcuately basal plane move along a straight line.The position of rear prospective component and detector assembly that the utility model embodiment detection device includes can be adjusted based on the actual application requirements, so that rear prospective component, detector assembly and light path alignment, improve detection accuracy.

Description

Detection device

Technical field

Detection device technical field is the utility model is related to, more particularly to a kind of detection device.

Background technology

Scanning imagery equipment has the advantage that can be detected without contacting object to interior of articles, will not treat detectable substance Body produces physical damnification, therefore is widely used in carrying out object scanning in industrial production or daily life.Scanning imagery equipment Usually there is detecting module.Detecting module includes rear collimater, detector and detector carriage.

Applicant passes through long-term observation, research and analysis, finds due to rear collimater, detector of the prior art And detector carriage each other fix by position, positional precision each other fully relies on machining accuracy and assembly precision to protect Card, so that, the deficiency of assembling process complexity big in the presence of processing and manufacturing difficulty.

Utility model content

The utility model embodiment provides a kind of detection device, and the position of rear prospective component and detector assembly can be according to reality Border application requirement is adjusted, so that rear prospective component, detector assembly and light path alignment, improve detection accuracy.

On the one hand, a kind of detection device is proposed according to the utility model embodiment, for scanning imagery equipment, it is wrapped Include：Bearing, bearing have arc basal plane；Prospective component afterwards, rear prospective component are slidably arranged on bearing by the first guide rail, so that after Prospective component can move along a straight line relative to the axial direction of bearing arcuately basal plane；Detector assembly, detector assembly pass through Two guide rails are slidably arranged on rear prospective component, so that detector assembly can arcuately the axial of basal plane carries out prospective component afterwards relatively Linear motion.

According to the one side of the utility model embodiment, the first guide rail includes the first guide part and the first plug division, the One of one guide part and the first plug division are arranged at bearing, and another one is arranged at rear prospective component, and the first plug division holds The movement relative to bearing with prospective component after guiding is contained in the first guide part.

According to the one side of the utility model embodiment, the first guide part is waist-shaped hole, and the first plug division is inserting column, Inserting column is inserted into waist-shaped hole can simultaneously slide along the length direction of waist-shaped hole.

According to the one side of the utility model embodiment, the second guide rail includes the second guide part and the second plug division, the One of two guide parts and the second plug division are arranged at rear prospective component, and another one is arranged at detector assembly, and second inserts Socket part is contained in the second guide part to guide movement of the detector assembly relative to rear prospective component.

According to the one side of the utility model embodiment, the second guide part is waist-shaped hole, and the second plug division is inserting column, Inserting column is inserted into waist-shaped hole can simultaneously slide along the length direction of waist-shaped hole.

According to the one side of the utility model embodiment, detection device further includes the first lock assembly, and rear prospective component leads to The first lock assembly is crossed with bearing to be connected, the first lock assembly can locking or release after prospective component.

According to the one side of the utility model embodiment, the first lock assembly is spacing including first connecting portion and first Portion, one of first connecting portion and the first limiting section are arranged at bearing, and another one is arranged at rear prospective component, and the first connection Portion is detachably connected with the first limiting section to realize locking or opening each other.

According to the one side of the utility model embodiment, first connecting portion is threadedly coupled with the first limiting section.

According to the one side of the utility model embodiment, detection device further includes the second lock assembly, detector assembly It is connected by the second lock assembly with rear prospective component, the second lock assembly being capable of locking or release detector assembly.

According to the one side of the utility model embodiment, the second lock assembly is spacing including second connecting portion and second Portion, one of second connecting portion and the second limiting section are arranged at detector assembly, and another one is arranged at rear prospective component, and Two connecting portions and the second limiting section are detachably connected to realize locking or opening each other.

According to the one side of the utility model embodiment, second connecting portion is threadedly coupled with the second limiting section.

According to the one side of the utility model embodiment, detection device further includes drive component, drive component and detection Device assembly is connected, and drive component can drive the axial direction of detector assembly arcuately basal plane for linear motion.

According to the one side of the utility model embodiment, drive component include be arranged at arc basal plane stent and with The transmission shaft that stent is rotatably connected, axially extending, one end and the detector assembly spiral shell of transmission shaft of transmission shaft arcuately basal plane Line is connected to realize screw-driven each other.

According to the one side of the utility model embodiment, detection device further includes Zero positioning component, Zero positioning group Part is connected with rear prospective component and detector assembly, the relative position of prospective component and detector assembly after can demarcating.

According to the one side of the utility model embodiment, Zero positioning component includes zero-bit pin and matches with zero-bit pin Two pin holes closed, two pin holes are respectively arranged at rear prospective component and detector assembly.

The detection device of the utility model embodiment provided according to the utility model embodiment, including it is bearing, quasi- group latter Part and detector assembly.Prospective component and detector assembly may be contained within bearing afterwards, and difference relative seat is slidably.Due to rear Prospective component and detector assembly are respectively relative to bearing slidably to change the position of itself, thus operating personnel can conveniently and Quickly by adjusting the position of rear prospective component and/or detector assembly come prospective component, detector assembly and light path after ensureing Three is aligned, and improves detection accuracy, also reduces the machining accuracy and assembly precision of rear prospective component and detector assembly, and then drop The low processing and manufacturing difficulty and assembly difficulty of rear prospective component and detector assembly, has saved production cost.

Brief description of the drawings

The feature of the utility model exemplary embodiment, advantage and technique effect described below with reference to the accompanying drawings.

Fig. 1 is the overall structure diagram of the detection device of one embodiment of the utility model；

Fig. 2 is partial enlarged view at A in Fig. 1；

Fig. 3 is the schematic cross-sectional view of the detection device of one embodiment of the utility model；

Fig. 4 is partial enlarged view at B in Fig. 3；

Fig. 5 is the fragmentary bottom structure chart of the detection device of one embodiment of the utility model；

Fig. 6 is partial enlarged view at C in Fig. 5.

In the accompanying drawings, attached drawing is not drawn according to actual ratio.

Embodiment

The embodiment of the utility model is described in further detail with reference to the accompanying drawings and examples.Following embodiments The detailed description and the accompanying drawings be used to exemplarily illustrate the principle of the utility model, but cannot be used for limiting the model of the utility model Enclose, i.e., the utility model is not limited to described embodiment.

, it is necessary to which explanation, unless otherwise indicated, " multiple " are meant that two or two in the description of the utility model More than a；The orientation or position relationship of the instruction such as term " on ", " under ", "left", "right", " interior ", " outer " are for only for ease of and retouch State the utility model and simplify and describe, rather than instruction or imply signified device or element must have specific orientation, with Specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.In addition, term " first ", " second " Etc. be only used for description purpose, and it is not intended that instruction or imply relative importance.

In the description of the utility model, it is also necessary to explanation, unless otherwise clearly defined and limited, term " peace Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；It can be directly connected, can also be indirectly connected by intermediary.For the ordinary skill in the art, Visual concrete condition understands concrete meaning of the above-mentioned term in the utility model.

The utility model in order to better understand, fills with reference to Fig. 1 and Fig. 6 according to the detection of the utility model embodiment Put and be described in detail.

As shown in Figure 1 and Figure 2, the detection device of the utility model embodiment is used for scanning imagery equipment, can receive scanning The light that the lighting apparatus component of imaging device produces.The detection device of the present embodiment includes bearing 1, rear prospective component 2 and detector Component 3.Bearing 1 is used to provide supporting and installation foundation.Prospective component 2 and detector assembly 3 may be contained within bearing 1 afterwards, and respectively Relative seat 1 is slidably.The position of prospective component 2 and detector assembly 3 can be adjusted based on the actual application requirements afterwards, so that Prospective component 2, detector assembly 3 and light path alignment afterwards, improve detection accuracy.

The bearing 1 of the present embodiment has arc basal plane 11, for providing installation foundation for other structures part.Prospective component 2 afterwards It is slidably arranged in by the first guide rail 4 on bearing 1, so that rear prospective component 2 can be relative to the axial direction of the arcuately basal plane 11 of bearing 1 Move along a straight line.When after prospective component 2 be installed on bearing 1, but position is at precalculated position, prospective component 2 after can operating Slided along the first guide rail 4 with the position of prospective component after adjustment 2.Detector assembly 3 is slidably arranged in latter quasi- group by the second guide rail 5 On part 2 so that detector assembly 3 can relatively after the axial direction of the arcuately basal plane 11 of prospective component 2 move along a straight line.Work as detector Component 3 is installed on rear prospective component 2, but position can operate detector assembly 3 and be slided along the second guide rail 5 not at precalculated position Move to adjust the position of detector assembly 3.

The detection device of the utility model embodiment, since rear prospective component 2 and detector assembly 3 are respectively relative to bearing 1 Slidably to change the position of itself, therefore operating personnel can be conveniently and quickly by adjusting rear prospective component 2 and/or detection Detection accuracy is improved, is also reduced come prospective component 2, detector assembly 3 and light path three alignment after ensureing in the position of device assembly 3 The machining accuracy and assembly precision of rear prospective component 2 and detector assembly 3, thereby reduces rear prospective component 2 and detector assembly 3 Processing and manufacturing difficulty and assembly difficulty, saved production cost.

Alternatively, the arc basal plane 11 of the present embodiment can be smooth arc surface or multiple wide planar shapeds Into arcwall face.Same circular arc line is cut in outside the contour line of the cross section of multiple wide planes.

In one example, detection device includes multiple detector assemblies 3.Multiple detector assemblies 3 are along arc basal plane 11 circumferential direction is arranged in arc-shaped.Each detector assembly 3 can the relatively rear adjustment of prospective component 2 position of itself.Quasi- group afterwards Part 2 includes support frame 21 and the rear collimater 22 being arranged in support frame 21.Support frame 21 includes arcuately basal plane 11 axially extending multiple receiving portions.The quantity of receiving portion is corresponded with the quantity of detector assembly 3.Detector assembly 3 It is arranged in receiving portion.Collimater 22 is accordingly set with detector assembly 3 afterwards, and light reaches spy after passing through rear collimater 22 Device assembly 3 is surveyed, and detected device assembly 3 receives.

As shown in Figure 3, Figure 4, first guide rail 4 of the present embodiment includes the first guide part 41 and the first plug division 42.First One of 41 and first plug division 42 of guide part is arranged at bearing 1, and another one is arranged at rear prospective component 2.First plug division 42 It is contained in the movement with prospective component after guiding 2 relative to bearing 1 in the first guide part 41.First plug division 42 is contained in first and leads Mode into portion 41 can make the first plug division 42 and the first guide part 41 be not easily disconnected from connection status, prospective component after also ensureing 2 motion processes are steady, and the first plug division 42 and the first guide part 41 assemble it is simple to operation.

Second guide rail 5 of the present embodiment includes the second guide part 51 and the second plug division 52.Second guide part 51 and second One of plug division 52 is arranged at rear prospective component 2, and another one is arranged at detector assembly 3.Second plug division 52 is contained in To guide movement of the detector assembly 3 relative to rear prospective component 2 in two guide parts 51.Second plug division 52 is contained in the second guiding Mode in portion 51 can make the first plug division 42 and the first guide part 41 be not easily disconnected from connection status, prospective component 2 after also ensureing Motion process is steady, and the second plug division 52 and the second guide part 51 assemble it is simple to operation.

Alternatively, first guide part 41 of the present embodiment and the second guide part 51 are waist-shaped hole.First plug division, 42 He Second plug division 52 is inserting column.Inserting column is inserted into waist-shaped hole can simultaneously slide along the length direction of waist-shaped hole.Waist type The length direction in hole is identical with the axial direction of arc basal plane 11.The movement of the inserting column arcuately circumferential direction of basal plane 11 is by waist-shaped hole Limitation.Inserting column is only for linear motion along the length direction of waist-shaped hole.The fit system of waist-shaped hole and inserting column is simple and reliable.Waist Type hole and inserting column processing and manufacturing difficulty are low, reduce processing cost.

As shown in Figure 5, Figure 6, the detection device of the present embodiment further includes the first lock assembly 8.Prospective component 2 passes through first afterwards Lock assembly 8 is connected with bearing 1.First lock assembly 8 can locking or release after prospective component 2.First lock assembly 8 is in During lockup state, rear prospective component 2 can not be moved relative to bearing 1.When first lock assembly 8 is in release conditions, rear prospective component 2 It can be moved relative to bearing 1.When after prospective component 2 arcuately basal plane 11 axial linear movement complete self-position adjustment operation Afterwards, rear prospective component 2 is positioned at current location using the first lock assembly 8, avoids rear prospective component 2 from being subject to send out during applied external force Raw position offset, thus after improving prospective component 2 positional stability, ensure detection accuracy.

Alternatively, the first lock assembly 8 includes first connecting portion and the first limiting section.First connecting portion and first spacing One of portion is arranged at bearing 1, and another one is arranged at rear prospective component 2.First connecting portion is detachably connected with the first limiting section To realize locking or opening each other.The first connecting portion of the present embodiment can be contained in the first limiting section to realize and the first limit Position portion is detachably connected.In one embodiment, first connecting portion and the first limiting section are threadedly coupled, and facilitate operating personnel quick Ground operates first connecting portion, so that first connecting portion and the first limiting section locking or opening.In one example, first Connecting portion is screw, and the first limiting section is threaded hole.Thus it is possible, on the one hand, first connecting portion and the processing and manufacturing of the first limiting section are difficult Spend low, on the other hand, operating personnel's back work easy to use operates first connecting portion, is rapidly completed first connecting portion With the first limiting section locking or opening work.

The detection device of the present embodiment further includes the second lock assembly 9.Detector assembly 3 by the second lock assembly 9 with Prospective component 2 is connected afterwards.Second lock assembly 9 being capable of locking or release detector assembly 3.Second lock assembly 9 is in locking During state, detector assembly 3 can not be moved relative to rear prospective component 2.When second lock assembly 9 is in release conditions, detector Component 3 can be moved relative to rear prospective component 2.When the axial linear movement of the arcuately basal plane 11 of detector assembly 3 completes itself Position adjustment operation after, detector assembly 3 is positioned at current location using the second lock assembly 9, avoid detector assembly 3 by Position offset occurs during to applied external force, so as to improve the positional stability of detector assembly 3, ensures detection accuracy.

Alternatively, the second lock assembly 9 includes second connecting portion and the second limiting section.Second connecting portion and second spacing One of portion is arranged at bearing 1, and another one is arranged at rear prospective component 2.Second connecting portion is detachably connected with the second limiting section To realize locking or opening each other.The second connecting portion of the present embodiment can be contained in the second limiting section to realize and the second limit Position portion is detachably connected.In one embodiment, second connecting portion and the second limiting section are threadedly coupled, and facilitate operating personnel quick Ground operates second connecting portion, so that second connecting portion and the second limiting section locking or opening.In one example, second Connecting portion is screw, and the second limiting section is threaded hole.Thus it is possible, on the one hand, second connecting portion and the processing and manufacturing of the second limiting section are difficult Spend low, on the other hand, operating personnel's back work easy to use operates second connecting portion, is rapidly completed second connecting portion With the second limiting section locking or opening work.

As shown in Figure 2, Figure 4 shows, the detection device of the utility model embodiment further includes drive component 6.Drive component 6 is with visiting Device assembly 3 is surveyed to be connected.Drive component 6 can drive the axial direction of the arcuately basal plane 11 of detector assembly 3 for linear motion.Operation Personnel directly can drive detector assembly 3 to move by drive component 6, and adjustment process is simple to operation, reduce adjustment detection The labor intensity of 3 position process of device assembly.

Alternatively, when rear prospective component 2 is in precalculated position relative to the position of bearing 1, after 8 locking of the first lock assembly Prospective component 2, an overall structure is formed from then prospective component 2 and bearing 1.At this time, if detector assembly 3 is relative to rear prospective component 2 position in precalculated position, then can not drive detector assembly 3 to be moved on the second guide rail 5 by drive component 6, until The position of detector assembly 3 is in precalculated position, reuses 9 locking detector assembly 3 of the second lock assembly, after the completion of prospective component 2nd, detector assembly 3 and the alignment function of light path.

When detector assembly 3 is in precalculated position relative to the position of bearing 1,9 locking detector of the second lock assembly Component 3, so that detector assembly 3 and rear prospective component 2 form an overall structure.At this time, if rear prospective component 2 is relative to bearing 1 Position not in precalculated position, then detector assembly 3 can be driven by drive component 6 to drive detector assembly 3 and rear accurate Component 2 moves on the first guide rail 4 at the same time, until the position of rear prospective component 2 is in precalculated position, reuses the first lock assembly Prospective component 2 after 8 lockings, after the completion of prospective component 2, detector assembly 3 and light path alignment function.

When the equal backlog demand in detector assembly 3, the position of rear prospective component 2 and bearing 1 between any two, first using first Prospective component 2 after 8 locking of lock assembly, by drive component 6 adjust detector assembly 3 position with by detector assembly 3 and after Position alignment between prospective component 2.Then 9 locking detector assembly 3 of the second lock assembly is used, then opens the first lock assembly 8, detector assembly 3 and rear prospective component 2 are driven so that detector assembly 3 and rear prospective component 2 and bearing by drive component 6 at the same time Position alignment between 1.Alternatively, first using 9 locking detector assembly 3 of the second lock assembly, driven at the same time by drive component 6 Detector assembly 3 and rear prospective component 2 are with by the position alignment between detector assembly 3 and rear prospective component 2 and bearing 1.Then make With prospective component 2 after 8 locking of the first lock assembly, then the second lock assembly 9 is opened, drive component 6 adjusts the position of detector assembly 3 Put the position alignment so that between detector assembly 3 and rear prospective component 2.

The drive component 6 of the present embodiment is only connected with detector assembly 3, but can be operated alone detector assembly 3 or Person drives detector assembly 3 and rear prospective component 2 at the same time, so as to improve the installation space utilization rate of detection device so that visits It is compacter to survey device overall structure, also allows for operating personnel and only carry out operation to drive component 6 that detector can be individually adjusted The position of component 3 adjusts the position after detector assembly 3 and the composition overall structure of rear prospective component 2 at the same time, ensures adjustment essence Degree, improves adjustment work efficiency.

Alternatively, drive component 6 includes the stent 61 being arranged on arc basal plane 11 and is rotatably connected with stent 61 Transmission shaft 62.The arcuately basal plane 11 of transmission shaft 62 it is axially extending.One end of transmission shaft 62 is threadedly coupled with detector assembly 3 To realize screw-driven each other, so as to fulfill stepless transmission, Adjustment precision is improved.One end of transmission shaft 62 is provided with thread segment, Threaded hole is provided with detector assembly 3.Thus it is possible, on the one hand, the thread segment of transmission shaft 62 and the threaded hole of detector assembly 3 add Work manufacture difficulty is low, and on the other hand, operating personnel's back work easy to use operates transmission shaft 62, is rapidly completed detection The position adjustment work of device assembly 3.In one example, annular protrusion, the axis and arc of annular protrusion are provided with stent 61 The axis of shape basal plane 11 is parallel.Transmission shaft 62 is cylindrical structure, and one end of transmission shaft 62 is provided with annular groove.The ring of transmission shaft 62 The annular protrusion form fit of shape groove and stent 61, each other clamping connection.

The detection device of the utility model embodiment further includes Zero positioning component 7.Zero positioning component 7 and rear prospective component 2 and detector assembly 3 be connected, the relative position of prospective component 2 and detector assembly 3 after can demarcating.When use zero-bit mark When determining that prospective component 2 and 3 the relative position of each other of detector assembly be in precalculated position after component 7 detects, it is not necessary to standard after adjustment The relative position of component 2, detector assembly 3 and bearing 1.Prospective component 2 and detector after being detected using Zero positioning component 7 , it is necessary to remove Zero positioning component 7 when 3 the relative position of each other of component is not in precalculated position, then by rear prospective component 2, spy The relative position for surveying device assembly 3 and bearing 1 is adjusted to precalculated position.Zero positioning component 7 facilitates operating personnel rapidly right The relative position of prospective component 2, detector assembly 3 and bearing 1 is detected afterwards, improves work efficiency.

Alternatively, Zero positioning component 7 includes zero-bit pin and two pin holes matched with zero-bit pin.Two pin holes point It is not arranged on rear prospective component 2 and detector assembly 3.If both rear prospective component 2 and detector assembly 3 machining accuracy and assemblings Precision is met the requirements, then when rear prospective component 2 and 3 position relative to each other of detector assembly are in precalculated position, two pin holes are mutual Alignment, and zero-bit pin can be smoothly inserted into two pin holes, the position of rear prospective component 2 and detector assembly 3 need not adjust.Such as There are error in prospective component 2 and 3 process of detector assembly or assembling process after fruit, when after prospective component 2 and detector assembly 3 Position relative to each other is not in precalculated position, and when two pin holes are aligned with each other, although zero-bit pin can be smoothly inserted into two Pin hole, but still need to extract zero-bit pin, the position of rear prospective component 2 and detector assembly 3 is adjusted, eliminating error influences, Improve detection accuracy.

The detection device of the utility model embodiment, including bearing 1, rear prospective component 2 and detector assembly 3.Bearing 1, The relative position of 3 three of prospective component 2 and detector assembly can be adjusted flexibly afterwards, rear prospective component 2 and detector group Part 3 is respectively relative to bearing 1 and slidably moves to change the position of itself, therefore operating personnel can facilitate and quickly pass through The position of prospective component 2 and/or detector assembly 3 is come prospective component 2, detector assembly 3 and light path three couple after ensureing after adjustment Standard, improves detection accuracy, while also reduces the machining accuracy and assembly precision of rear prospective component 2 and detector assembly 3, reduces Difficulty and assembly difficulty are fabricated, has saved production cost.

Although the present utility model has been described by reference to the preferred embodiments, but the model of the utility model is not being departed from In the case of enclosing, various improvement can be carried out to it and component therein can be replaced with equivalent.Especially, as long as not depositing In structural conflict, items technical characteristic mentioned in the various embodiments can be combined in any way.The utility model It is not limited to specific embodiment disclosed herein, but all technical solutions including falling within the scope of the appended claims.

Claims (15)

1. A kind of 1. detection device, for scanning imagery equipment, it is characterised in that including：

   Bearing, the bearing have arc basal plane；

   Prospective component afterwards, the rear prospective component is slidably arranged on the bearing by the first guide rail, so that prospective component energy after described It is enough to move along a straight line relative to the bearing along the axial direction of the arc basal plane；

   Detector assembly, the detector assembly is slidably arranged on the rear prospective component by the second guide rail, so that the spy Survey device assembly can it is relatively described after prospective component move along a straight line along the axial direction of the arc basal plane.
2. 2. detection device according to claim 1, it is characterised in that first guide rail includes the first guide part and first Plug division, one of first guide part and the first plug division are arranged at the bearing, and another one is arranged at described rear accurate Component, and first plug division is contained in first guide part to guide the rear prospective component relative to the bearing Movement.
3. 3. detection device according to claim 2, it is characterised in that first guide part is waist-shaped hole, described first Plug division is inserting column, and the inserting column is inserted into the waist-shaped hole can simultaneously slide along the length direction of the waist-shaped hole.
4. 4. detection device according to claim 1, it is characterised in that second guide rail includes the second guide part and second Plug division, one of second guide part and the second plug division are arranged at the rear prospective component, and another one is arranged at described Detector assembly, and second plug division be contained in second guide part with guide the detector assembly relative to The movement of prospective component after described.
5. 5. detection device according to claim 4, it is characterised in that second guide part is waist-shaped hole, described second Plug division is inserting column, and the inserting column is inserted into the waist-shaped hole can simultaneously slide along the length direction of the waist-shaped hole.
6. 6. detection device according to any one of claims 1 to 5, it is characterised in that the first lock assembly is further included, it is described Prospective component is connected by first lock assembly with the bearing afterwards, and first lock assembly being capable of locking or release institute State rear prospective component.
7. 7. detection device according to claim 6, it is characterised in that first lock assembly include first connecting portion with And first limiting section, one of the first connecting portion and first limiting section are arranged at the bearing, another one is set The prospective component after described, and the first connecting portion is detachably connected with first limiting section to realize locking each other or beat Open.
8. 8. detection device according to claim 7, it is characterised in that the first connecting portion and the first limiting section spiral shell Line connects.
9. 9. according to any one of them detection device of claim 1 to 5,7 and 8, it is characterised in that further include the second locking group Part, the detector assembly are connected by second lock assembly with the rear prospective component, the second lock assembly energy Enough lockings or the release detector assembly.
10. 10. detection device according to claim 9, it is characterised in that second lock assembly includes second connecting portion And second limiting section, one of the second connecting portion and second limiting section are arranged at the detector assembly, separately One is arranged at the rear prospective component, and the second connecting portion is detachably connected with second limiting section to realize each other Locking or opening.
11. 11. detection device according to claim 10, it is characterised in that the second connecting portion and second limiting section It is threadedly coupled.
12. 12. according to any one of them detection device of claim 1 to 5,7,8,10 and 11, it is characterised in that further include driving Component, the driving component are connected with the detector assembly, and the driving component can drive the detector assembly edge The axial direction of the arc basal plane is for linear motion.
13. 13. detection device according to claim 12, it is characterised in that the driving component includes being arranged at the arc The stent of basal plane and the transmission shaft being rotatably connected with the stent, the transmission shaft prolong along the axial direction of the arc basal plane Stretch, one end of the transmission shaft is threadedly coupled with the detector assembly to realize screw-driven each other.
14. 14. detection device according to claim 1, it is characterised in that further include Zero positioning component, the Zero positioning Component is connected with the rear prospective component and the detector assembly, can demarcate the rear prospective component and the detector group The relative position of part.
15. 15. detection device according to claim 14, it is characterised in that the Zero positioning component include zero-bit pin and With matched two pin holes of the zero-bit pin, two pin holes are respectively arranged at the rear prospective component and the detector group Part.