CN109724535A - Skylight guide rail radian detects special plane - Google Patents

Abstract

The invention discloses skylight guide rail radians to detect special plane, including monitor station, driving device, rotating device, clamping device, mobile device and scanning means, the monitor station top center offers square groove, two sides at the top of the monitor station are fixed with support frame, the first groove is offered on the support frame of the monitor station top side, one end of the mobile device is fixed in the first groove, the mobile device passes through the support frame at the top of scanning means and monitor station far from the first groove far from one end of the first groove and is rotatablely connected by bearing, and scanning means is threadedly coupled on the mobile device, two sides at the top of the monitor station offer the second groove, the driving device is fixed in the second groove, the one end of the driving device far from the second groove and rotating device are sequentially connected, flexible dress is fixed in the rotating device Set, this skylight guide rail radian detect special plane, can the radian to skylight guide rail accurately detected.

Description

Skylight guide rail radian detects special plane

Technical field

The present invention relates to technical field of automobile accessories, specially skylight guide rail radian detects special plane.

Background technique

With the rapid development of economy, automobile is more more and more universal, into every household, automobile is providing convenient and fast base of going on a journey More functions, such as skylight are increased on plinth.Every morning, many car owners always drive to go to work in a hurry, Zhuan Jiajian At this moment view needs to open skylight.Relevant expert introduces, and in-vehicle air pollution seriously affects the health of driver, and especially automobile exists Experienced a period of time it is closed after, the gas of the harmful substances such as benzene, the formaldehyde in adornment is flooded in compartment.So The first thing got on the bus after overnight, exactly opens vehicle dormer window, using its superior negative pressure ventilation principle, filters in-vehicle air, To protect the health of driver.

The radian of the skylight guide rail of existing production, the skylight guide rail as needed for different automobile types is different, so we are installing When skylight, the radian of guide rail is detected, just can ensure that guide rail can be correctly mounted on skylight, existing at present one A little skylight radian detections, most of is all to use artificially to measure, and measurement data is not accurate enough, also, some measurement radians Tool can only carry out the arc measurement in a face in measurement process, measurement radian is not comprehensive enough, for this purpose, it is proposed that day Window guide rail radian detects special plane.

Summary of the invention

The purpose of the present invention is to provide skylight guide rail radians to detect special plane, to solve mentioned above in the background art ask Topic.

To achieve the above object, the invention provides the following technical scheme: skylight guide rail radian detects special plane, including detection Platform, driving device, rotating device, clamping device, mobile device and scanning means, the monitor station top center offer rectangular Groove, the two sides at the top of the monitor station are fixed with support frame, offer first on the support frame of the monitor station top side Groove, one end of the mobile device are fixed in the first groove, and the mobile device is passed through far from one end of the first groove and swept Support frame at the top of imaging apparatus and monitor station far from the first groove is rotatablely connected by bearing, and scanning means is threaded in shifting On dynamic device, the two sides at the top of the monitor station offer the second groove, and the driving device is fixed in the second groove, institute It states the one end of driving device far from the second groove and rotating device is sequentially connected, be fixed with telescopic device in the rotating device, The telescopic device is fixedly connected far from one end of rotating device with clamping device, and the driving device includes stepper motor, One shaft and driving gear, the stepper motor are fixed in the second groove, the output end and first rotating shaft of the stepper motor It is fixedly connected, the one end of the first rotating shaft far from stepper motor is fixedly connected with driving gear, the driving gear and rotation Connection is engaged in one end of device, and the rotating device includes column spinner, rotates gear and bearing block, the rotation gear and driving Gear engagement connection, the rotation gear are fixedly connected with column spinner, and the bottom of the bearing block is fixed on the top of monitor station, The bearing block is socketed on column spinner, and bearing block and column spinner are rotatablely connected, and the one of the separate rotation gear of the column spinner End offers circular groove, and one end of the telescopic device is fixed in circular groove, and the other end of telescopic device and circle Groove is slidably connected, and the side of the monitor station is fixed with display screen.

Preferably, the mobile device includes servo motor, rotary screw and support rod, and the servo motor is fixed on In one groove, the output end of the servo motor is fixedly connected with one end of rotary screw, and the scanning means is socketed in rotation On screw rod, and scanning means is threadedly coupled with rotary screw, and the two sides of the scanning means are fixed with U-shaped sliding block, the U-shaped cunning Block is socketed on support rod, and the two sides of the support rod are separately fixed at the top of monitor station on the support frame of two sides.

Preferably, two sides are fixed with protective housing at the top of the monitor station, and the rotation gear and driving gear are respectively positioned on anti- In protecting box.

Preferably, the telescopic device includes electric cylinder and slide post, and one end of the electric cylinder is fixed on circle In groove, the output end of the electric cylinder is fixedly connected with one end of slide post, and the cell wall of slide post and circular groove is sliding Dynamic connection, the slide post are fixedly connected far from one end of electric cylinder with clamping device.

Preferably, four groups of bar shaped tracks are symmetrically offered on the inner wall of the circular groove, on the side wall of the slide post Four groups of sliding blocks are symmetrically fixed with, the sliding block is located in bar shaped track, and sliding block is slidably connected with bar shaped track.

Preferably, the clamping device includes rotating cylindrical, curved splint, clamping block, ring spring, clamping cylinder and drawing Ring, the rotating cylindrical offer third groove far from the side of slide post, and two group is symmetrically offered in the third groove Four grooves, the 4th groove survey slot bottom and offer clamping through-hole, and one end of the ring spring is fixed on the slot of the 4th groove Bottom, and the other end of ring spring is fixedly connected with clamping block, one end of the clamping cylinder sequentially passes through clamping through-hole and ring Shape spring is fixedly connected with clamping block, and is clamped cylinder and is slidably connected with clamping through-hole, and the clamping block is far from ring spring One end is fixedly connected with curved splint, and the clamping cylinder is fixedly connected far from one end of clamping through-hole with pull ring.

Preferably, the bottom symmetrical of the monitor station is fixed with four groups of support cylinders.

Preferably, the scanning means includes collector, optical splitter, detector, processor and follower, the collection dress It sets and is electrically connected with optical splitter, the optical splitter and detector are electrically connected, and the detector and processor are electrically connected, described Processor and follower are electrically connected, and the follower and display screen are electrically connected.

Compared with prior art, the beneficial effects of the present invention are:

1, the present invention is moved on the mobile device by scanning means accurately to lead the skylight being located on monitor station The radian of rail is detected, and the data that will test upload on display screen, and staff can accurately slap from display screen The radian value of skylight track is held, to solve error brought by artificial detect, in addition, since the different face of skylight guide rail can be with Different radian values is had, for this purpose, driving first rotating shaft by the output end of the stepper motor of driving device, first rotating shaft is driven Gear is driven, driving gear band moves the rotation of rotary teeth wheel, and rotation gear band moves column spinner rotation, and column spinner drives clamping device rotation Turn, clamping device drive skylight guide rail rotate by a certain angle, then stepper motor stops working, scanning means to skylight guide rail after Continuous scanning, in this way can comprehensively be scanned skylight guide rail, obtain more comprehensive skylight guide rail radian value.

2, the present invention drives rotary screw rotation by the output end of servo motor, due to rotary screw and scanning means spiral shell Line connection, and U-shaped sliding block is socketed on support rod, so scanning means can slide on rotary screw, thus to scanning Skylight guide rail below device is scanned processing, will rotation gear and driving gear be arranged in protective housing, can to its into The certain protection of row, may be implemented moving horizontally for clamping device using telescopic device, so as to so that clamping device clamping is different The skylight guide rail of length, when needing to clamp skylight guide rail, the output end of electric cylinder drives slide post, and slide post is round recessed Sliding in slot, slide post drive clamping device mobile, slide post can be made sliding in circular groove by bar shaped guide rail and sliding block When dynamic, it is possible to reduce certain frictional force pulls pull ring, then by one end of skylight guide rail when needing to clamp skylight guide rail It is put into third groove, ring spring at this time is in the state squeezed, then bleeds off pull ring, ring spring can generate certain bullet Power squeezes clamping block, and clamping block squeezes curved splint, and the curved splint of two sides can carry out certain fixation to skylight track, benefit Monitor station can centainly be supported with four groups of support cylinders, the light from skylight guide rail can be received using collector, Realize that optical signal receives, then collector is by, to optical splitter, light is carried out light-splitting processing by optical splitter, then by dividing at optical signal The processed optical signal transmission of light device to detector, detector transfer signals to processor carry out A D conversion, processor will Signal after conversion is transferred in processing, and the signal after last processor will process is transferred on display screen, and staff can Carry out the accurate detection to skylight track radian with data on display screen.

Detailed description of the invention

Fig. 1 is overall structure of the present invention；

Fig. 2 is the unshielded case overall structure diagram of the present invention；

Fig. 3 is overlooking structure diagram of the present invention；

Fig. 4 is schematic view of the front view of the present invention；

Fig. 5 is side structure schematic view of the present invention；

Fig. 6 is driving device cross-sectional view of the present invention；

Fig. 7 is rotating device schematic diagram of the present invention；

Fig. 8 is scanning means layout of the present invention；

Fig. 9 is the area Tu2Zhong A partial enlarged view；

Figure 10 is the area Tu6Zhong B partial enlarged view；

Figure 11 is the area Tu7Zhong C partial enlarged view.

In figure: 1- monitor station；2- driving device；3- rotating device；4- clamping device；5- mobile device；6- scanning means； 7- square groove；8- support frame；The first groove of 9-；The second groove of 10-；11- telescopic device；12- stepper motor；First turn of 13- Axis；14- drives gear；15- column spinner；16- rotates gear；17- bearing block；18- circular groove；19- display screen；20- servo Motor；21- rotary screw；22- support rod；23-U type sliding block；24- protective housing；25- electric cylinder；26- slide post；27- bar shaped Track；28- sliding block；29- rotating cylindrical；30- curved splint；31- clamping block；32- ring spring；33- is clamped cylinder；34- is drawn Ring；35- third groove；The 4th groove of 36-；37- is clamped through-hole；38- supports cylinder；39- collector；40- optical splitter；41- is visited Survey device；42- processor；43- follower.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig. 1-11, the present invention provides a kind of technical solution: skylight guide rail radian detects special plane, including monitor station 1, Driving device 2, rotating device 3, clamping device 4, mobile device 5 and scanning means 6,1 top center of monitor station offer The two sides of square groove 7,1 top of monitor station are fixed with support frame 8, open on the support frame 8 of 1 top side of monitor station Equipped with the first groove 9, one end of the mobile device 5 is fixed in the first groove 9, and the mobile device 5 is far from the first groove 9 One end pass through the support frame 8 of scanning means 6 and the top of monitor station 1 far from the first groove 9 and be rotatablely connected by bearing, and scanning Device 6 is threaded in mobile device 5, and the two sides at 1 top of monitor station offer the second groove 10, the driving dress It sets 2 to be fixed in the second groove 10, the one end of the driving device 2 far from the second groove 10 and rotating device 3 are sequentially connected, institute It states to choose to install and is fixed with telescopic device 11 in device, the one end of the telescopic device 11 far from rotating device 3 and clamping device 4 are fixed Connection, the driving device 2 include that stepper motor 12, first rotating shaft 13 and driving gear 14, the stepper motor 12 are fixed on In second groove 10, the output end of the stepper motor 12 is fixedly connected with first rotating shaft 13, and the first rotating shaft 13 is far from step It is fixedly connected into one end of motor 12 with driving gear 14, the driving gear 14 engages connection, institute with one end of rotating device 3 Stating rotating device 3 includes column spinner 15, rotation gear 16 and bearing block 17, the rotation gear 16 with drive 14 company of engagement of gear It connects, the rotation gear 16 is fixedly connected with column spinner 15, and the bottom of the bearing block 17 is fixed on the top of monitor station 1, institute It states bearing block 17 to be socketed on column spinner 15, and bearing block 17 and column spinner 15 are rotatablely connected, the column spinner 15 is far from rotation One end of gear 16 offers circular groove 18, and one end of the telescopic device 11 is fixed in circular groove 18, and flexible dress The other end and circular groove 18 for setting 11 are slidably connected, and the side of the monitor station 1 is fixed with display screen 19.

The mobile device 5 includes servo motor 20, rotary screw 21 and support rod 22, and the servo motor 20 is fixed on In first groove 9, the output end of the servo motor 20 is fixedly connected with one end of rotary screw 21,6 sets of the scanning means It connects on rotary screw 21, and scanning means 6 is threadedly coupled with rotary screw 21, the two sides of the scanning means 6 are fixed with U-shaped Sliding block 2823, the U-shaped sliding block 2823 are socketed on support rod 22, and the two sides of the support rod 22 are separately fixed at monitor station 1 On the support frame 8 of top two sides, drive rotary screw 21 to rotate by the output end of servo motor 20, due to rotary screw 21 with Scanning means 6 is threadedly coupled, and U-shaped sliding block 2823 is socketed on support rod 22, so scanning means 6 can be in rotary screw It is slided on 21, to be scanned processing to the skylight guide rail of 6 lower section of scanning means.

The 1 top two sides of monitor station are fixed with protective housing 24, and the rotation gear 16 and driving gear 14 are respectively positioned on anti- In protecting box 24, rotation gear 16 and driving gear 14 are arranged in protective housing 24, it can centainly be protected.

The telescopic device 11 includes electric cylinder 25 and slide post 26, and one end of the electric cylinder 25 is fixed on circle In groove 18, the output end of the electric cylinder 25 is fixedly connected with one end of slide post 26, and slide post 26 and circular groove 18 cell wall is slidably connected, and the one end of the slide post 26 far from electric cylinder 25 is fixedly connected with clamping device 4, using flexible Moving horizontally for clamping device 4 may be implemented in device 11, so as to so that clamping device 4 clamp different length skylight guide rail, When needing to clamp skylight guide rail, the output end of electric cylinder 25 drives slide post 26, and slide post 26 is sliding in circular groove 18 Dynamic, slide post 26 drives clamping device 4 mobile.

Symmetrically offer four groups of bar shaped tracks 27 on the inner wall of the circular groove 18, it is right on the side wall of the slide post 26 Title is fixed with four groups of sliding blocks 28, and the sliding block 28 is located in bar shaped track 27, and sliding block 28 is slidably connected with bar shaped track 27, leads to Cross bar shaped guide rail and when sliding block 28 can be such that slide post 26 slides in circular groove 18, it is possible to reduce certain frictional force.

The clamping device 4 includes rotating cylindrical 29, curved splint 30, clamping block 31, ring spring 32, clamping cylinder 33 With pull ring 34, the rotating cylindrical 29 offers third groove 35 far from the side of slide post 26, right in the third groove 35 Title offers two group of the 4th groove 36, and the 4th groove 36 surveys slot bottom and offers clamping through-hole 37, the ring spring 32 One end is fixed on the slot bottom of the 4th groove 36, and the other end for waking up spring is fixedly connected with clamping block 31, the clamping cylinder 33 one end sequentially passes through clamping through-hole 37 and ring spring 32 is fixedly connected with clamping block 31, and is clamped cylinder 33 and is clamped logical Hole 37 is slidably connected, and the one end of the clamping block 31 far from ring spring 32 is fixedly connected with curved splint 30, the clamping circle Column 33 is fixedly connected far from one end of clamping through-hole 37 with pull ring 34, when needing to clamp skylight guide rail, pulls pull ring 34, then One end of skylight guide rail is put into third groove 35, ring spring 32 at this time is in the state squeezed, then bleeds off pull ring 34, ring spring 32 can generate certain elastic force and squeeze clamping block 31, and clamping block 31 squeezes curved splint 30, the curved splint of two sides 30 can carry out certain fixation to skylight track.

The bottom symmetrical of the monitor station 1 is fixed with four groups of support cylinders 38, can be to inspection using four groups of support cylinders 38 Scaffold tower 1 is centainly supported.

The scanning means 6 includes collector 39, optical splitter 40, detector 41, processor 42 and follower 43, the receipts Acquisition means and optical splitter 40 are electrically connected, and the optical splitter 40 is electrically connected with detector 41, the detector 41 and processor 42 are electrically connected, and the processor 42 is electrically connected with follower 43, and the follower 43 is electrically connected with display screen 19, utilize Collector 39 can receive the light from skylight guide rail, realize that optical signal receives, and then collector 39 will be given at optical signal and divide Light is carried out light-splitting processing by light device 40, optical splitter 40, then by the processed optical signal transmission of optical splitter 40 to detector 41, Detector 41 transfer signals to processor 42 carry out A D conversion, the signal after conversion is transferred in processing by processor 42, Signal after last processor 42 will process is transferred on display screen 19, and staff can be come with data on display screen 19 to day The accurate detection of window rail road radian.

Working principle: when needing to carry out radian detection to skylight track, the both ends of skylight guide rail are passed through into clamping device 4 It is fixed, the distance between two stack clamping devices 4 can be adjusted by telescopic device 11, then pass through driving device 2 The output end of stepper motor 12 drives first rotating shaft 13, and first rotating shaft 13 drives driving gear 14, and driving gear 14 drives rotation Gear 16 rotates, and rotation gear 16 drives column spinner 15 to rotate, and column spinner 15 drives clamping device 4 to rotate, and clamping device 4 drives Skylight guide rail rotates by a certain angle, and then stepper motor 12 stops working, and scanning means 6 is by mobile device 5 in skylight guide rail Top it is mobile, to scan to skylight guide rail, when scanning means 6 has carried out a scan period, stepper motor 12 works, and makes Skylight guide rail rotates by a certain angle, and then servo motor 20 works, and scanning means 6 is driven to continue sweeping for next cycle It retouches.

Rotary screw 21 is driven to rotate by the output end of servo motor 20, due to rotary screw 21 and 6 spiral shell of scanning means Line connection, and U-shaped sliding block 2823 is socketed on support rod 22, so scanning means 6 can slide on rotary screw 21, from And processing is scanned to the skylight guide rail of 6 lower section of scanning means, rotation gear 16 and driving gear 14 are arranged in protective housing In 24, it can centainly be protected, moving horizontally for clamping device 4 may be implemented using telescopic device 11, so as to Clamping device 4 is set to clamp the skylight guide rail of different length, when needing to clamp skylight guide rail, the output end of electric cylinder 25 is driven Slide post 26, slide post 26 slide in circular groove 18, and slide post 26 drives clamping device 4 mobile, by bar shaped guide rail and When sliding block 28 can be such that slide post 26 slides in circular groove 18, it is possible to reduce certain frictional force, when needing to clamp skylight When guide rail, pull ring 34 is pulled, then one end of skylight guide rail is put into third groove 35, ring spring 32 at this time, which is in, to be squeezed Then the state of pressure bleeds off pull ring 34, ring spring 32 can generate certain elastic force and squeeze clamping block 31, and clamping block 31 squeezes arc The curved splint 30 of clamping plate 30, two sides can carry out certain fixation to skylight track, can be right using four groups of support cylinders 38 Monitor station 1 is centainly supported, and can receive the light from skylight guide rail using collector 39, realizes that optical signal receives, so Collector 39 is by optical splitter 40, light is carried out light-splitting processing by optical splitter 40 at optical signal afterwards, then being handled by optical splitter 40 The optical signal transmission crossed to detector 41, detector 41 transfer signals to processor 42 carry out A D conversion, processor 42 will Signal after conversion is transferred in processing, and the signal after last processor 42 will process is transferred on display screen 19, and work people Member can carry out the accurate detection to skylight track radian with data on display screen 19.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (8)

1. skylight guide rail radian detect special plane, including monitor station (1), driving device (2), rotating device (3), clamping device (4), Mobile device (5) and scanning means (6), it is characterised in that: monitor station (1) top center offers square groove (7), institute It states the two sides at the top of monitor station (1) to be fixed with support frame (8), be offered on the support frame (8) of monitor station (1) top side First groove (9), one end of the mobile device (5) are fixed in the first groove (9), and the mobile device (5) is far from first The support frame (8) that one end of groove (9) passes through at the top of scanning means (6) and monitor station (1) far from the first groove (9) passes through bearing Rotation connection, and scanning means (6) is threaded on mobile device (5), the two sides at the top of the monitor station (1) offer Second groove (10), the driving device (2) are fixed in the second groove (10), and the driving device (2) is far from the second groove (10) one end and rotating device (3) is sequentially connected, and described choose to install is fixed with telescopic device (11), the telescopic device in device (11) one end far from rotating device (3) is fixedly connected with clamping device (4), and the driving device (2) includes stepper motor (12), first rotating shaft (13) and driving gear (14), the stepper motor (12) are fixed in the second groove (10), the stepping The output end of motor (12) is fixedly connected with first rotating shaft (13), the one end of the first rotating shaft (13) far from stepper motor (12) It is fixedly connected with driving gear (14), driving gear (14) engages connection, the rotating dress with one end of rotating device (3) Setting (3) includes column spinner (15), rotation gear (16) and bearing block (17), and the rotation gear (16) is nibbled with driving gear (14) Connection is closed, the rotation gear (16) is fixedly connected with column spinner (15), and the bottom of the bearing block (17) is fixed on monitor station (1) top, the bearing block (17) are socketed on column spinner (15), and bearing block (17) and column spinner (15) are rotatablely connected, The column spinner (15) offers circular groove (18) far from one end of rotation gear (16), one end of the telescopic device (11) It is fixed in circular groove (18), and the other end of telescopic device (11) is slidably connected with circular groove (18), the monitor station (1) side is fixed with display screen (19).

2. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: the mobile device (5) includes Servo motor (20), rotary screw (21) and support rod (22), the servo motor (20) are fixed in the first groove (9), institute The output end for stating servo motor (20) is fixedly connected with one end of rotary screw (21), and the scanning means (6) is socketed in rotation On screw rod (21), and scanning means (6) is threadedly coupled with rotary screw (21), and the two sides of the scanning means (6) are fixed with U-shaped Sliding block (28) (23), the U-shaped sliding block (28) (23) are socketed on support rod (22), and the two sides of the support rod (22) are solid respectively It is scheduled at the top of monitor station (1) on the support frame (8) of two sides.

3. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: two at the top of the monitor station (1) Side is fixed with protective housing (24), and the rotation gear (16) and driving gear (14) are respectively positioned in protective housing (24).

4. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: the telescopic device (11) includes Electric cylinder (25) and slide post (26), one end of the electric cylinder (25) is fixed in circular groove (18), described electronic The output end of cylinder (25) is fixedly connected with one end of slide post (26), and slide post (26) and the cell wall of circular groove (18) are sliding Dynamic connection, the slide post (26) are fixedly connected far from the one end of electric cylinder (25) with clamping device (4).

5. skylight guide rail radian according to claim 4 detects special plane, it is characterised in that: the circular groove (18) it is interior Four groups of bar shaped tracks (27) are symmetrically offered on wall, and four groups of sliding blocks (28) are symmetrically fixed on the side wall of the slide post (26), The sliding block (28) is located in bar shaped track (27), and sliding block (28) is slidably connected with bar shaped track (27).

6. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: the clamping device (4) includes Rotating cylindrical (29), curved splint (30), clamping block (31), ring spring (32), clamping cylinder (33) and pull ring (34), it is described Rotating cylindrical (29) offers third groove (35) far from the side of slide post (26), symmetrically opens up in the third groove (35) There is two group of the 4th groove (36), the 4th groove (36) surveys slot bottom and offers clamping through-hole (37), the ring spring (32) One end be fixed on the slot bottom of the 4th groove (36), and the other end for waking up spring is fixedly connected with clamping block (31), the card The one end for connecing cylinder (33) sequentially passes through clamping through-hole (37) and ring spring (32) is fixedly connected with clamping block (31), and is clamped Cylinder (33) is slidably connected with clamping through-hole (37), the clamping block (31) one end and curved splint far from ring spring (32) (30) it is fixedly connected, clamping cylinder (33) is fixedly connected far from one end of clamping through-hole (37) with pull ring (34).

7. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: the bottom of the monitor station (1) It is symmetrically fixed with four groups of support cylinders (38).

8. skylight guide rail radian according to claim 1 detects special plane, it is characterised in that: the scanning means (6) includes Collector (39), optical splitter (40), detector (41), processor (42) and follower (43), the collection device and optical splitter (40) it is electrically connected, the optical splitter (40) and detector (41) are electrically connected, the detector (41) and processor (42) electricity Property connection, the processor (42) and follower (43) are electrically connected, and the follower (43) and display screen (19) are electrically connected.