CN104551499A - BIM (Building Information Modeling)-based cylindrical steel structure vertical oblique crossing positioning connection device - Google Patents

Abstract

The invention discloses a BIM (Building Information Modeling)-based cylindrical steel structure vertical oblique crossing positioning connection device. The device comprises a cambered bottom plate and a rotating plate which are hinged together and a telescopic bracket, wherein the bottom surface of the cambered bottom plate is provided with a cavity; an electromagnet A is arranged in the cavity; the rotating plate is arranged in the cavity; an electromagnet B is arranged in the cavity, and a switch, a power supply and a circuit for controlling on and off of the electromagnet are arranged; a BIM positioning sheet is adhered to the positioning connection plate and carries position, hole location and angle information. The positioning connection plate is determined to be kept at a proper angle and the contact point of the positioning connection plate and a structure main body is enabled to be the welding point by forming a proper angle with the cambered bottom plate and a turning plate. Thus the fixed distance and angle of an oblique beam are determined. The construction precision is guaranteed, the construction efficiency is improved, the construction difficulty and the workload of a worker are reduced, the construction cost is reduced, and a foundation is also provided for quick development and application of a BIM technology in construction enterprises.

Description

Cylindrical steel structure based on BIM hangs down oblique locating connector

Technical field

The present invention relates to steel structure connection field of locating technology, be specifically related to a kind of cylindrical steel structure based on BIM and hang down oblique locating connector.

Background technology

Steel building or bridge are when connecting, such as, when secondary beam being connected with girder, because two beam quality are large, direct welding difficulty is large, precision is not high, and for guaranteeing the fastness connecting precision and connection, on girder, solid welding is in advance located by connecting plate usually, then the web of secondary beam is fitted in the plate surface that is located by connecting, then web end and the plate that is located by connecting are bolted fixing.The web distance between center line of plate surface distance secondary beam of being located by connecting is determined, the plate that is located by connecting is parallel with the web of secondary beam, guarantees secondary beam and is in appropriate position, can arrive high accuracy in theory and connect object.But in fact often occur that positioning precision is poor, drift angle is excessive, or the problem such as dislocation, its main cause is that the plate that is located by connecting welds in advance with girder and there is the large problem of error.At present, rely on workman to utilize T-square as benchmark using the method be located by connecting on plate solid welding and girder, or after utilizing inclinometer design angle, weld by the mode of the hand steered plate that is located by connecting, this welding manner error is very large, often there is the problems such as the not corresponding and front-back staggered in angle of inclination, measure again after welding, the mode that precision carries out correcting not again as found is the mode adopting sledgehammer to pound, the processing method of this heaviness can only correct the inclined problem in angle slightly, problem of misalignment cannot be solved by root, and the problem that girder load-carrying properties may be caused to be deteriorated of doing over again.For reaching the connection precision of standard, workload is very big, and inefficiency, affects the construction speed of whole engineering.

Owing to there is above technical problem, there is difficulty from the design phase to the application of construction stage extension in current BIM (BIM), cause the decay in information exchanging process, this just hinders the application of BIM technology in large complicated construction process.

Summary of the invention

The object of the invention is for problems of the prior art and deficiency, the oblique providing one to be applicable to BIM (BIM) design phase and construction stage is located by connecting technology, improves construction precision, reduces the decay in information exchanging process; Be applicable to the application of BIM technology in large complicated construction process, realize the effective visualized management to architectural engineering.

For achieving the above object, the present invention adopts following technical scheme: a kind of cylindrical steel structure based on BIM hangs down oblique locating connector, comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; The bottom surface of described circular arc base plate arranges inner chamber, installs electromagnetism armor in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n.Described flap is provided with inner chamber, installs electromagnet second in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching.The power supply of electromagnet outwards can be drawn by power line and is connected with the direct current after transformation, or, in base, be also provided with the battery for electromagnet energising.The described plate that is located by connecting is pasted with BIM spacer, and BIM spacer carries position, position, hole and angle information; Described BIM spacer is Quick Response Code or three-dimension code.Utilize the position of laser scanner butt welding contact R to scan, and utilize BIM information scanning instrument to after the scanning of BIM spacer, utilize mechanical welding arm to carry out automatic welding according to Scan orientation information butt welding contact.

Cylindrical steel structure based on BIM hangs down an oblique locating connector, comprises the circular arc base plate of fitting and being positioned in cylindrical structural main body, and is connected to the flap of circular arc base plate one end by rotating shaft, arrange telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body pre-sets at least two standing block holes, and be provided with at least two location dops in the bottom surface of described circular arc base plate, location dop and corresponding standing block hole Matching installation, the distance between dop center, location and described pad R is fixed length m; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n; Described flap is provided with inner chamber, installs electromagnet second in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching.

Cylindrical steel structure based on BIM hangs down an oblique locating connector, comprises the circular arc base plate of fitting and being positioned in cylindrical structural main body, and is connected to the flap of circular arc base plate one end by rotating shaft, arrange telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; Described circular arc base plate is made up of NULL shell and magnet first, and described flap is made up of NULL shell and magnet second; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n; Described magnet first and magnet second are rubidium magnet, or are common magnet.

The described plate that is located by connecting is pasted with BIM spacer, and BIM spacer carries position and angle information; Described BIM spacer is Quick Response Code or three-dimension code.Utilize the position of laser scanner butt welding contact R to scan, and utilize BIM information scanning instrument to after the scanning of BIM spacer, utilize mechanical welding arm to carry out automatic welding according to Scan orientation information butt welding contact.So-called BIM location-plate, is for each welding work pieces, by the information of carrying on the BIM digital figure sheet be located by connecting on plate, determines position and the angle of location-plate; Ensure that connecting plate position and hole site are correct.After utilizing laser scanner butt welding contact R to scan, mechanical welding arm butt welding contact is utilized to carry out automatic welding.BIM spacer can install nanometer microelectronics sheet if desired additional, records the two-way angular deflection (MEMS) of component in real time.

Described telescope support comprises outer tube and interior loop bar, fixes after both mate suit by screwing part, the end of outer tube and interior loop bar respectively by pinned connection between circular arc base plate and flap.Interior loop bar is provided with rule, and the mouth of pipe of outer tube is provided with location graticule, location graticule coordinates the folding angle determining circular arc base plate and flap with rule.

Described telescope support comprises Double-ended nut cover, to be threaded respectively upper and lower screw rod at the two ends of Double-ended nut cover, the end of upper and lower screw rod respectively by pinned connection between circular arc base plate and flap.The side of Double-ended nut cover is provided with rule, the end of upper screw rod or lower screw rod is provided with location graticule, location graticule coordinates the folding angle determining circular arc base plate and flap with rule.

Described telescope support comprises two pull bars be hinged on respectively on circular arc base plate and flap, the end of two pull bars is hinged on same bearing pin, this bearing pin is provided with radial center screw, internal overarm support is set with in it, and be threaded, one end of internal overarm support arranges handle, and the other end mates with the pivoted housing that described rotating shaft is arranged and is set in together.

Described telescope support comprises the connecting rod be connected on circular arc base plate and flap, and two connecting rods meet at together, is respectively arranged with slide opening, and is provided with clamping screw in two connecting rod intersections.

Described telescope support comprises the slide bar be hinged on flap and the chute be arranged on circular arc base plate, and in chute, coupling is set with nut slider, is also set with screw rod, screw rod and nut slider Matching installation in chute.

Screw rod is provided with the constraint catch preventing from moving axially, screw rod end is provided with knob.

The invention has the beneficial effects as follows: the present invention utilizes circular arc base plate and main structure body positioning relation, determines the distance relation between anchor point and pad.The proper angle utilizing circular arc base plate and flap to form, plate of determining to be located by connecting is in suitable angle, and guarantee to be located by connecting plate and main structure body contact point are pad.Thus determine fixed range and the angle of cant beam.

The present invention adopts multiple telescope support structure, can reach the effect of fixing circular arc base plate and flap generation proper angle respectively.BIM spacer can install nanometer microelectronics sheet if desired additional, records the two-way angular deflection (MEMS) of component in real time.

The present invention is that practice of construction provides reliable basis on location, guarantees construction precision, improves efficiency of construction, reduce difficulty of construction and workman's workload, save construction cost, also for BIM technology will be rapidly developed in construction enterprises and application provides basis.

Accompanying drawing explanation

Fig. 1 is girder and cant beam connection status schematic diagram;

Fig. 2 is the first the oblique locating connector structural representation positioned the plate that is located by connecting;

Fig. 3 is the schematic top plan view of Fig. 2;

Fig. 4 is one of structural representation of telescope support;

Fig. 5 is the structural representation two of telescope support;

Fig. 6 is the structural representation three of telescope support;

Fig. 7 is the structural representation four of telescope support;

Fig. 8 is the structural representation five of telescope support;

Fig. 9 is the second oblique locating connector structural representation positioned the plate that is located by connecting;

Figure 10 is be located by connecting plate and cant beam connection diagram in Fig. 9 after accurate welding

Figure 11 is the front schematic view of plate of being located by connecting;

Figure 12 is the structural representation of the third oblique locating connector;

Figure 13 is the C-C cross-sectional view of Figure 12.

In figure, label 1 is circular arc base plate, 2 is flap, 21 is locating hole, 3 is rotating shaft, 4 is telescope support, 401 is outer tube, 402 is interior loop bar, 403 is upper pin, 404 is lower bearing pin, 405 for screwing part, 406 is rule, 407 is location graticule, 408 is Double-ended nut, 409 is upper screw rod, 410 is lower screw rod, 411 is internal overarm support, 412 is upper pull bar, 413 is lower push-pull bar, 414 is nut sleeve, 415 is thread segment, 416 is pivoted housing, 417 is shift scale dish, 418 is handle, 419 is upper connecting rod, 420 is lower link, 421 is slide opening, 422 is clamping screw, 423 is fixing dial, 424 is slide bar, 425 is nut slider, 426 is chute, 427 is screw rod, 428 is constraint catch, 429 is knob, 5 is the plate that is located by connecting, 51 is installing hole, 52 is construction bolt, 6 is location dop, 7 is standing block hole, 10 is cant beam web center line, 11 is cylindrical member, 13 is cant beam web, 14 is cant beam wing plate, 15 is location graticule, 16 is iron core, 17 is coil, 18 is electro-magnet switch, 19 is BIM spacer, 20 is rubidium magnet, 21 is every magnetic material shell.

Detailed description of the invention

Below in conjunction with accompanying drawing, the invention will be further described.

Embodiment 1: a kind of cylindrical steel structure based on BIM hangs down oblique locating connector, see Fig. 1, Fig. 2 and Fig. 3, comprise the circular arc base plate of fitting and being positioned on girder web plate, and be connected to the flap of circular arc base plate one end by rotating shaft, between flap and circular arc base plate, telescope support is set; The outer surface extended line of flap and girder web plate intersection are the drift angle pad R of the plate that is located by connecting; Girder web plate is previously provided with the location graticule mated with described circular arc base plate; The bottom surface of described circular arc base plate arranges inner chamber, installs electromagnetism armor in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n.The power supply of electromagnet outwards can be drawn by power line and is connected with the direct current after transformation, or, in base, be also provided with the battery for electromagnet energising.With precision.

See Figure 11, the described plate that is located by connecting is pasted with BIM spacer 19, BIM spacer 19 and carries position and angle information; Described BIM spacer is Quick Response Code or three-dimension code.Utilize the position of laser scanner butt welding contact R to scan, and utilize BIM information scanning instrument to after the scanning of BIM spacer, utilize mechanical welding arm to carry out automatic welding according to Scan orientation information butt welding contact.

So-called BIM location-plate, is for each welding work pieces, by the information of carrying on the BIM digital figure sheet be located by connecting on plate, determines position and the angle of location-plate; Ensure that connecting plate position and hole site are correct.After utilizing laser scanner butt welding contact R to scan, mechanical welding arm butt welding contact is utilized to carry out automatic welding.Adopt the welding location instrument shown in Fig. 2, precision is high, locating speed is fast, effective, robot automatic welding can be utilized, such as paste in girder surveyor's beacon position and record the Quick Response Code of girder and cant beam positional information and link information, after Robot Scanning 2 D code information again with girder surveyor's beacon for benchmark positions welding.Or the described location graticule 15 on Robot Scanning girder welds for benchmark.Or after first utilizing laser scanner butt welding contact R to scan, robot utilizes mechanical welding arm butt welding contact to carry out automatic welding.Thus make beam connection realize automation.BIM spacer can install nanometer microelectronics sheet (MEMS) if desired additional, records the two-way angular deflection of component in real time.

Embodiment 2: see Fig. 1, Fig. 2 and Fig. 3, on embodiment 1 basis, is not only provided with inner chamber, installs electromagnetism armor in inner chamber on circular arc base plate, and is provided with the switch and power supply and circuit that control magnet switching.And flap is provided with inner chamber, electromagnet second is installed in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching.

Circular arc base plate 1 and flap 2 have magnetic adsorption capacity respectively, and side is adsorbed mutually with component, and another absorption is located by connecting plate, ensure Board position and hole correct.

Embodiment 3: see Fig. 1, docks in fixation procedure by cant beam with girder, needs to pre-set the plate 5 that is located by connecting, for determining link position and the angle of cant beam.See Fig. 9, the welding of the plate 5 that is located by connecting adopts a kind of location instrument with proper angle, for welding position and the angle of inclination of plate 5 of determining to be located by connecting.

Circular arc base plate 1 is fitted on fixed and cylindrical member 11, and flap 2 is hinged by rotating shaft 3 with circular arc base plate 1, arranges telescope support 4 between flap 2 and circular arc base plate 1.Flap is provided with inner chamber, installs electromagnet second in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching.

In Fig. 9, the outer surface extended line of flap 2 and cylindrical member 11 intersection are the drift angle pad R of the plate 5 that is located by connecting.Cylindrical member 11 pre-sets at least two standing block holes 7, at least two location dops 6 are provided with in the bottom surface of described circular arc base plate 1, location dop 6 and corresponding standing block hole 7 Matching installation, the distance between dop 6 center, location and described pad R is fixed length m.See Fig. 9, described flap 2 is provided with the locating hole 21 corresponding with plate 5 installing hole that is located by connecting, the distance between the cant beam web center line 10 of this locating hole 21 center and pre-installation is fixed length n, is generally 3 inches.

Adopt the welding location instrument shown in Fig. 9, precision is high, and locating speed is fast, effective, robot automatic welding can be utilized, such as, after first utilizing laser scanner butt welding contact R to scan, then utilize mechanical welding arm butt welding contact to carry out automatic welding, thus make beam connection realize automation.As shown in Figure 10, the plate 5 that is located by connecting after welding can directly be connected with cant beam, there will not be any Problem-Error.

See Fig. 9, telescope support 4 comprises outer tube 401 and interior loop bar 402, and fix by screwing part 405 after both mate suit, the end of outer tube 401 and interior loop bar 402 is connected between circular arc base plate 1 and flap 2 respectively by lower bearing pin 404 and upper pin 403.Interior loop bar 402 is provided with rule 406, and the mouth of pipe of outer tube 401 is provided with location graticule 407, location graticule 407 coordinates the folding angle determining circular arc base plate 1 and flap 2 with rule 406.

Embodiment 4: content is substantially the same manner as Example 1, something in common does not repeat, different thing: see Fig. 5, telescope support 4 comprises Double-ended nut 408 and overlaps, screw rod 409 and lower screw rod 410 on the two ends that Double-ended nut 408 overlaps have been threaded respectively, the end of upper screw rod 409 and lower screw rod 410 is connected on flap 2 and circular arc base plate 1 respectively by upper pin 403 and lower bearing pin 404.The side overlapped at Double-ended nut 408 is provided with rule 406, and the end of upper screw rod 409 is provided with location graticule 407, and location graticule 407 coordinates the folding angle determining circular arc base plate 1 and flap 2 with rule 406.

Embodiment 5: content is substantially the same manner as Example 1, something in common does not repeat, different thing: see Fig. 6, described telescope support 4 comprises upper pull bar 412 and the lower push-pull bar 413 that two are hinged on flap 2 and circular arc base plate 1 respectively, the end of two pull bars is hinged on same bearing pin, this bearing pin is provided with radial center screw, and be extended with nut sleeve 414, internal overarm support 411 is set with in nut sleeve 414, and be threaded, one end of internal overarm support 411 arranges handle, and the other end mates with the pivoted housing that described rotating shaft 3 is arranged and is set in together.

Embodiment 6: content is substantially the same manner as Example 1, something in common does not repeat, different thing: see Fig. 7, described telescope support 4 comprises the upper connecting rod and lower link that are connected to flap 2 and circular arc base plate 1, two connecting rods meet at together, be respectively arranged with slide opening in two connecting rod intersections, and clamping screw is installed.

Embodiment 7: content is substantially the same manner as Example 1, something in common does not repeat, different thing: see Fig. 8, described telescope support 4 comprises the slide bar be hinged on flap 2 and the chute be arranged on circular arc base plate 1, in chute, coupling is set with nut slider, is also set with screw rod, screw rod and nut slider Matching installation in chute, screw rod is provided with the constraint catch preventing from moving axially, screw rod end is provided with knob.

Embodiment 8: see Figure 12 and Figure 13, a kind of cylindrical steel structure based on BIM hangs down oblique locating connector, comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; Described base plate is made up of NULL shell and rubidium magnet first, and described flap is made up of NULL shell and rubidium magnet second; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n.

Embodiment 9: see Figure 12 and Figure 13, a kind of cylindrical steel structure based on BIM hangs down oblique locating connector, comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; Described base plate is made up of NULL shell and common magnet first, and described flap is made up of NULL shell and common magnet second; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n.

Claims (10)

1. the cylindrical steel structure based on BIM hangs down oblique locating connector, comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; The bottom surface of described circular arc base plate arranges inner chamber, installs electromagnetism armor in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching; Described flap is provided with inner chamber, installs electromagnet second in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n.

2. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: on the described plate that is located by connecting, be pasted with BIM spacer, BIM spacer carries position, position, hole and angle information; Described BIM spacer is Quick Response Code or three-dimension code.

3. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: utilize the position of laser scanner butt welding contact R to scan, and utilize BIM information scanning instrument to after the scanning of BIM spacer, utilize mechanical welding arm to carry out automatic welding according to Scan orientation information butt welding contact.

4. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: described telescope support comprises outer tube and interior loop bar, fix by screwing part after both coupling suits, the end of outer tube and interior loop bar respectively by pinned connection between circular arc base plate and flap; Interior loop bar is provided with rule, and the mouth of pipe of outer tube is provided with location graticule, location graticule coordinates the folding angle determining circular arc base plate and flap with rule.

5. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: described telescope support comprises Double-ended nut cover, to be threaded respectively upper and lower screw rod at the two ends of Double-ended nut cover, the end of upper and lower screw rod respectively by pinned connection between circular arc base plate and flap; The side of Double-ended nut cover is provided with rule, the end of upper screw rod or lower screw rod is provided with location graticule, location graticule coordinates the folding angle determining circular arc base plate and flap with rule.

6. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: described telescope support comprises two pull bars be hinged on respectively on circular arc base plate and flap, the end of two pull bars is hinged on same bearing pin, this bearing pin is provided with radial center screw, internal overarm support is set with in it, and be threaded, one end of internal overarm support arranges handle, and the other end mates with the pivoted housing that described rotating shaft is arranged and is set in together.

7. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: described telescope support comprises the connecting rod be connected on circular arc base plate and flap, two connecting rods meet at together, be respectively arranged with slide opening in two connecting rod intersections, and clamping screw is installed.

8. to hang down oblique locating connector according to the cylindrical steel structure based on BIM shown in claim 1, it is characterized in that: described telescope support comprises the slide bar be hinged on flap and the chute be arranged on circular arc base plate, in chute, coupling is set with nut slider, also screw rod is set with in chute, screw rod and nut slider Matching installation, screw rod is provided with the constraint catch preventing from moving axially, screw rod end is provided with knob.

9. the cylindrical steel structure based on BIM hangs down oblique locating connector, it is characterized in that: comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body pre-sets at least two standing block holes, and be provided with at least two location dops in the bottom surface of described circular arc base plate, location dop and corresponding standing block hole Matching installation, the distance between dop center, location and described pad R is fixed length m; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n; Described flap is provided with inner chamber, installs electromagnet second in inner chamber, and is provided with the switch and power supply and circuit that control magnet switching.

10. the cylindrical steel structure based on BIM hangs down oblique locating connector, comprise the circular arc base plate of fitting and being positioned in cylindrical structural main body, flap with being connected to circular arc base plate one end by rotating shaft, arranges telescope support between flap and circular arc base plate; The outer surface extended line of flap and main structure body intersection are the drift angle pad R of the plate that is located by connecting; Main structure body is previously provided with the location graticule mated with described circular arc base plate; Described circular arc base plate is made up of NULL shell and magnet first, and described flap is made up of NULL shell and magnet second; Described flap is provided with the locating hole corresponding with the plate installing hole that is located by connecting, the distance between the cant beam web center line of this locating hole center and pre-installation is fixed length n; Described magnet first and magnet second are rubidium magnet, or are common magnet.