CN114775997A

CN114775997A - Corner aluminum alloy template and use method thereof

Info

Publication number: CN114775997A
Application number: CN202210494609.3A
Authority: CN
Inventors: 李伟龙; 鲁军峰
Original assignee: Shandong Jiuwei New Material Co ltd
Current assignee: Shandong Jiuwei New Material Co ltd
Priority date: 2022-05-07
Filing date: 2022-05-07
Publication date: 2022-07-22
Anticipated expiration: 2042-05-07
Also published as: CN114775997B

Abstract

The invention relates to the technical field of corner aluminum alloy templates, in particular to a corner aluminum alloy template and a using method thereof. The corner aluminum alloy template and the use method thereof are based on the use condition of non-ground without a placement surface, constructors can preset or search the end part of a reinforcing steel bar, a pile head and other protrusions, an arch is sleeved and clamped along the protrusions by using a slot, then the angle between two installation templates is adjusted along an arch rotating ring sleeve according to a building included angle, after the angle matching is completed, the installation templates are used for pushing the ring sleeve to slide downwards along an inner platform, the ring sleeve supports the ring sleeve and an elastic flap to be converged into the slot along the inclined surface of a corner block until the corner block is embedded into a ring slot to be locked, the converged elastic flap is locked along the protrusions such as the reinforcing steel bar in the slot at the moment, and therefore the stable installation of the arch is achieved, the device is more suitable for the complex environment of a construction site, the use flexibility is good, and the stability is better in the adjusting and assembling process.

Description

Corner aluminum alloy template and use method thereof

Technical Field

The invention relates to the technical field of corner aluminum alloy templates, in particular to a corner aluminum alloy template and a using method thereof.

Background

The aluminum alloy template is a new generation template system appearing after a wood template and a steel template. The aluminum template is designed according to modulus, is extruded and molded by special equipment, and can be freely combined according to different structural sizes. The design research and development and the construction application of the aluminum template are one-time great development of the building industry, and have the characteristics of short construction period, multiple repeated use times, convenient construction, high efficiency, good stability, high bearing capacity, wide application range and the like.

The prior patent (publication number: CN111764640B) discloses a corner aluminum alloy template, which comprises a template body, wherein the template body comprises a first template and a second template, the first template comprises a connecting pipe, a fixed pipe and an inner pipe, the connecting pipe is connected with the inner pipe through the fixed pipe, the left side of the fixed pipe is connected with a limiting pipe, the second template comprises an outer pipe, and the right side of the outer pipe is connected with the limiting pipe. The inventor finds the following problems in the prior art in the process of implementing the invention: 1. the device can be placed and used only on a plane, and has large use limitation; 2. the locking is lacked after the angle adjustment, so that the deviation is easy to occur in the assembling and using processes; 3. the angle adjustment in a single direction can be only carried out, and the adaptability is poor.

In view of this, we propose a corner aluminum alloy form and a method of using the same.

Disclosure of Invention

The invention aims to provide a corner aluminum alloy template and a using method thereof, and aims to solve the problems that the corner aluminum alloy template can only be placed and used on a plane, is large in use limitation, lacks locking after angle adjustment, is easy to deviate in the assembling and using processes, can only be adjusted in a single direction, and is poor in adaptability in the background technology. In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a corner aluminum alloy template, includes the bow member, the both ends of bow member all are provided with the installation die carrier, and the inner fixedly connected with ring cover of installation die carrier, the tip at the bow member is cup jointed in the ring cover activity, the installation die carrier realizes the installation through the ring cover along the bow member that moves around and connects.

Be provided with on the inner wall of ring cover and the bow member and set firmly the subassembly, and the bow member is established to two half framves and is constituteed, two connect through multidimension adjusting part between the half framves, and multidimension adjusting part controls through setting firmly the subassembly.

Preferably, the fixing component comprises an inner platform, the inner platform is cut at the end part of the arch frame, and the ring sleeve is movably sleeved on the inner platform.

The end part of the arch center is provided with a slot, the inner platform cuts an elastic flap matched with the slot at the end edge of the arch center, the outer surface of the elastic flap is fixedly connected with an angle block matched with the ring sleeve, and the inner wall of the ring sleeve is provided with a ring clamping groove matched with the angle block.

Locking parts are arranged on the ring clamping grooves and the corner blocks.

An inner ring groove is formed in the upper side of the inner wall of the ring sleeve, an unlocking pipe used for abutting the angle block is connected to the inner ring groove in a sliding mode, and the multi-dimensional adjusting assembly is arranged on the arch frame and controlled through the unlocking pipe.

Preferably, the locking part comprises a convex ridge, the convex ridge is integrally formed on the surface of the corner block, and the inner wall of the ring clamping groove is provided with a concave ridge matched with the convex ridge.

Preferably, the multi-dimensional adjusting assembly comprises two ear seats, the two ear seats are fixedly arranged at the inner ends of the two half frames in a relative staggered manner, and an inner shaft is inserted between the two ear seats and is connected in a rotating manner.

An inner hole corresponding to the inner shaft is formed in the inner end of the half frame, an elastic sheet is fixedly connected to the inner wall of the inner hole, calipers are fixedly connected to the outer end of the elastic sheet, and insections matched with the calipers are formed in the surface of the inner shaft.

The inside of half frame is seted up the slide of intercommunication hole and interior platform, and the inside sliding connection of slide have with shell fragment and unblock pipe matched with inner pin.

Preferably, the inner surface of the elastic flap is integrally formed with a rib.

Preferably, the inner table and the ring sleeve are provided with scales which are matched with each other.

Preferably, the bearings are fixedly sleeved at two ends of the inner shaft, and the outer rings of the bearings are fixedly embedded on the lug seats.

The use method of the corner aluminum alloy template comprises the following steps:

s1, the device can be directly placed on a flat ground for use, is arranged at a corner of a building, then realizes the adjustment of the angle between two installation formworks along an arch frame rotating ring sleeve according to the building included angle, and can assemble the reinforcing steel bar along the installation formworks after the angle matching is completed.

S2, aiming at the uneven ground existing in the complex construction site, or the use condition based on the uneven ground and without a setting surface, constructors can preset or search the protrusions such as the end part of a steel bar and a pile head, sleeve and clamp the arch frame along the protrusions by using the slots, then realize the angle adjustment between two installation templates along the arch frame rotating ring sleeve according to the building included angle, after the angle matching is finished, the installation template is used for pushing the ring sleeve to slide downwards along the inner platform, the ring sleeve supports the elastic valve to cohere with the elastic valve to the slots along the inclined plane of the corner block until the corner block is embedded into the ring slot for locking, and at the moment, the cohered elastic valve is buckled along the protrusions such as the steel bar in the slots, so that the stable installation of the arch frame is realized, the device is more suitable for the complex environment of the construction site, has good use flexibility, and has better stability in the adjusting and assembling process.

S3, after the angle adjustment between the two installation templates is completed, the ring sleeve is pushed to slide downwards along the inner platform to enable the corner block to be embedded into the ring clamping groove for locking, the convex patterns on the surface of the corner block are synchronously embedded into the concave patterns in the ring clamping groove, and the ring sleeve is locked by the corner block in a double mode of axial sliding and radial rotation, so that the angle after the adjustment of the installation templates is further kept, the accuracy of the ring sleeve and the installation templates is prevented from being influenced by the deviation in the assembling process, and the steel bar structure after the assembly is completed is more stable.

S4, aiming at corners formed by different three-dimensional surfaces of a building in construction, a constructor can utilize an unlocking pipe to slide downwards to abut against a corner block unlocking ring sleeve and pull up the ring sleeve, the upward-moving ring sleeve pushes an inner pin on the upper side of an inner platform, the inner pin abuts against a spring plate to rotate upwards, calipers are separated from an inner shaft, and therefore locking of half frames along the inner shaft is unlocked, half frames on two sides can axially deflect along the inner shaft, angle adjustment of different dimensions is achieved through mutual deflection of the half frames and the cooperation of the ring sleeve and the installation of a die set, and the mutual combination adjustment directions and ranges are more diverse.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, aiming at the non-flat ground existing in a complex construction site, or under the use condition of non-ground without a placement surface, a constructor can preset or search the projections such as the end part of a steel bar, a pile head and the like, and sleeve and clamp the arch frame along the projections by using the slot, then realize the angle adjustment between two installation frameworks along the arch frame rotating ring sleeve according to the building included angle, after the angle matching is finished, the installation frameworks are used for pushing the ring sleeve to slide downwards along the inner platform, the ring sleeve supports the ring sleeve and the elastic valve to cohere to the slot along the inclined plane of the angle block until the angle block is embedded into the ring slot for locking, and at the moment, the cohered elastic valve is buckled along the projections such as the steel bar and the like in the slot, so that the stable installation of the arch frame is realized, the device is more suitable for the complex environment of the construction site, has good use flexibility, and has better stability in the adjusting and assembling process.

According to the angle adjusting and matching device, after the angle adjusting and matching between the two installation die frames are completed, the ring sleeve is pushed to slide downwards along the inner platform, so that the corner block is embedded into the ring clamping groove to be locked, the convex patterns on the surface of the corner block are synchronously embedded into the concave patterns in the ring clamping groove, at the moment, the ring sleeve is locked by the corner block in a double mode of axial sliding and radial rotation, the adjusted angle of the installation die frames is further kept, the phenomenon that the accuracy is influenced by the fact that the ring sleeve and the installation die frames deviate in the assembling process is avoided, and the structure of the steel bar after the assembling is completed is more stable.

According to the invention, for corners formed by different three-dimensional surfaces of a building in construction, a constructor can utilize the unlocking pipe to slide downwards to push the corner block unlocking ring sleeve and pull the ring sleeve upwards, the upwards-moved ring sleeve pushes the inner pin upwards on the upper side of the inner platform, the inner pin pushes the elastic sheet to rotate upwards, the calipers are separated from the inner shaft, and the half frames are fixedly locked along the inner shaft, so that the half frames on two sides can axially deflect along the inner shaft, angle adjustment of different dimensions is realized by mutual deflection matching of the half frames with the ring sleeve and deflection of the installation formwork, and the mutual combination adjustment directions and ranges are more diverse.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a partial cross-sectional view of the perspective structure of FIG. 3 in accordance with the present invention;

fig. 5 is a partial sectional view of the three-dimensional structure of the arch according to the present invention.

In the figure: 1. an arch frame; 1A, half frame; 2. installing a die frame; 3. sleeving a ring; 4. fixing the assembly; 41. an inner stage; 42. inserting slots; 43. an elastic flap; 44. a corner block; 45. an annular clamping groove; 46. a locking portion; 461. a relief pattern; 462. concave lines; 47. an inner ring groove; 48. unlocking the tube; 5. a multi-dimensional adjustment assembly; 51. an ear mount; 52. an inner shaft; 53. an inner bore; 54. a spring plate; 55. a caliper; 56. insection; 57. a slideway; 58. and (4) an inner pin.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by workers skilled in the art without any inventive work based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: a corner aluminum alloy template comprises an arch frame 1, wherein two ends of the arch frame 1 are provided with installation mold frames 2, the inner ends of the installation mold frames 2 are fixedly connected with ring sleeves 3, the ring sleeves 3 are movably sleeved at the end parts of the arch frame 1, the installation mold frames 2 are in installation and winding connection along the arch frame 1 through the ring sleeves 3, the arch frame 1 is arranged at a corner of a building, then the adjustment of the angle between the two installation mold frames 2 is realized along the rotation ring sleeves 3 of the arch frame 1 according to the building included angle, and after the angle matching is completed, reinforcing steel bars can be assembled along the installation mold frames 2;

be provided with on the inner wall of ring cover 3 and the bow member 1 and set firmly subassembly 4, and bow member 1 establishes to two half 1A constitutions, connects through multidimension adjusting part 5 between two half 1A, and multidimension adjusting part 5 controls through setting firmly subassembly 4.

In this embodiment, as shown in fig. 1, 2, 3, 4 and 5, the fixing component 4 includes an inner platform 41, the inner platform 41 is cut at the end of the arch frame 1, and the ring sleeve 3 is movably sleeved on the inner platform 41;

the end part of the arch center 1 is provided with a slot 42, projections such as the end part of a steel bar, a pile head and the like are preset or searched, the arch center 1 is sleeved and clamped along the projections by utilizing the slot 42, an inner platform 41 cuts an elastic flap 43 matched with the slot 42 at the end edge of the arch center 1, the outer surface of the elastic flap 43 is fixedly connected with a corner block 44 matched with the ring sleeve 3, and the inner wall of the ring sleeve 3 is provided with a ring clamping groove 45 matched with the corner block 44;

locking parts 46 are arranged on the ring clamping grooves 45 and the corner blocks 44;

an inner ring groove 47 is formed in the upper side of the inner wall of the ring sleeve 3, an unlocking pipe 48 used for abutting against the corner block 44 is connected to the inner ring groove 47 in a sliding mode, the multidimensional adjusting component 5 is arranged on the arch center 1 and controlled through the unlocking pipe 48, the ring sleeve 3 is pushed to slide downwards along the inner platform 41 by the aid of the installing die set 2, the ring sleeve 3 abuts against the corner block 44 along the inclined plane of the corner block 44 and is converged with the elastic flap 43 towards the slot 42 until the corner block 44 is embedded into the ring clamping groove 45 to be locked, and at the moment, the converged elastic flap 43 is buckled along projections such as reinforcing steel bars in the slot 42.

In this embodiment, as shown in fig. 1, 2, 3, 4 and 5, the locking portion 46 includes a convex ridge 461, the convex ridge 461 is integrally formed on the surface of the corner block 44, and the inner wall of the ring-locking groove 45 is provided with a concave ridge 462 matching with the convex ridge 461.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the multidimensional adjusting component 5 includes two ear seats 51, the two ear seats 51 are staggered and fixed at the inner ends of the two half frames 1A, and an inner shaft 52 is inserted between the two ear seats 51 and is connected in a rotating manner;

an inner hole 53 corresponding to the inner shaft 52 is formed in the inner end of the half frame 1A, an elastic sheet 54 is fixedly connected to the inner wall of the inner hole 53, a caliper 55 is fixedly connected to the outer end of the elastic sheet 54, insections 56 matched with the caliper 55 are formed in the surface of the inner shaft 52, and the caliper 55 is buckled and pressed on the insections 56 by the elastic sheet 54 in a normal state to mutually fix the half frame 1A and the inner shaft 52;

a slide way 57 for communicating the inner hole 53 with the inner platform 41 is formed in the half frame 1A, and an inner pin 58 matched with the elastic sheet 54 and the unlocking pipe 48 is connected in the slide way 57 in a sliding manner.

In this embodiment, as shown in fig. 1, 2, 3, 4 and 5, the inner surface of the elastic flap 43 is integrally formed with a rib, so that the elastic flap 43 has a larger friction force with the locking point, thereby enhancing the installation stability.

In this embodiment, as shown in fig. 1, 2, 3, 4 and 5, the inner platform 41 and the ring sleeve 3 are provided with mutually matching scales, so that a user can quickly and accurately know the rotation angle of the installation mold frame 2 through the ring sleeve 3.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, bearings are fixedly sleeved at both ends of the inner shaft 52, and an outer ring of each bearing is fixedly embedded on the ear mount 51, so that the bearings can effectively reduce friction coefficients of the ear mount 51 and the inner shaft 52 during the movement process, and can ensure the rotation accuracy of the ear mount 51 and the inner shaft 52 while limiting.

s1, the device can be directly placed on a flat ground for use, is arranged at an included angle of a building, then realizes the adjustment of the angle between two installation formwork 2 along the rotating ring sleeve 3 of the arch center 1 according to the included angle of the building, and can assemble the reinforcing steel bars along the installation formwork 2 after the angle matching is finished;

s2, aiming at the uneven ground existing in the complex construction site, or based on the use condition of the uneven ground and no setting surface, constructors can preset or search the projections such as the end part of the steel bar, the pile head and the like, and sleeve the arch center 1 along the projections by utilizing the slot 42, then the ring sleeve 3 is rotated along the arch frame 1 according to the building included angle to realize the angle adjustment between the two installation mould frames 2, after the angle matching is finished, the installation mould frames 2 are utilized to push the ring sleeve 3 to slide downwards along the inner platform 41, the ring sleeve 3 supports the elastic flap 43 to be converged towards the slot 42 along the inclined plane of the corner block 44 until the corner block 44 is embedded into the ring clamping groove 45 to be locked, at the moment, the converged elastic flap 43 is locked along the projections such as the reinforcing steel bars in the slot 42, therefore, the stable installation of the arch center 1 is realized, so that the device is more suitable for complex environments in construction sites, has good use flexibility and has better stability in the adjusting and assembling process;

s3, after the angle adjustment and matching between the two installation die carriers 2 are completed, the ring sleeve 3 is pushed to slide downwards along the inner platform 41 to enable the corner block 44 to be embedded into the ring clamping groove 45 for locking, the convex patterns 461 on the surface of the corner block 44 are synchronously embedded into the concave patterns 462 in the ring clamping groove 45, and at the moment, the ring sleeve 3 is subjected to double locking of axial sliding and radial rotation by the corner block 44, so that the adjusted angle of the installation die carriers 2 is further kept, the phenomenon that the accuracy is influenced by the deviation of the ring sleeve 3 and the installation die carriers 2 in the assembly process is avoided, and the structure of the steel bar after the assembly is completed is more stable;

s4, aiming at corners formed by different three-dimensional surfaces of a building in construction, a constructor can utilize the unlocking pipe 48 to slide downwards to push the corner block 44 to unlock the ring sleeve 3 and to pull the ring sleeve 3 upwards, the upward-moving ring sleeve 3 pushes the inner pin 58 upwards on the upper side of the inner platform 41, the inner pin 58 pushes the elastic sheet 54 upwards to separate the caliper 55 from the inner shaft 52, so that the locking of the half frame 1A along the inner shaft 52 is unlocked, the half frames 1A on two sides can axially deflect along the inner shaft 52, the half frames 1A mutually deflect to match with the ring sleeve 3 and the installation formwork 2 to deflect to realize angle adjustment of different dimensions, and the mutual combination adjustment directions and ranges are more diversified.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and the above-described embodiments and descriptions are only preferred examples of the present invention and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a corner aluminum alloy template, includes bow member (1), its characterized in that: the two ends of the arch center (1) are provided with installation die carriers (2), the inner ends of the installation die carriers (2) are fixedly connected with ring sleeves (3), the ring sleeves (3) are movably sleeved at the end parts of the arch center (1), and the installation die carriers (2) are installed and connected in a winding manner along the arch center (1) through the ring sleeves (3);

be provided with on the inner wall of ring cover (3) and bow member (1) and set firmly subassembly (4), and bow member (1) establishes to become two half framves (1A) and constitute, two connect through multidimension adjusting part (5) between half framves (1A), and multidimension adjusting part (5) are controlled through setting firmly subassembly (4).

2. The corner aluminum alloy template according to claim 1, wherein: the fixing component (4) comprises an inner platform (41), the inner platform (41) is cut at the end part of the arch frame (1), and the ring sleeve (3) is movably sleeved on the inner platform (41);

a slot (42) is formed in the end portion of the arch center (1), an elastic flap (43) matched with the slot (42) is cut on the end edge of the arch center (1) in the inner platform (41), an angle block (44) matched with the ring sleeve (3) is fixedly connected to the outer surface of the elastic flap (43), and a ring clamping groove (45) matched with the angle block (44) is formed in the inner wall of the ring sleeve (3);

locking parts (46) are arranged on the ring clamping grooves (45) and the corner blocks (44);

inner ring groove (47) have been seted up to the upside of ring cover (3) inner wall, and sliding connection has unblock pipe (48) that are used for propping angle piece (44) that contracts in inner ring groove (47), multidimension adjusting part (5) set up on bow member (1) and control through unblock pipe (48).

3. The corner aluminum alloy template according to claim 2, wherein: the locking part (46) comprises a convex ridge (461), the convex ridge (461) is integrally formed on the surface of the corner block (44), and the inner wall of the ring clamping groove (45) is provided with a concave line (462) matched with the convex ridge (461).

4. The corner aluminum alloy template according to claim 2, wherein: the multi-dimensional adjusting assembly (5) comprises two ear seats (51), the two ear seats (51) are arranged at the inner ends of the two half frames (1A) in a relatively staggered manner, and an inner shaft (52) is inserted between the two ear seats (51) and is connected in a rotating manner;

an inner hole (53) corresponding to the inner shaft (52) is formed in the inner end of the half frame (1A), an elastic sheet (54) is fixedly connected to the inner wall of the inner hole (53), calipers (55) are fixedly connected to the outer end of the elastic sheet (54), and insections (56) matched with the calipers (55) are formed in the surface of the inner shaft (52);

slide (57) of intercommunication hole (53) and interior platform (41) are seted up to half frame (1A) inside, and the inside sliding connection of slide (57) have with shell fragment (54) and unblock pipe (48) matched with interior round pin (58).

5. The corner aluminum alloy template according to claim 2, wherein: the inner surface of the elastic valve (43) is integrally formed with a rib.

6. The corner aluminum alloy formwork of claim 2, wherein: scales matched with each other are arranged on the inner platform (41) and the ring sleeve (3).

7. The corner aluminum alloy template according to claim 4, wherein: and bearings are fixedly sleeved at two ends of the inner shaft (52), and outer rings of the bearings are fixedly embedded on the lug seats (51).

8. The use method of the corner aluminum alloy template as claimed in claim 1, comprising the following steps:

s1, the device can be directly placed on a flat ground for use, is arranged at an included angle of a building, then realizes the adjustment of the angle between two installation formwork (2) along the rotating ring sleeve (3) of the arch frame (1) according to the included angle of the building, and can assemble the reinforcing steel bar along the installation formwork (2) after the angle matching is finished;

s2, aiming at uneven ground existing in a complex construction site, or under the use condition of no ground or no setting surface, a constructor can preset or search for projections such as the end part of a steel bar, a pile head and the like, and sleeve and clamp the arch center (1) along the projections by using the slot (42), then rotate the ring sleeve (3) along the arch center (1) according to a building included angle to realize the adjustment of the angle between the two installation mould frames (2), after the angle matching is finished, the ring sleeve (3) slides downwards along the inner platform (41) by using the installation mould frames (2), the ring sleeve (3) pushes the ring sleeve and the elastic flap (43) to be converged towards the slot (42) along the inclined plane of the corner block (44), until the corner block (44) is embedded into the ring clamping slot (45) to be locked, at the moment, the converged elastic flap (43) is buckled and locked along the projections such as the steel bar and the like in the slot (42), so as to realize the stable installation of the arch center (1), and the device is more suitable for the complex construction site, the use flexibility is good, and the stability is better in the adjusting and assembling process;

s3, after the angle adjustment and matching between the two installation die carriers (2) are completed, the ring sleeve (3) is pushed to slide downwards along the inner platform (41) to enable the corner block (44) to be embedded into the ring clamping groove (45) for locking, the convex line (461) on the surface of the corner block (44) is synchronously embedded into the concave line (462) in the ring clamping groove (45), and at the moment, the ring sleeve (3) is locked by the corner block (44) in a double mode of axial sliding and radial rotation, so that the adjusted angle of the installation die carriers (2) is further kept, the phenomenon that the ring sleeve (3) and the installation die carriers (2) deviate in the assembling process to influence the accuracy is avoided, and the structure of the assembled steel bar is more stable;

s4, aiming at corners formed by different three-dimensional surfaces of a building in construction, a constructor can utilize an unlocking pipe (48) to slide downwards to push an angle block (44) to unlock a ring sleeve (3) and pull up the ring sleeve (3), the upward moving ring sleeve (3) pushes an inner pin (58) on the upper side of an inner platform (41), the inner pin (58) pushes a spring sheet (54) to rotate upwards, a caliper (55) is separated from an inner shaft (52), so that locking of half frames (1A) along the inner shaft (52) is unlocked, half frames (1A) on two sides can axially deflect along the inner shaft (52), angle adjustment of different dimensions is realized by mutual deflection matching of the ring sleeve (3) and a mounting die set (2) through the half frames (1A), and the mutual combination adjustment directions and ranges are more diversified.