CN215864964U - Hole aligning detection integration tool for position of assembled construction steel bar - Google Patents

Abstract

The utility model belongs to the technical field of construction tools, and particularly relates to an assembly type construction steel bar position aligning hole detection integrated tool which comprises a Y-direction adjusting device and a plurality of X-direction adjusting devices, wherein the Y-direction adjusting device comprises a left side adjusting rod and a right side adjusting rod, a first through groove is communicated between the top surfaces and the bottom surfaces of the left side adjusting rod and the right side adjusting rod, the plurality of X-direction adjusting devices are arranged above the left side adjusting rod and the right side adjusting rod, the X-direction adjusting devices comprise a front side guide rail and a rear side guide rail, a left side connecting block and a right side connecting block are respectively arranged on the left side and the right side of the front side guide rail and the rear side guide rail, the aligning device is slidably arranged between the front side guide rail and the rear side guide rail, and a second through groove is formed downwards in the top of the front side guide rail And waste of material resources.

Description

Hole aligning detection integration tool for position of assembled construction steel bar

Technical Field

The utility model belongs to the technical field of construction tools, and particularly relates to an assembly type construction steel bar position hole alignment detection integrated tool.

Background

The prefabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and the accessories on the site in a reliable connection mode.

SUMMERY OF THE UTILITY MODEL

Assembled building is when the equipment, the convex reinforcing bar in prefabricated part top that is located the below need be aimed at with the counterpoint hole that is located the prefabricated part bottom of its top and inserts, because can take place the reinforcing bar and lead to the unable male condition of aligning with counterpoint hole position difference, current construction methods is the direct jack of counterpointing of hoist and mount to below prefabricated part top with the top prefabricated part, if the condition of the jack of can't counterpointing takes place because of reinforcing bar and counterpoint hole misalignment, then need hang the reinforcing bar position on the prefabricated part of change below after the top prefabricated part, consequently, change reinforcing bar position and hoist and mount many times probably appear in the work progress, bring time and manpower, the waste of material resources. The utility model provides an assembly type construction steel bar position aligning detection integrated tool which can be used for quickly detecting the aligning relation between an aligning hole at the bottom of an upper assembly prefabricated member and a steel bar at the top of a lower assembly prefabricated member and avoiding the situations of time waste, manpower waste and material resource waste caused by the fact that the steel bar is misaligned with the aligning hole in direct hoisting and the steel bar needs to be changed for multiple times and the steel bar is hoisted for multiple times.

The utility model provides the following technical scheme: an assembly type construction steel bar position hole detection integrated tool comprises a Y-direction adjusting device and a plurality of X-direction adjusting devices, wherein the Y-direction adjusting device comprises a left side adjusting rod and a right side adjusting rod, a first through groove is arranged between the top surface and the bottom surface of the left side adjusting rod and the right side adjusting rod in a through mode, a carrying handle is fixedly mounted on the left side wall of the left side adjusting rod and the right side wall of the right side adjusting rod, first length scale marks are respectively carved on the top of the left side adjusting rod and the top of the right side adjusting rod, the plurality of X-direction adjusting devices are arranged above the left side adjusting rod and the right side adjusting rod, each X-direction adjusting device comprises a front side guide rail and a rear side guide rail, a left side connecting block and a right side connecting block are respectively arranged on the left side of the front side guide rail and the right side of the rear side guide rail, and screw connection plates are integrally formed on the left side of the left side connecting block and the right side of the right side connecting block, be equipped with first spiro union hole on the spiro union plate, the left side connecting block the spiro union plate with between the left side regulation pole the right side connecting block the spiro union plate with all run through the bolt between the right side regulation pole first logical groove with first spiro union hole is connected fixedly, the left side connecting block the front side guide rail the right-hand member and the left side regulation pole of back side guide rail the rear end homogeneous body shaping of right side regulation pole has the inserted block, the right side connecting block the front side guide rail the left end and the left side of back side guide rail are adjusted the pole the front end of right side regulation pole all inwards has the connection slot, second length scale mark has been carved at the top of back side guide rail, the front side guide rail with slidable mounting has the pore pair device between the back side guide rail, the top of front side guide rail is opened downwards has the second to lead to the groove.

The right side connecting block, the front side guide rail, the front and rear side walls of the rear side guide rail, the left side adjusting rod, the left and right side walls of the right side adjusting rod are all towards a third threaded hole is formed in the connecting slot in a penetrating mode.

The insertion block on the right side of the left connecting block is inserted into and connected with the connecting slots on the left sides of the front side guide rail and the rear side guide rail, and the connecting slot on the left side of the right connecting block is inserted into and connected with the insertion block on the right sides of the front side guide rail and the rear side guide rail; the inserting block and the connecting slot inserted and connected with the inserting block are fixed through the second screwing hole and the third screwing hole through bolts.

The hole aligning device comprises a sliding block, a fourth threaded hole is arranged between the top surface and the bottom surface of the sliding block in a penetrating mode, a fixing hole is further arranged between the top portion and the bottom portion of the sliding block in a penetrating mode, a detection inserting rod is inserted into an inner cavity of the fixing hole, a detection inserting hole is arranged in an inner cavity of the detection inserting rod, a detection reinforcing steel bar is connected to the top portion of the detection inserting rod in a threaded mode, and the sliding block penetrates through the fourth threaded hole and the second through groove through bolts to be fixed with the front side guide rail; the slider sets up between front side guide rail and back side guide rail, can be along front side guide rail and back side guide rail sliding adjustment position, and the bolt passes and screws up behind fourth spiro union hole and the second logical groove, utilizes the frictional force between bolt and the front side slide rail to lock between slider and the front side guide rail, detects the patchhole and is used for counterpointing the grafting with the reinforcing bar at the prefab top that is located the below, detects the reinforcing bar and is used for counterpointing the grafting with the counterpoint hole that is located the prefab bottom of top.

Wherein, the outer side of the detection reinforcing steel bar and the outer side of the detection insertion rod are integrally formed with a fixing plate; the upper fixing plate and the lower fixing plate are matched with each other and clamped and fixed between the sliding blocks when the insertion rod and the detection reinforcing steel bar are connected in a threaded mode and screwed down.

The carrying handles are four in number, and two carrying handles are arranged on the left side of the left side adjusting rod and two carrying handles are arranged on the right side of the right side adjusting rod respectively; the carrying handle is arranged to facilitate the carrying of the device by a user.

The utility model has the beneficial effects that: the device is provided with a hole aligning device through an X-direction adjusting device, the X-direction adjusting device is arranged on a Y-direction adjusting device, the position of the hole aligning device on the X-direction adjusting device and the position of the X-direction adjusting device on the Y-direction adjusting device can be freely adjusted, when the device is detected, the position of the X-direction adjusting device on the Y-direction adjusting device and the position of the hole aligning device on the X-direction adjusting device are adjusted according to the distribution positions of the alignment holes on the four sides of the bottom of the prefabricated part to be detected, the bolt connecting the fourth screw hole and the second through groove is unscrewed, the position of the hole aligning device on the X-direction adjusting device can be adjusted according to the second length scale mark, so that the left-right distance of the hole aligning device is adjusted, the bolt connecting the first screw hole and the first through groove is unscrewed, and the position of the X-direction adjusting device on the Y-direction adjusting device can be adjusted according to the first length scale mark, thereby adjusting the front-back distance of the hole aligning device, after the adjustment is finished, screwing down the bolt connecting the fourth screw hole and the second through groove and screwing down the bolt connecting the first screw hole and the first through groove, thus starting the detection, aligning each hole aligning device in the device with the aligning hole at the bottom of the upper prefabricated member waiting for hoisting when the detection is carried out, inserting and connecting the detection reinforcing steel bar on the hole aligning device with the aligning hole, after confirming that the inserting and connecting alignment of the hole aligning device and the aligning hole is correct, taking down the device from the upper prefabricated member, inserting the detection inserting hole of the hole aligning device with the reinforcing steel bar at the top of the lower prefabricated member, if all the insertion is correct, explaining that the aligning hole at the bottom of the upper prefabricated member can be aligned and inserted with the reinforcing steel bar at the top of the lower prefabricated member, at the moment, directly hoisting the upper part, if the detection inserting hole of the hole aligning device can not be aligned with all the reinforcing steel bars at the top of the lower prefabricated member, the alignment holes of the upper prefabricated part and the steel bars of the lower prefabricated part cannot be completely aligned and inserted, at the moment, the upper prefabricated part is not hoisted, the position of the steel bars on the lower prefabricated part is changed to be completely aligned with each alignment device on the device, and then hoisting is carried out, the alignment relation between the alignment holes at the bottom of the upper assembly prefabricated part and the steel bars at the top of the lower assembly prefabricated part can be quickly detected by using the device, the misalignment of the steel bars and the alignment holes caused by direct hoisting is avoided, the waste of time, labor and material resources caused by repeated change of the position of the steel bars and repeated hoisting is avoided;

when the device is applied to detection of large-size prefabricated parts, two groups of front side guide rails and two groups of rear side guide rails are respectively spliced through the insertion blocks and the connecting slots and fixedly combined into a long front side guide rail and a long rear side guide rail through screws, the left connecting block and the right connecting block are arranged at the left end and the right end of the long front side guide rail and the long rear side guide rail to form a long X-direction adjusting device, two groups of left side adjusting rods and two groups of right side adjusting rods are respectively spliced through the insertion blocks and the connecting slots and fixedly combined into a long left side adjusting rod and a long right side adjusting rod through screws to form a long Y-direction adjusting device, and the device can be suitable for the prefabricated parts with different sizes through the X-direction adjusting device and the Y-direction adjusting device with the extensible lengths, so that the applicability of the device is improved.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic view of an axial structure of the present invention;

FIG. 2 is a front cross-sectional structural view of the present invention;

FIG. 3 is a schematic diagram of the right front axial view of the X-direction adjustment device of the present invention;

FIG. 4 is a schematic diagram of the right front axial view of the X-direction adjustment device of the present invention;

FIG. 5 is a schematic view of an axial structure of the two Y-direction adjusting devices of the present invention;

FIG. 6 is a schematic top view of the two X-direction adjusting devices of the present invention;

FIG. 7 is a front sectional view of the aligning device of the present invention;

FIG. 8 is a schematic top view of the hole aligning device of the present invention;

FIG. 9 is an enlarged view of part A of the present invention.

In the figure: 1. a Y-direction adjusting device; 2. a left side adjusting rod; 3. a right side adjusting rod; 4. a first through groove; 5. carrying handles; 6. a first length scale line; 7. an X-direction adjusting device; 8. a front side rail; 9. a trailing rail; 10. a left connecting block; 11. a right connecting block; 12. a screw joint plate; 13. a first screw hole; 14. inserting a block; 15. connecting the slots; 16. a second length scale line; 17. a hole aligning device; 18. a slider; 19. a fourth screw hole; 20. a fixing hole; 21. detecting the insertion rod; 22. detecting the insertion hole; 23. detecting the reinforcing steel bars; 24. a fixing plate; 25. a second through groove; 26. a second screw hole; 27. and a third screw hole.

Detailed Description

Referring to fig. 1-9, the present invention provides the following technical solutions: an assembly type construction steel bar position hole detection integrated tool comprises a Y-direction adjusting device 1 and a plurality of X-direction adjusting devices 7, wherein the Y-direction adjusting device comprises a left side adjusting rod 2 and a right side adjusting rod 3, a first through groove 4 is formed between the top surface and the bottom surface of the left side adjusting rod 2 and the right side adjusting rod 3 in a penetrating mode, a carrying handle 5 is fixedly mounted on the left side wall of the left side adjusting rod 2 and the right side wall of the right side adjusting rod 3, first length scale marks 6 are carved on the tops of the left side adjusting rod 2 and the right side adjusting rod 3, the plurality of X-direction adjusting devices 7 are arranged above the left side adjusting rod 2 and the right side adjusting rod 3, each X-direction adjusting device 7 comprises a front side guide rail 8 and a rear side guide rail 9, and a left side connecting block 10 and a right side connecting block 11 are respectively arranged on the left side and the right side of the front side guide rail 8 and the rear side guide rail 9, the left side of the left side connecting block 10 and the right side of the right side connecting block 11 are integrally formed to have a screw joint plate 12, the screw joint plate 12 is provided with a first screw joint hole 13, the screw joint plate 12 of the left side connecting block 10 and the left side adjusting rod 2 as well as the screw joint plate 12 of the right side connecting block 11 and the right side adjusting rod 3 are fixedly connected through the first through groove 4 and the first screw joint hole 13 by bolts, the left side connecting block 10, the front side guide rail 8, the right end of the rear side guide rail 9 and the left side adjusting rod 2, the rear end of the right side adjusting rod 3 is integrally formed to have an inserting block 14, the right side connecting block 11, the front side guide rail 8, the left end of the rear side guide rail 9 and the left side adjusting rod 2, the front end of the right side adjusting rod 3 are all inwardly opened with a connecting slot 15, a second length scale mark 16 is carved on the top of the rear side guide rail 9, a hole aligning device 17 is slidably mounted between the front side guide rail 8 and the rear side guide rail 9, and a second through groove 25 is formed in the top of the front side guide rail 8 downwards.

In this embodiment:

all link up on the inserted block 14 and be equipped with second spiro union hole 26, right side connecting block 11 the front side rail 8 the lateral wall around the back side rail 9 and the left side adjust the pole 2 the right side adjust the pole 3 the left and right sides lateral wall all to it has third spiro union hole 27 to link up in the connection slot 15.

The insertion block 14 on the right side of the left side connecting block 10 is inserted into and connected with the connecting slot 15 on the left side of the front side guide rail 8 and the connecting slot 15 on the left side of the rear side guide rail 9, and the connecting slot 15 on the left side of the right side connecting block 11 is inserted into and connected with the insertion block 14 on the right side of the front side guide rail 8 and the rear side guide rail 9; the insert block 14 and the connection slot 15 inserted into the insert block are fixed by bolts passing through the second screw hole 26 and the third screw hole 27.

The hole aligning device 17 comprises a sliding block 18, a fourth threaded hole 19 is arranged between the top surface and the bottom surface of the sliding block 18 in a penetrating manner, a fixing hole 20 is further arranged between the top and the bottom of the sliding block 18 in a penetrating manner, a detection insertion rod 21 is inserted and installed in the inner cavity of the fixing hole 20, a detection insertion hole 22 is arranged in the inner cavity of the detection insertion rod 21, a detection reinforcing steel bar 23 is connected to the top of the detection insertion rod 21 in a threaded manner, and the sliding block 18 is fixed with the front side guide rail 8 through the fourth threaded hole 19 and a second through groove 25 by bolts; slider 18 sets up between front side guide rail 8 and back side guide rail 9, can slide adjusting position along front side guide rail 8 and back side guide rail 9, and the bolt passes fourth spiro union hole 19 and screws up behind the second through-groove 25, utilizes the frictional force between bolt and the front side guide rail 8 to lock between slider 18 and the front side guide rail 8, detects the patchhole 22 and is used for counterpointing the grafting with the reinforcing bar at the prefab top that is located the below, detects reinforcing bar 23 and is used for counterpointing the grafting with the counterpoint hole that is located the prefab bottom of top.

A fixing plate 24 is integrally formed on the outer side of the detection reinforcing steel bar 23 and the outer side of the detection insertion rod 21; the upper and lower fixing plates 24 are matched with each other and clamped and fixed between the sliding blocks 18 when the detection inserting rod 21 is screwed and screwed with the detection reinforcing steel bar 23.

The number of the carrying handles 5 is four, and two carrying handles are arranged on the left side of the left side adjusting rod 2 and on the right side of the right side adjusting rod 3 respectively; the carrying handle 5 is arranged to facilitate the carrying of the device by a user.

The working principle and the using process of the utility model are as follows: when the device is used, according to the length, the width and the top of the prefabricated part to be detected, the number of the steel bars at the top and the number of the alignment holes at the bottom of the prefabricated part corresponding to the steel bars, the installation number of the X-direction adjusting devices 7 and the number of the alignment holes 17 on the X-direction adjusting devices 7 positioned at the foremost side and the rearmost side are determined, the row number of the X-direction adjusting devices 7 is the same as the Y-direction steel bars and the alignment holes of the prefabricated part, the number of the alignment holes 17 installed on the X-direction adjusting devices 7 positioned at the foremost side and the rearmost side is the same as the X-direction steel bars and the alignment holes of the prefabricated part, only two left and right alignment holes 17 are installed on each X-direction adjusting device 7 positioned between the X-direction adjusting devices 7 positioned at the foremost side and the rearmost side, and the installation process is as follows: after the insertion block 14 on the right side of the front side rail 8 and the rear side rail 9 of each X-direction adjusting device 7 and the connecting slot 15 on the right side connecting block 11 are inserted and connected, the second screw holes 26 on the insertion block 14 and the third screw holes 27 on the front side rail 8 and the rear side rail 9 are connected by screws, so that the front side rail 8, the rear side rail 9 and the right side connecting block 11 are fixed, at this time, the front side rail 8 and the rear side rail 9 form a complete rail, a required number of aligning devices 17 are slidably installed between the front side rail 8 and the rear side rail 9, the fourth screw holes 19 on the sliders 18 in the aligning devices 17 and the second through grooves 25 on the front side rail 8 are screwed by bolts through the fourth screw holes 19 and the second through grooves 25, so as to lock the sliders 18 and the front side rail 8, after the installation, the insertion block 14 on the left side connecting block 10 is inserted into the connecting slot 15 at the left ends of the front side rail 8 and the rear side rail 9, and fixed by screws, after the assembly of each X-direction adjusting device 7 is completed, each X-direction adjusting device 7 is arranged on the left side adjusting rod 2 and the right side adjusting rod 3 according to the distribution mode, the mounting mode is that the screw joint plates 12 of the left side connecting block 10 and the right side connecting block 11 of the X-direction adjusting device 7 are placed on the left side adjusting rod 2 and the right side adjusting rod 3, the first screw joint hole 13 on the screw joint plate 12 is aligned with the first through groove 4 on the left side adjusting rod 2 and the right side adjusting rod 3, the first screw joint hole 13 and the first through groove 4 are connected by bolts and screwed, so that the X-direction adjusting device 7 and the Y-direction adjusting device 1 are fixed, the position of the X-direction adjusting device 7 on the Y-direction adjusting device 1 and the position of the hole aligning device 17 on the X-direction adjusting device 7 are adjusted according to the distribution position of the aligning holes on the four sides of the bottom of the prefabricated member to be detected, the position of the hole aligning device 17 on the X-direction adjusting device 7 can be adjusted according to the second length scale mark 16 by loosening the bolts connecting the fourth screw hole 19 and the second through groove 25, so as to adjust the left-right distance of the hole aligning device 17, the bolts connecting the first screw hole 13 and the first through groove 4 are loosened, the position of the X-direction adjusting device 7 on the Y-direction adjusting device 1 can be adjusted according to the first length scale mark 6, so as to adjust the front-back distance of the hole aligning device 17, after the adjustment is finished, the bolts connecting the fourth screw hole 19 and the second through groove 25 are screwed down and the bolts connecting the first screw hole 13 and the first through groove 4 are screwed down, so as to start the detection, during the detection, each device 17 in the device is aligned with the alignment of the prefabricated part at the bottom of the upper part waiting for hoisting, the detection reinforcing steel bar 23 on the hole aligning device 17 is inserted and connected with the alignment hole, and after the alignment of the hole aligning device 17 is confirmed to be aligned with the alignment hole, the device is taken down from the upper prefabricated part, the detection insertion holes 22 of the hole aligning devices 17 are inserted with the steel bars at the top of the lower prefabricated part, if the whole insertion is correct, the alignment holes at the bottom of the upper prefabricated part can be aligned and inserted with the steel bars at the top of the lower prefabricated part, at the moment, the upper prefabricated part can be directly hoisted, if the detection insertion holes 22 of the hole aligning devices 17 can not be aligned with all the steel bars at the top of the lower prefabricated part, the alignment holes of the upper prefabricated part and the steel bars of the lower prefabricated part can not be aligned and inserted, at the moment, the upper prefabricated part is not hoisted, the steel bars on the lower prefabricated part are changed to be completely aligned with each hole aligning device on the device and then hoisted, the alignment relation between the alignment holes at the bottom of the upper assembly and the steel bars at the top of the lower assembly prefabricated part can be rapidly detected by using the device, the misalignment between the steel bars and the alignment holes of the prefabricated part during direct hoisting can be avoided, when the device is applied to the detection of large-size prefabricated parts, two groups of front side guide rails 8 and two groups of rear side guide rails 9 are respectively spliced through the inserting blocks 14 and the connecting slots 15 and fixedly combined into a long front side guide rail 8 and a long rear side guide rail 9 through screws, the left connecting block 10 and the right connecting block 11 are arranged at the left end and the right end of the long front side guide rail 8 and the long rear side guide rail 9 to form a long X-direction adjusting device 7, two groups of left side adjusting rods 2 and two groups of right side adjusting rods 3 are respectively spliced through the inserting blocks 14 and the connecting slots 15 and fixedly combined into a long left side adjusting rod 2 and a long right side adjusting rod 3 through screws to form a long Y-direction adjusting device 1, and the X-direction adjusting device 7 and the Y-direction adjusting device 1 which can expand the length, the device can be suitable for prefabricated parts with different sizes, and the applicability of the device is improved.

Claims (6)

1. The utility model provides an assembly type construction reinforcing bar position detects integrated instrument to hole which characterized in that: the Y-direction adjusting device comprises a left side adjusting rod and a right side adjusting rod, a first through groove is arranged between the top surface and the bottom surface of the left side adjusting rod and the right side adjusting rod in a penetrating manner, a carrying handle is fixedly mounted on the left side wall of the left side adjusting rod and the right side wall of the right side adjusting rod, first length scale marks are respectively carved on the top of the left side adjusting rod and the top of the right side adjusting rod, a plurality of X-direction adjusting devices are arranged above the left side adjusting rod and the right side adjusting rod, each X-direction adjusting device comprises a front side guide rail and a rear side guide rail, a left side connecting block and a right side connecting block are respectively arranged on the left side of the front side guide rail and the right side of the rear side guide rail, a threaded plate is integrally formed on the left side of the left side connecting block and the right side of the right side connecting block, and a first threaded hole is formed in the threaded plate, the utility model discloses a bolt, including left side connecting block, screw joint board, front side guide rail, back side guide rail, front end and left side adjusting rod, the left side connecting block the screw joint board with all run through the bolt between the right side adjusting rod first lead to the groove with first spiro union hole is connected fixedly, the left side connecting block the front side guide rail the right-hand member and the left side adjusting rod of back side guide rail the rear end homogeneous body shaping of right side adjusting rod has the inserted block, the left end and the left side adjusting rod of right side connecting block, front side guide rail, back side guide rail the front end of right side adjusting rod all inwards opens there is connection slot, second length scale mark has been carved at the top of back side guide rail, the front side guide rail with slidable mounting has the hole to the device between the back side guide rail, the top of front side guide rail is opened downwards has the second to lead to the groove.

2. The assembly type construction steel bar position hole alignment detection integrated tool according to claim 1, wherein: all link up on the inserted block and be equipped with the second spiro union hole, the right side connecting block the front side guide rail the lateral wall around the back guide rail and the left side is adjusted the pole the right side is adjusted the lateral wall all to it has the third spiro union hole to link up in the connection slot.

3. The assembly type construction steel bar position hole alignment detection integrated tool according to claim 1, wherein: the right side of the left side connecting block is provided with an inserting block, the inserting block is inserted into the connecting slot in the front side guide rail and the left side of the rear side guide rail, and the connecting slot in the right side connecting block is inserted into the inserting block in the front side guide rail and the right side of the rear side guide rail.

4. The assembly type construction steel bar position hole alignment detection integrated tool according to claim 1, wherein: the hole aligning device comprises a sliding block, a fourth threaded hole is formed between the top surface and the bottom surface of the sliding block in a penetrating mode, a fixing hole is further formed between the top portion and the bottom portion of the sliding block in a penetrating mode, a detection insertion rod is inserted into an inner cavity of the fixing hole in an installing mode, a detection insertion hole is formed in an inner cavity of the detection insertion rod, a detection reinforcing steel bar is connected to the top portion of the detection insertion rod in a threaded mode, and the sliding block penetrates through the fourth threaded hole and the second through groove through a bolt and is fixed with the front side guide rail.

5. The assembly type construction steel bar position hole alignment detection integrated tool according to claim 4, wherein: and the outer sides of the detection reinforcing steel bars and the outer sides of the detection insertion rods are integrally formed with fixing plates.

6. The assembly type construction steel bar position hole alignment detection integrated tool according to claim 1, wherein: the number of the carrying handles is four, and two carrying handles are arranged on the left side of the left side adjusting rod and the right side of the right side adjusting rod respectively.

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