CN112412053B

CN112412053B - Fabricated wall hoisting dowel aligner and use method thereof

Info

Publication number: CN112412053B
Application number: CN202011465803.6A
Authority: CN
Inventors: 贾汝达; 付士健; 李芳�; 刘启顺
Original assignee: Zhejiang Industry Polytechnic College
Current assignee: Zhejiang Industry Polytechnic College
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2022-03-04
Anticipated expiration: 2040-12-14
Also published as: CN112412053A

Abstract

The invention provides an assembly type wall body hoisting dowel aligner and a use method thereof. Comprises a shoe shell, an adjusting component, a mirror, a convex lens, a movable rod and a reset hinge seat. The articulated seat that resets and adjusting part all set up the front end at the shoes shell, the movable rod sets up on the articulated seat that resets, the mirror sets up and is served at one of movable rod. The convex lens is arranged on the mirror, and the adjusting assembly is in linkage connection with the mirror. The assembly type wall hoisting dowel aligner and the use method thereof are characterized in that the assembly type wall hoisting dowel aligner is matched with a resetting hinging seat through a shoe shell, an adjusting component, a mirror, a convex lens, a movable rod and the resetting hinging seat. The invention can use the reflection of the mirror to facilitate the alignment of personnel and the insertion and splicing of the assembly wall. The working efficiency of personnel is greatly improved.

Description

Fabricated wall hoisting dowel aligner and use method thereof

Technical Field

The invention relates to the technical field of assembly type building equipment, in particular to an assembly type wall hoisting dowel aligner and a using method thereof.

Background

The prefabricated concrete shear wall structure has upper and lower prefabricated wall connected through sleeve grouting or slurry anchor lapping, steel bar head in certain length exposed in the upper end of the lower wall, and upper wall with pre-embedded grouting sleeve or pre-set hole.

However, during hoisting, the hole of the upper wall body needs to be aligned with the reinforcement head in the lower wall body, so that the reinforcement head is inserted into the hole, but as the wall body descends continuously, it becomes more and more difficult for a worker to observe whether the hole of the wall body is aligned with the reinforcement head, and sometimes, the hole needs to be aligned for a long time, so that the use requirement of a user cannot be met. But also directly adjacent to the observation hole is dangerous.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an assembly type wall hoisting dowel aligner and a using method thereof.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the assembly type wall hoisting dowel aligner is arranged between an assembly body wall and a foundation, a plurality of steel bars are arranged on the foundation, and the steel bars are detachably spliced with the assembly body wall. Comprises a shoe shell, an adjusting component, a mirror, a convex lens, a movable rod and a reset hinge seat. The articulated seat that resets and adjusting part all set up the front end at the shoes shell, the movable rod sets up on the articulated seat that resets, the mirror sets up and is served at one of movable rod. The convex lens is arranged on the mirror, and the adjusting assembly is in linkage connection with the mirror. The adjusting component comprises a front support plate, a first belt, two first gears, a rotating rod, a front roller and a support rod. The front support plate is obliquely arranged at the front end of the shoe shell, the front roller is pivoted on the front support plate, and the first gear is coaxially connected with the front roller. The supporting rod is arranged on the shoe shell, and the rotating rod is pivoted on the shoe shell. The convex lens is fixed on the rotating rod, and the other first gear is coaxially connected with the rotating rod. The two first gears are in linkage connection through a belt I.

Preferably, the shoe cover further comprises a plurality of balls and a connecting cylinder, wherein the plurality of balls are symmetrically arranged on two sides of the shoe cover by taking the shoe cover as a center. The connecting cylinder is arranged at the bottom of the ball, and the connecting cylinder is in contact with the foundation.

Preferably, the shoe cover further comprises a rear roller, a rear support plate and a linkage assembly, wherein the rear roller is arranged at the rear end of the shoe cover, the rear support plate is pivoted on the rear roller, and the linkage assembly is arranged on the side face of the shoe cover. The linkage assembly is in linkage connection with the connecting cylinder and the rear roller respectively.

Preferably, the linkage assembly comprises a driven wheel, a linkage wheel, a second belt and a slideway seat. The driven wheel is coaxially connected with the rear roller, and the slideway seat is vertically arranged on the side surface of the shoe shell. The connecting cylinder is in sliding fit with the slideway seat, the linkage wheel is pivoted to the top of the slideway seat, and the belt II is arranged between the linkage wheel and the driven wheel. The connecting cylinder is connected with the linkage wheel in a linkage manner.

Preferably, the linkage assembly further comprises a sliding block, an auxiliary gear, a threaded rod, a fixed plate and a side gear. The sliding block is in sliding fit with the sliding track seat, and the fixing plate is fixed to the top of the sliding track seat. One end of the threaded rod penetrates through the fixed plate, and the other end of the threaded rod is in threaded connection with the sliding block. The auxiliary gear is arranged at the top of the threaded rod, the linkage wheel is arranged on the fixed plate, and the linkage wheel is in linkage connection with the driven wheel through a belt II. The side tooth gear is coaxially connected with the linkage wheel and meshed with the auxiliary gear.

Preferably, the linkage assembly further comprises a support rod, and the support rod is arranged on the sliding block. The two connecting cylinders are respectively arranged at two ends of the supporting rod.

A use method of an assembly type wall hoisting dowel aligner comprises the following steps:

the method comprises the following steps: firstly, a person puts the shoe shell on the foot, and then the device is inserted into the wall body of the assembly body and the vicinity of the steel bars.

Step two: then, the position of the wall body of the assembly body is adjusted by the reflection of the mirror, so that the opening at the bottom of the assembly body can be inserted into the reinforcing steel bar.

Step three: if the person finds that the reflected image is too small, it is inconvenient to observe the position of the opening.

Step four: the toes may be depressed so that the ground contacts the front roller and the front roller rotates by sliding the toes.

Step five: then, the convex lens is driven to rotate, and a certain angle is further adjusted, so that personnel can see through the convex lens to magnify and observe the image on the mirror.

Step six: when people need to drag soles to slide on the ground, the rear rollers can be contacted with the ground by upwarping the toes.

Step seven: then the rear roller is dragged to rotate, so that the connecting cylinder moves downwards, the ball is contacted with the ground, and the shoe shell is lifted.

(III) advantageous effects

The invention provides an assembly type wall hoisting dowel aligner and a using method thereof. The method has the following beneficial effects:

1. the assembly type wall hoisting dowel aligner and the use method thereof are characterized in that the assembly type wall hoisting dowel aligner is matched with a resetting hinging seat through a shoe shell, an adjusting component, a mirror, a convex lens, a movable rod and the resetting hinging seat. The invention can use the reflection of the mirror to facilitate the alignment of personnel and the insertion and splicing of the assembly wall. The working efficiency of personnel is greatly improved.

Drawings

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

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

FIG. 3 is a side cross-sectional view of the present invention;

fig. 4 is a schematic diagram of the present invention.

In the figure: the device comprises a foundation 1, a steel bar 2, an assembly body 3, a mirror 4, a shoe shell 5, a rear roller 6, a rear support plate 7, a driven wheel 8, a linkage component 9, a ball 10, a connecting cylinder 11, a sliding block 12, an auxiliary gear 13, a fixing plate 14, a side gear 15, a reset hinge seat 16, an adjusting component 17, a front support plate 18, a first belt 19, a first gear 20, a convex lens 21, a rotating rod 22, a supporting rod 23, a movable rod 24, a linkage wheel 25, a threaded rod 26, a slideway seat 27, a second belt 28 and a supporting rod 29.

Detailed Description

The embodiment of the invention provides an assembly type wall hoisting dowel aligner and a use method thereof, and the assembly type wall hoisting dowel aligner is arranged between an assembly body wall 3 and a foundation 1 as shown in figures 1-4, a plurality of steel bars 2 are arranged on the foundation 1, and the steel bars 2 are detachably spliced with the assembly body wall 3. Comprises a shoe shell 5, an adjusting component 17, a mirror 4, a convex lens 21, a movable rod 24 and a reset hinge seat 16. The reset hinge seat 16 and the adjusting component 17 are both arranged at the front end of the shoe shell 5, the movable rod 24 is arranged on the reset hinge seat 16, and the mirror 4 is arranged at one end of the movable rod 24. The convex lens 21 is arranged on the mirror 4, and the adjusting component 17 is in linkage connection with the mirror 4. The adjusting assembly 17 comprises a front support plate 18, a first belt 19, two first gears 20, a rotating rod 22, a front roller 30 and a support rod 23. The front support plate 18 is obliquely arranged at the front end of the shoe shell 5, the front roller 30 is pivoted on the front support plate 18, and the first gear 20 is coaxially connected with the front roller 30. The supporting rod 23 is arranged on the shoe shell 5, and the rotating rod 22 is pivoted on the shoe shell 5. The convex lens 21 is fixed on the rotary rod 22, and the other first gear 20 is coaxially connected with the rotary rod 22. The two first gears 20 are linked through a first belt 19.

Through the convex lens 21 that sets up, can let originally can only closely observe the reflection picture in the mirror 4 and further enlarge, and then make things convenient for personnel can be accurate, clear observation jack, make things convenient for personnel to peg graft assembly body wall body 3 with reinforcing bar 2.

And through the cooperation of the front supporting plate 18, the first belt 19, the two first gears 20, the rotating rod 22, the front roller 30 and the supporting rod 23, the hands of people are effectively liberated, the angle adjustment of the convex lens 21 can be completed only by moving the feet, the use of the people is further facilitated, and the people can conveniently observe the picture of the mirror 4 from different angles through the convex lens 21.

The shoe shell is characterized by further comprising a plurality of balls 10 and connecting cylinders 11, wherein the balls 10 are symmetrically arranged on two sides of the shoe shell 5 by taking the shoe shell 5 as a center. The connecting cylinder 11 is arranged at the bottom of the ball 10, and the connecting cylinder 11 is in contact with the foundation 1.

The shoe shell is characterized by further comprising rear rollers 6, a rear supporting plate 7 and a linkage assembly 9, wherein the rear rollers 6 are arranged at the rear end of the shoe shell 5, the rear supporting plate 7 is pivoted on the rear rollers 6, and the linkage assembly 9 is arranged on the side face of the shoe shell 5. The linkage assembly 9 is in linkage connection with the connecting cylinder 11 and the rear roller 6 respectively.

The linkage assembly 9 comprises a driven wheel 8, a linkage wheel 25, a second belt 28 and a slideway seat 27. The driven wheel 8 is coaxially connected with the rear roller 6, and the slideway seat 27 is vertically arranged on the side surface of the shoe shell 5. The connecting cylinder 11 is in sliding fit with the slideway seat 27, the linkage wheel 25 is pivoted at the top of the slideway seat 27, and the second belt 28 is arranged between the linkage wheel 25 and the driven wheel 8. The connecting cylinder 11 is connected with the linkage wheel 25 in a linkage way.

The linkage assembly 9 further comprises a slider 12, an auxiliary gear 13, a threaded rod 26, a fixed plate 14 and a side toothed gear 15. The slider 12 is slidably fitted to the slide seat 27, and the fixing plate 14 is fixed to the top of the slide seat 27. One end of the threaded rod 26 passes through the fixed plate 14, and the other end is in threaded connection with the sliding block 12. The auxiliary gear 13 is arranged at the top of the threaded rod 26, the linkage wheel 25 is arranged on the fixed plate 14, and the linkage wheel 25 is in linkage connection with the driven wheel 8 through a second belt 28. The side gear 15 is coaxially connected with the linkage wheel 25, and the side gear 15 is meshed with the auxiliary gear 13.

Through the mutual matching of the slide block 12, the auxiliary gear 13, the threaded rod 26, the fixed plate 14 and the side gear 15, a person can raise the toes, and the ball 10 can support the whole shoe shell 5, so that the person can drag the shoe shell on the ground conveniently. The use of personnel is greatly facilitated. Meanwhile, the physical strength of the personnel is also saved. The feet of the person can not be tingled due to a certain posture for a long time.

The linkage assembly 9 further comprises a support bar 29, the support bar 29 being disposed on the slide block 12. Two connecting cylinders 11 are provided at both ends of the support rod 29, respectively.

the method comprises the following steps: first the person puts the shoe shell 5 on the foot and then extends the device into the assembly body near the wall 3 and the reinforcement bars 2.

Step two: then, the position of the wall 3 of the assembly body is adjusted by the reflection of the mirror 4, so that the opening at the bottom of the wall can be inserted into the steel bar 2.

Step four: the toe may be pressed down so that the ground is in contact with the front roller 30, and by sliding the toe, the front roller 30 is rotated.

Step five: then, the convex lens 21 is driven to rotate, so as to adjust a certain angle, and a person can see through the convex lens 21 to magnify the image on the observation mirror 4.

Step six: when a person needs to drag the sole of the foot to slide on the ground, the rear roller 6 can be contacted with the ground by tilting the toe upwards.

Step seven: then the rear roller 6 is dragged to rotate, so that the connecting cylinder 11 moves downwards, and then the ball 10 is contacted with the ground and the shoe shell 5 is lifted.

In summary, the assembly type wall hoisting dowel aligner and the use method thereof are matched with each other through the shoe shell 5, the adjusting assembly 17, the mirror 4, the convex lens 21, the movable rod 24 and the reset hinge seat 16. The invention can use the reflection of the mirror to facilitate the alignment of personnel and the insertion and splicing of the assembly wall. The working efficiency of personnel is greatly improved.

Claims

1. The utility model provides an assembled wall body hoist and mount dowel aligner sets up between assembly body wall body (3) and ground (1), be provided with a plurality of reinforcing bars (2) on ground (1), reinforcing bar (2) and the detachable grafting of assembly body wall body (3), its characterized in that: comprises a shoe shell (5), an adjusting component (17), a mirror (4), a convex lens (21), a movable rod (24) and a reset hinging seat (16), the reset hinging seat (16) and the adjusting component (17) are both arranged at the front end of the shoe shell (5), the movable rod (24) is arranged on the reset hinging seat (16), the mirror (4) is arranged at one end of the movable rod (24), the convex lens (21) is arranged on the mirror (4), the adjusting component (17) is linked with the mirror (4), the adjusting component (17) comprises a front support plate (18), a first belt (19), two first gears (20), a rotating rod (22), a front roller (30) and a support rod (23), the front support plate (18) is obliquely arranged at the front end of the shoe shell (5), the front roller (30) is pivoted on the front support plate (18), the first gear (20) is coaxially connected with the front roller (30), the supporting rod (23) is arranged on the shoe shell (5), the rotating rod (22) is pivoted on the shoe shell (5), the convex lens (21) is fixed on the rotating rod (22), the other first gear (20) is coaxially connected with the rotating rod (22), and the two first gears (20) are in linkage connection through a first belt (19); the shoe cover is characterized by further comprising a plurality of balls (10) and connecting cylinders (11), wherein the balls (10) are symmetrically arranged on two sides of the shoe shell (5) by taking the shoe shell (5) as a center, the connecting cylinders (11) are arranged at the bottoms of the balls (10), and the connecting cylinders (11) are in contact with the foundation (1);

the shoe cover is characterized by further comprising a rear roller (6), a rear supporting plate (7) and a linkage assembly (9), wherein the rear roller (6) is arranged at the rear end of the shoe shell (5), the rear supporting plate (7) is pivoted on the rear roller (6), the linkage assembly (9) is arranged on the side surface of the shoe shell (5), and the linkage assembly (9) is in linkage connection with the connecting cylinder (11) and the rear roller (6) respectively; the linkage assembly (9) comprises a driven wheel (8), a linkage wheel (25), a second belt (28) and a slideway seat (27), the driven wheel (8) is coaxially connected with the rear roller (6), the slideway seat (27) is vertically arranged on the side surface of the shoe shell (5), the connecting cylinder (11) is in sliding fit on the slideway seat (27), the linkage wheel (25) is pivoted at the top of the slideway seat (27), the second belt (28) is arranged between the linkage wheel (25) and the driven wheel (8), and the connecting cylinder (11) is in linkage connection with the linkage wheel (25);

the linkage assembly (9) further comprises a sliding block (12), an auxiliary gear (13), a threaded rod (26), a fixed plate (14) and a side-toothed gear (15), the sliding block (12) is in sliding fit with the sliding channel seat (27), the fixed plate (14) is fixed to the top of the sliding channel seat (27), one end of the threaded rod (26) penetrates through the fixed plate (14), the other end of the threaded rod is in threaded connection with the sliding block (12), the auxiliary gear (13) is arranged on the top of the threaded rod (26), the linkage wheel (25) is arranged on the fixed plate (14), the linkage wheel (25) is in linkage connection with the driven wheel (8) through a second belt (28), the side-toothed gear (15) is coaxially connected with the linkage wheel (25), and the side-toothed gear (15) is meshed with the auxiliary gear (13);

the linkage assembly (9) further comprises a supporting rod (29), the supporting rod (29) is arranged on the sliding block (12), and the two connecting cylinders (11) are arranged at two ends of the supporting rod (29) respectively.

2. A method of using an assembled wall hoist tendon aligner as claimed in claim 1, wherein: it comprises the following steps:

the method comprises the following steps: firstly, a person sleeves a shoe shell (5) on a foot, and then the device is stretched into the vicinity of a wall body (3) and a reinforcing steel bar (2) of an assembly body;

step two: then, the position of the wall body (3) of the assembly body is adjusted by a person through reflection of the mirror (4), so that the opening at the bottom of the assembly body can be inserted into the reinforcing steel bar (2);

step three: if the person finds that the reflection picture is too small, the person is inconvenient to observe the position of the opening;

step four: the toes can be pressed down so that the ground is in contact with the front roller (30), and the front roller (30) is rotated by sliding the toes;

step five: then, the convex lens (21) is driven to rotate, and a certain angle is further adjusted, so that personnel can magnify and observe the image on the mirror (4) through the convex lens (21);

step six: when people need to drag soles to slide on the ground, the rear rollers (6) can be contacted with the ground by tilting the toes upwards;

step seven: then the rear roller (6) is dragged to rotate, so that the connecting cylinder (11) moves downwards, and then the ball (10) is contacted with the ground and the shoe shell (5) is lifted.