CN219914454U - Template verticality detection device - Google Patents

Abstract

The utility model discloses a template verticality detection device which comprises an adjustable telescopic rod, a straight triangular support, a spool, a hammer line, a hammer and a fixing mechanism, wherein the adjustable telescopic rod is arranged on the spool; the right-angle triangular support is arranged at one end of the adjustable telescopic rod, and one right-angle side of the right-angle triangular support is connected with the adjustable telescopic rod; the spool is arranged at the other end of the adjustable telescopic rod, and a fixing piece for fixing the spool is arranged on the spool; one end of the hammer line is wound on the spool, and the other end of the hammer line is connected with the hammer; the fixing mechanism is arranged at one end of the adjustable telescopic rod, which is connected with the straight triangular support. The utility model can conveniently detect the verticality of the shear wall and the column template.

Description

Template verticality detection device

Technical Field

The utility model belongs to the field of building construction, and particularly relates to a template verticality detection device.

Background

In the construction, it is necessary to ensure the perpendicularity of the shear wall and the column form, and in this case, the perpendicularity of the shear wall and the column form may affect the appearance quality (affect the structural safety) of the structural body. Therefore, the perpendicularity of the shear wall and the column template needs to be detected. However, because the shear wall and the column template are higher, a plurality of supporting or wall penetrating members and other measures are required to be adopted to reinforce in order to ensure the stability of the detection device, so that certain difficulty and inconvenience are caused in detecting the perpendicularity of the shear wall and the column template. Moreover, the reinforcement structure of the shear wall and the column template may affect the detection of the detection device, for example, the reinforcement structure adopts a long support, which affects the detection of the detection device.

Disclosure of Invention

The utility model mainly aims to provide a template perpendicularity detection device which is convenient for detecting perpendicularity of a shear wall and a column template.

The technical scheme adopted by the utility model is as follows:

a template verticality detection device comprises an adjustable telescopic rod, a straight triangular support, a spool, a hammer line, a hammer and a fixing mechanism;

the right-angle triangular support is arranged at one end of the adjustable telescopic rod, and one right-angle side of the right-angle triangular support is connected with the adjustable telescopic rod;

the spool is arranged at the other end of the adjustable telescopic rod, and a fixing piece for fixing the spool is arranged on the spool;

one end of the hammer wire is wound on the spool, and the other end of the hammer wire is connected with the hammer;

the fixing mechanism is arranged at one end of the adjustable telescopic rod, which is connected with the straight triangular support;

when the adjustable telescopic rod is used, the length of the adjustable telescopic rod is adjusted according to the support of the template to be tested, the other right-angle side of the right-angle triangular support is contacted with the template to be tested, the right-angle triangular support is fixed on the template to be tested by the fixing mechanism, and after the lifting hammer wire is used for placing the lifting hammer to a proper height, the spool is fixed through the fixing piece, so that the lifting hammer wire is prevented from being continuously lowered; and measuring the lengths of the upper, middle and lower positions of the lifting hammer line and the template to be measured through the ruler, so as to judge the perpendicularity of the template to be measured.

In a further scheme, the adjustable telescopic rod is hinged with one end of the diagonal brace, and the other end of the diagonal brace is connected with the straight triangular brace.

In a further scheme, a plurality of adjustable supporting holes are vertically formed in the straight triangular support, hooks are arranged at the other ends of the inclined supporting rods, and the hooks hook the adjustable supporting holes.

In a further scheme, the right-angle side of the right-angle triangular support, which is contacted with the template to be tested, is provided with an anti-slip pad.

In a further aspect, the fixing mechanism is an anchor nail.

Still further, the spool comprises a shaft, a baffle and a sleeve; the two baffles are respectively positioned at two sides of the shaft, and one baffle is fixedly connected with the adjustable telescopic rod; the sleeve is sleeved on the shaft.

Still further scheme is, be equipped with the jack on the baffle, be equipped with the fixed orifices with jack looks adaptation on the telescopic circumference, when the hammer wire descends to the height of needs, the mounting passes jack, fixed orifices, with sleeve, baffle fixed connection.

The utility model has the beneficial effects that:

the utility model can detect the perpendicularity of the wall and column templates with multiple reinforcing measures, ensure the effective control of the perpendicularity of the wall and column templates, and avoid serious safety accidents caused by improper perpendicularity control;

when the device is used, the straight triangular support is fixed on the template to be detected by the fixing mechanism, so that the detection is very convenient, the verticality detection efficiency is improved, the quality and safety accidents caused by verticality are greatly reduced, and the integral aesthetic feeling of the building is improved;

the length of the hammer line is ensured by winding the hammer line on the spool;

under the action of gravity, the hanging hammer makes the hanging hammer line vertical to the ground, so that the accuracy of detection can be ensured, whether the detected template is vertical or not can be conveniently obtained, and the detection is very convenient;

the spool is fixed through the fixing piece, so that the hammer line is paid out according to the field requirement, and the hammer line reaches a proper length;

the distance between the hammer line and the detected template is controlled through the adjustable telescopic rod, so that the influence of the reinforcing structure of the detected template on the detection device is avoided, the method is applicable to the perpendicularity detection of different reinforcing modes of the detected template, and the effect is obvious;

the stability of the detection device is ensured according to the triangle stability principle through the inclined stay bars;

the length of the telescopic rod is adjusted through the inclined stay rod and the adjustable support hole, so that the actual operability of the site is ensured;

fixing the detection device on the detected template through a fixing mechanism (anchoring nail) to enable the right-angle side of the right-angle triangular support to be in contact with the detected template, so that effective connection between the detection device and the detected template is ensured;

the friction force between the straight triangular support and the template to be tested is increased through the anti-skid pad, so that the detection device is tightly attached to the template to be tested;

the straight triangular support is tightly attached to the detected template, so that the accuracy and the safety of a detection result are ensured, and the structural stability of the detection device is ensured;

the spool and the fixing piece are applicable to perpendicularity detection of different heights, and the spool and the fixing piece are convenient to operate and accurate in detection;

the use is convenient and quick, the verticality detection efficiency is greatly improved, and the time is saved;

the manufacturing is simple, the installation and the use are convenient, the repeated use can be realized, and the cost is saved;

is not affected by site template reinforcement measures;

the method is little affected by the outside, and the verticality is accurately detected.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a template verticality detection device;

in the figure: 1. the adjustable telescopic link, 2, the three angle braces of straight, 3, the spool, 4, the hammer line, 5, the hammer, 6, fixed establishment, 7, diagonal brace, 8, adjustable supporting hole, 9, slipmat, 10, mounting.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, a device for detecting the perpendicularity of a template comprises an adjustable telescopic rod 1, a straight triangular support 2, a spool 3, a lifting hammer line 4, a lifting hammer 5 and a fixing mechanism 6.

The right triangular support 2 is arranged at one end of the adjustable telescopic rod 1, and one right-angle side of the right triangular support 2 is connected with the adjustable telescopic rod 1; in a preferred embodiment, an anti-slip pad 9 may be provided on the other right-angle side of the right-angle triangular support 2 to increase the friction between the right-angle triangular support 2 and the template to be tested. In order to make the structure more stable, a diagonal brace 7 can be arranged, one end of the diagonal brace 7 is connected with the adjustable telescopic rod 1, and the other end of the diagonal brace 7 is connected with the straight triangular brace 2. In the preferred embodiment, a plurality of adjustable supporting holes 8 can be vertically arranged on the straight triangular support 2, one end of the diagonal brace 7 is hinged with the adjustable telescopic rod 1, the other end of the diagonal brace 7 is provided with a hook, and after the adjustable telescopic rod 1 is adjusted to a proper length, the hook hooks the adjustable supporting holes 8, so that the whole structure is more stable.

The spool 3 is arranged at the other end of the adjustable telescopic rod 1, and a fixing piece 10 for fixing the spool 3 is arranged on the spool 3. The concrete structure is as follows: the spool 3 comprises a shaft, a baffle and a sleeve; the number of the baffles is two, and one baffle is provided with jacks; the two baffles are respectively positioned at two sides of the shaft, and one baffle is fixedly connected with the adjustable telescopic rod 1. The sleeve is sleeved on the shaft, a fixing hole matched with the jack is formed in the circumference of one end of the sleeve, and when the hammer wire 4 on the spool 3 descends to a required height, the fixing piece 10 penetrates through the jack and the fixing hole to fixedly connect the sleeve and the baffle. Of course, the spool 3 of the present utility model may have other structures, as long as the winding and unwinding of the hammer wire are facilitated and the length of the hammer wire to be lowered is conveniently fixed.

One end of the hammer wire 4 is wound on the spool 3, and the winding and unwinding of the hammer wire 4 can be realized through the rotation of the sleeve of the spool 3. The other end of the hanging hammer line 4 is connected with a hanging hammer 5. The fixing mechanism 6 is arranged at one end of the adjustable telescopic rod 1 connected with the straight triangular support 2. In the preferred embodiment, the fixing mechanism 6 may be an anchor pin, although other structures may be used, as long as the fixing is facilitated.

When the adjustable telescopic rod 1 is used, the length is adjusted according to the support of a template to be tested, one right-angle side of the straight three-angle support 2 is contacted with the template to be tested through the anti-slip pad 9, the straight three-angle support 2 is fixed on the template to be tested by the fixing mechanism 6, after the lifting hammer wire 4 puts the lifting hammer 5 to a proper height, the spool 3 is fixed through the fixing piece 10, and the lifting hammer wire 4 is prevented from being continuously lowered; and the vertical length of the upper, middle and lower positions of the hammer line 4 and the template to be measured is measured through a ruler, so that the verticality of the template to be measured is judged.

The implementation steps are as follows:

(1) Determining a detection position at a wall and column template where verticality is required to be detected, and tightly pasting an anti-skid pad 9 of the detection device on the surface of the template;

(2) By pressing the fixing mechanism 6 (anchor nail) to the template, the detection device is tightly attached to the template, and the fixation is firm;

(3) According to the actual reinforcement measures of the wall and the column, the length of the adjustable telescopic rod 1 is adjusted, so that the detection is not influenced by the reinforcement measures;

(4) The adjustable diagonal brace 7 is fixed at a proper adjustable supporting hole 8, and the triangle principle is adopted, so that the adjustable telescopic rod 1 is stable and is not influenced by other factors;

(5) The spool 3 is regulated to enable the hammer line 5 to be at a proper position, so that the perpendicularity of the template can be conveniently detected;

(6) Finally, the spool 3 is fixed through the fixing piece 10, so that the lowering of the hammer line 5 is prevented, and the position of the hammer line 5 is ensured;

(7) And the distance between the upper, middle and lower positions of the hammer line 5 and the template is measured through a ruler, so that the perpendicularity of the template is judged.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (7)

1. A template straightness detection device that hangs down, its characterized in that: comprises an adjustable telescopic rod, a straight three-angle support, a spool, a hammer line, a hammer and a fixing mechanism;

the right-angle triangular support is arranged at one end of the adjustable telescopic rod, and one right-angle side of the right-angle triangular support is connected with the adjustable telescopic rod;

the spool is arranged at the other end of the adjustable telescopic rod, and a fixing piece for fixing the spool is arranged on the spool;

one end of the hammer wire is wound on the spool, and the other end of the hammer wire is connected with the hammer;

the fixing mechanism is arranged at one end of the adjustable telescopic rod, which is connected with the straight triangular support.

2. The template verticality detection apparatus according to claim 1, wherein: the adjustable telescopic rod is hinged with one end of the diagonal brace, and the other end of the diagonal brace is connected with the straight triangular brace.

3. The template verticality detection apparatus according to claim 1, wherein: the straight three angle brace is vertically provided with a plurality of adjustable supporting holes, and the other end of the diagonal brace is provided with a hook which hooks the adjustable supporting holes.

4. The template verticality detection apparatus according to claim 1, wherein: and the right-angle side of the right-angle triangular support, which is contacted with the template to be tested, is provided with an anti-slip pad.

5. The template verticality detection apparatus according to claim 1, wherein: the fixing mechanism is an anchor nail.

6. The template verticality detection apparatus according to claim 1, wherein: the spool comprises a shaft, a baffle and a sleeve; the two baffles are respectively positioned at two sides of the shaft, and one baffle is fixedly connected with the adjustable telescopic rod; the sleeve is sleeved on the shaft.

7. The template verticality detection apparatus according to claim 6, wherein: the baffle is provided with a jack, the circumference of the sleeve is provided with a fixing hole matched with the jack, and when the hammer wire descends to a required height, the fixing piece penetrates through the jack and the fixing hole to fixedly connect the sleeve and the baffle.