CN220104073U - High-efficient straightness detecting instrument that hangs down - Google Patents

Abstract

The utility model relates to a high-efficiency verticality detection instrument which comprises a detection frame, a fixed rod, a detection box, a mounting seat and a balance rod, wherein the fixed rod is arranged on the detection frame; the detection frame is in a parallelogram structure, the fixed rod is vertically fixed on the horizontal reference rod, the detection box is fixed on the fixed rod, the installation seat is fixed in the detection box, the middle part of the balance rod is hinged on the installation seat, the laser transmitters are symmetrically arranged on the two sides of the balance rod, the balance rod and the laser transmitters at the two ends of the balance rod form a balance assembly, the laser transmitters always emit light vertically downwards, the bottom of the detection box is provided with a positioning hole, and the bottom of the detection box is provided with an electronic meter for measuring the distance between the electronic meter and the lower horizontal reference rod; various parameters can be obtained rapidly through the meter counter, and the inclination angle can be obtained through calculation; the verticality of the acceptance template is checked, the deviation is seen once, the multipoint step measurement is not needed twice, the operation is convenient, the enthusiasm of workers during measurement is improved, the carrying is convenient, and convenience is provided for people.

Description

High-efficient straightness detecting instrument that hangs down

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a high-efficiency verticality detection instrument.

Background

The method comprises the steps of detecting the perpendicularity of an engineering template, generally adopting hanging wire to hang down on site, measuring the defects of low speed, large measuring error, potential safety hazards and the like, wherein the perpendicularity of a frame column and a shear wall template is usually detected by adopting a hanging wire falling method, two to three persons are required to cooperate, one person stands on a supporting scaffold to fix one end of a wire of the wire falling on the upper parts of the frame column and the shear wall to be detected, the other person assists the wire falling to be static and not swing any more, and then the two persons measure the distances from the upper part and the lower part of the template to the wire falling by using a box ruler, and the two persons subtract the two numbers to obtain the deviation value of the perpendicularity of the template.

In the prior art, as the utility model patent with the patent number of 201510945449X, a seed template verticality detection ruler is disclosed, and comprises a ruler body and folding joints arranged on the side surfaces of the end heads of the two ends of the ruler body; wherein the ruler body is of a folding structure; an expansion joint is arranged in the body; the folding joint is vertical to the side face of the ruler body. The utility model can solve the problems of complicated inspection steps, long time consumption and the like of the traditional line drop method; however, the construction of the device depends on external equipment, such as a laser plumb aligner, has certain limitations in use, cannot be used under the condition of limited space for some construction sites, is inconvenient to operate and has certain deviation, and on the basis of the limitations, the research of the high-efficiency verticality detection instrument is necessary.

Disclosure of Invention

In view of the above, the utility model aims to provide a high-efficiency verticality detection instrument, which effectively solves the problems of limited use and inconvenient operation of the conventional verticality detection for templates.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows; an efficient verticality detection instrument comprises a detection frame, a fixed rod, a detection box, a mounting seat and a balance rod; the detection frame is in a parallelogram structure, the opposite rods are positioned on the same side, and the four rods are hinged through a pin shaft and form a parallelogram mechanism capable of swinging freely; the detection device comprises a detection box, a fixing rod, a fixing seat, a balance component, a laser emitter, a positioning hole, an electronic meter and a measuring device, wherein the left and right opposite rods are used as the detection rod, the upper and lower opposite rods are horizontal reference rods, the fixing rod is vertically fixed on the horizontal reference rod, the detection box is fixed on the fixing rod, the fixing seat is fixed inside the fixing rod, the middle of the balance rod is hinged on the fixing seat, the laser emitters are symmetrically arranged on two sides of the balance rod, the laser emitters at the two ends of the balance rod form a balance component, the laser emitters always vertically and downwards emit light, the positioning hole is formed in the bottom of the detection box, and when the horizontal reference rod is in a horizontal state, the light is emitted from the positioning hole, and the electronic meter is arranged at the bottom of the detection box and used for measuring the distance between the electronic meter and the lower horizontal reference rod.

Further, a backup plate is arranged on the outer side of the detection rod, and a handle is arranged on the opposite rod piece.

Further, the electronic meter counter is fixed in the middle of the detection box and corresponds to the hinge point of the balance rod.

Further, elastic buckles are arranged on two sides of the bottom of the detection box and can be clamped on the horizontal reference rod at the lower part.

Further, a clamping area is arranged on the horizontal reference rod at the lower part, and in the folded state, the elastic buckle can be correspondingly clamped and fixed on the clamping area and locks the folded state, and the clamping area is of a cylindrical structure.

The beneficial effects of the technical scheme are as follows: the utility model uses parallelogram mechanism, one side of which is the detecting rod, the corresponding side is the hand-hold part, the upper and lower sides are the horizontal reference rods, because of the restriction of parallelogram, the two sides are parallel, when the upper horizontal reference rod is in the horizontal state, the lower horizontal reference rod is also in the horizontal state, meanwhile, the utility model uses balance as the basic reference, because of its own characteristic, it is in the horizontal state all the time, when it is in the horizontal state, the light emitted by the laser emitter on both sides can pass through the locating hole, and in this state, the horizontal reference rod is in the horizontal state, then the distance from the electronic meter to the lower horizontal reference rod is measured, the length of the detecting rod is fixed, the installation position of the electronic meter is fixed, therefore, the length of two sides can be determined, and the electronic meter is in right triangle, thus the measured dip angle is determined.

Meanwhile, the elastic buckle is arranged at the bottom of the detection box, and the device can be clamped and locked with the lower horizontal reference rod in a folded state, so that the device has a stable state, is convenient to store and transport, and can protect the structures of the electronic meter counter and the detection box.

Therefore, the utility model has novel structure, light use, quick positioning of the balance structure, simple structure operation and quick measurement, can quickly obtain various parameters by the meter counter only by propping the measuring edge against the part to be measured, and can obtain the inclination angle by calculation; the verticality of the acceptance template is checked, the deviation is seen once, the deviation is not required to be measured and calculated twice, the multipoint step measurement can be realized, the operation is convenient, the enthusiasm of workers during measurement is improved, the carrying is convenient, and convenience is provided for people.

Drawings

FIG. 1 is a schematic diagram of a structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic structural view of the cartridge;

FIG. 4 is a front view of FIG. 3;

fig. 5 is a schematic view of the bottom structure of fig. 3.

Reference numerals: 1 is a detection rod, 2 is a handle, 3 is an upper horizontal reference rod, 4 is a lower horizontal reference rod, 5 is a fixed rod, 6 is a detection box, 7 is a balance rod, 8 is a laser emitter, 9 is a positioning hole, 10 is an electronic meter counter, 11 is a backup plate, and 12 is an elastic buckle.

Detailed Description

The utility model is described in further detail below with reference to the attached drawings and detailed description:

embodiment 1 aims at providing a high-efficiency verticality detection instrument which is mainly used for rapidly detecting the verticality of a template, and aims at solving the problems that the operation is troublesome, the use is limited and the operation is inconvenient because a plumb bob or external auxiliary equipment is generally adopted to determine a vertical surface at present.

As shown in fig. 1-5, a high-efficiency verticality detection instrument comprises a detection frame, a fixed rod 5, a detection box 6, a mounting seat and a balance rod 7; in this embodiment, the detection frame is an external structure, is used as an installation support main body, has certain adjustment performance, structurally, is in a parallelogram structure, opposite rods of the detection frame are positioned on the same side, four rods are hinged and connected through a pin shaft, and a parallelogram mechanism capable of swinging freely is formed.

Structurally, the left and right two opposite rods of the parallelogram mechanism are taken as a detection rod 1, the upper and lower two opposite rods are horizontal reference rods, as shown in fig. 1, the detection rod 1 is positioned at the outer side, the horizontal reference rod is positioned at the inner side, and four rods are hinged to form a parallelogram; the dead lever 5 is fixed on upper portion level benchmark pole 3 perpendicularly, detect box 6 is fixed on dead lever 5 to be fixed with the mount pad in its inside, the middle part of level pole 7 articulates on the mount pad, and has arranged laser emitter 8 in its both sides symmetry, for convenient operation, this embodiment is provided with backup plate 11 in the outside of detecting pole 1, is provided with handle 2 on its relative member, utilizes backup plate 11 can replace detecting pole 1 to measure the template on a large scale, the data representativeness of measuring is strong, the measurement is accurate.

In the embodiment, a balance assembly is formed by a balance rod and laser transmitters 8 at two ends of the balance rod, the laser transmitters 8 always emit light vertically downwards, a positioning hole 9 is formed in the bottom of the detection box, when the upper horizontal reference rod 3 and the lower horizontal reference rod 4 are in a horizontal state, the light is emitted from the positioning hole 9 to warn or signal a user or a specific module, and meanwhile, an electronic meter 10 is arranged at the bottom of the detection box 5 and used for measuring the distance between the electronic meter and the lower horizontal reference rod 4; the electronic meter 10 is fixed in the middle of the detection box 5 and corresponds to the hinge point of the balance lever 7.

In the embodiment, a parallelogram mechanism is utilized, one side edge of the parallelogram mechanism is taken as a detection rod 1, the side corresponding to the detection rod 1 is a handheld part, in addition, the upper side and the lower side are horizontal reference rods, the two sides of the parallelogram mechanism are parallel to each other due to the limitation of the parallelogram, and when the upper horizontal reference rod is in a horizontal state, the lower horizontal reference rod is also in a horizontal state; when in measurement, the balance is used as a basic reference, the balance is always in a horizontal state due to the characteristics of the balance, when the balance is in the horizontal state, the light rays emitted by the laser transmitters at the two sides of the balance can pass through the positioning holes, in the state, the horizontal reference rod is in the horizontal state, then the distance from the balance to the lower horizontal reference rod is measured through the electronic meter, the length of the detection rod is fixed, and the installation position of the electronic meter is fixed, so that the lengths of the two sides can be determined, and the balance is a right triangle, and the measured inclination angle is determined; the embodiment is light in use, the balance structure can be positioned quickly, the structure is simple to operate and quick in measurement, the measurement edge only needs to be abutted against the part to be measured, various parameters can be obtained quickly through the meter counter, and the inclination angle can be obtained through calculation; the verticality of the acceptance template is checked, the deviation is seen once, the deviation is not required to be measured and calculated twice, the multipoint step measurement can be realized, the operation is convenient, the enthusiasm of workers during measurement is improved, the carrying is convenient, and convenience is provided for people.

In specific use, the detection rod 1 and the backup plate are propped against the measuring area, then the handle 2 is held by hand to adjust the parallelogram position, when laser is emitted from the positioning hole, the horizontal reference rod is in a horizontal state, the corresponding lower horizontal reference rod is also in a horizontal state, and as shown in fig. 1, the electronic meter is started to measure the distance d2 from the lower horizontal reference rod, the distance d1 of the electronic meter to the upper horizontal reference rod is the distance d1, the fixed length of the measuring rod is d, and the template dip angle a=arcsind/(d1+d2) can be obtained easily.

Example 2, which is substantially the same as example 1, differs in that the structure of the cartridge is further described.

In the embodiment, elastic buckles 12 are arranged on two sides of the bottom of the detection box 6, and the elastic buckles 12 can be clamped on a horizontal reference rod at the lower part; the clamping area is arranged on the lower horizontal reference rod, and in the folded state, the elastic buckle 12 can be correspondingly clamped and fixed on the clamping area and locks the folded state, and the clamping area is of a cylindrical structure.

The bottom at the detection box has arranged elasticity buckle, and the device can carry out the card with lower part level benchmark pole under folding condition and solid the lock to have stable state, be convenient for accomodate and transport, can protect electron meter ware and detection box structure simultaneously.

Claims (5)

1. The high-efficiency verticality detection instrument is characterized by comprising a detection frame, a fixed rod, a detection box, a mounting seat and a balance rod; the detection frame is in a parallelogram structure, the opposite rods are positioned on the same side, and the four rods are hinged through a pin shaft and form a parallelogram mechanism capable of swinging freely; the detection device comprises a detection box, a fixing rod, a fixing seat, a balance component, a laser emitter, a positioning hole, an electronic meter and a measuring device, wherein the left and right opposite rods are used as the detection rod, the upper and lower opposite rods are horizontal reference rods, the fixing rod is vertically fixed on the horizontal reference rod, the detection box is fixed on the fixing rod, the fixing seat is fixed inside the fixing rod, the middle of the balance rod is hinged on the fixing seat, the laser emitters are symmetrically arranged on two sides of the balance rod, the laser emitters at the two ends of the balance rod form a balance component, the laser emitters always vertically and downwards emit light, the positioning hole is formed in the bottom of the detection box, and when the horizontal reference rod is in a horizontal state, the light is emitted from the positioning hole, and the electronic meter is arranged at the bottom of the detection box and used for measuring the distance between the electronic meter and the lower horizontal reference rod.

2. The high efficiency perpendicularity detection instrument of claim 1, wherein: the outside of the detection rod is provided with a backup plate, and the opposite rod pieces are provided with handles.

3. The high efficiency perpendicularity detection instrument of claim 1, wherein: the electronic meter counter is fixed in the middle of the detection box and corresponds to the hinge point of the balance lever.

4. The high efficiency perpendicularity detection instrument of claim 1, wherein: the bottom both sides at the detection box are provided with elastic buckle, elastic buckle can the cartridge on the horizontal reference pole of lower part.

5. The high efficiency perpendicularity test instrument of claim 4, wherein: the clamping area is arranged on the horizontal reference rod at the lower part, and in the folded state, the elastic buckle can be correspondingly clamped and fixed on the clamping area and locks the folded state, and the clamping area is of a cylindrical structure.