KR20130000076A - Manual testing apparatus for testing strength of concrete - Google Patents

Abstract

PURPOSE: A concrete strength tester is provided to inspect simply and economically whether or not deposited concrete secures predetermined strength in a field of construction work and to enable to reduce a size and the weight of the concrete strength tester. CONSTITUTION: A concrete strength tester comprises a nut type hollow body(110), a hollow bolt body, a rotary bearing(150), and a rotary unit. The hollow body is in contact with a wall surface. The hollow bolt body is joined to the nut type hollow body with a screw and comprises a head unit and a through-hole. A drawing bolt of preset drawing strength is joined to a connecter put into target concrete with the screw via the through-hole of the hollow bolt body. The rotary bearing is arranged in the upper part of the head unit of the hollow bolt body. The rotary unit manually rotates the head unit of the hollow bolt body so that the head unit draws the drawing bolt while pressing the drawing bolt to outer side through the medium of the rotary bearing.

Description

Concrete Strength Tester {MANUAL TESTING APPARATUS FOR TESTING STRENGTH OF CONCRETE}

The present invention relates to a concrete strength tester, and more particularly, to a concrete strength tester capable of manually confirming whether or not concrete that has been constructed at the construction site of a concrete structure conforms to the design strength.

Today, with the development of architectural civil technology, large structures such as buildings, bridges and road structures are being constructed based on precise structure and load design.

Steel structures or concrete structures are mainly used for the construction of such large structures, and in particular, in the case of concrete, the safety of the structure is secured by placing the concrete to have a certain strength according to the design load.

In order to check the strength of the pour concrete, the most accurate method is to take the necessary samples at the construction site and to check the exact strength and physical properties using a strength tester in the laboratory.

However, since the concrete to be poured in the process of constructing large-scale structures can be difficult to sample and inspect in the laboratory, it is required to be able to simply and non-destructively inspect the strength of the placed concrete at the construction site.

As a method of nondestructively confirming the strength of concrete structures, a rebound hardness method (schmidt hammer method), an ultrasonic method, a drawing method, and the like are used, and the present invention targets a standardized drawing method in Gumi.

The drawing method is a method of fixing the drawing bolts to the formwork before placing the concrete, and after the concrete has hardened, drawing tests on the drawing bolts using a drawing device.

When the draw strength reaches the specified load, the concrete is drawn out in a cone shape together with the draw bolt, and the load at this time is called the pull load. The measured pull load can be used as a fairly accurate indicator to determine the strength state of the concrete structure.

However, when the drawing method is applied to a concrete structure, an apparatus for measuring an expensive drawing load is required, and it is difficult to use it easily in the field.

On the other hand, it is important to know the exact strength of the concrete at the construction site, but it is often much more necessary to only determine whether or not the cast concrete has a predetermined reference strength.

If it is determined that the pour concrete has secured the predetermined strength by the drawing test for the strength over the calculated design strength, the pour concrete can be determined to satisfy the design strength. This is because the next construction process can proceed.

On the other hand, in the case of a tester for testing the strength of the pour concrete in the construction site through the drawing method, it requires the presence of an actuator such as a hydraulic actuating to obtain a draw load of a considerable load during the drawing of the drawing bolt.

However, such a hydraulic actuator is expensive, and as the size and weight of the tester increases when it is mounted on the drawing tester, portability is reduced and the test process is complicated.

Therefore, there is a need for a concrete strength tester that can be manually and economically inspected by a worker on site whether or not concrete is secured at a construction site of a concrete structure.

The present invention has been made to solve the above-mentioned problems of the prior art, the concrete strength that can be easily and economically inspected manually by the worker in the field whether or not the pour concrete has a certain strength at the construction site of the concrete structure It is an object to provide a testing machine.

In order to achieve the above object, according to one embodiment, the present invention provides a concrete strength tester, the concrete strength tester is screwed to the nut-shaped hollow body and the nut-shaped hollow body in contact with the wall surface of the pour concrete A hollow bolt body having a head portion and a through hole, wherein through the through hole of the hollow bolt body, a drawn bolt having a predetermined pull strength is screwed into a connector embedded in the concrete under test. And a rotary bearing provided above the head portion of the hollow bolt body and a head portion of the hollow bolt body by manually rotating the head portion of the bolt body while pressing the drawing bolt outward through the rotary bearing. And a rotating unit for drawing the bolt.

According to one embodiment, the nut-shaped hollow body is a multi-stage hollow cylindrical body consisting of a contact portion in contact with the wall surface of the concrete and an extension portion having a smaller width than the contact portion, a female screw portion may be formed in the hole of the extension portion.

According to one embodiment, the hollow bolt body may include a male screw portion screwed to the female screw portion of the extension of the nut-shaped hollow body.

According to one embodiment, the hollow bolt body may be a commercial hexagonal screw.

According to one embodiment, a bearing seat on which the rotary bearing is seated may be formed on the head portion of the hollow bolt body.

According to one embodiment, the rotary bearing may be a rotary washer.

According to an embodiment, the drawing bolt may have a head portion pressed by the head portion of the bolt body and an intermediate draw portion drawn by pressing the head portion.

According to one embodiment, the intermediate drawing portion of the drawing bolt may be a smaller diameter than the body portion of the drawing bolt.

The rotating unit may be a tool including a spanner or wrench.

According to the above configuration, the concrete strength tester according to the present invention can be easily and economically inspected by the worker in the field whether or not the pour concrete secures a predetermined strength at the construction site of the concrete structure.

Specifically, the concrete strength tester according to the present invention can reduce the size and weight of the concrete strength tester can be drawn directly by the operator of the field manually without having an actuator such as a hydraulic for the drawing bolt drawing process This is easy.

In addition, the concrete strength tester according to the present invention, due to the configuration of the rotary bearing, by using the rotation unit for the drawing of the drawing bolt to measure the accurate drawing load by preventing the torsion load on the drawing bolt during rotation of the hollow bolt Can be.

1 is a top perspective view of a concrete strength tester according to an embodiment of the present invention.
Figure 2 is a bottom side perspective view of a concrete strength tester according to an embodiment of the present invention.
3 is a partial cutaway perspective view of the concrete strength tester according to an embodiment of the present invention.
Figure 4 is an exploded perspective view showing a state in which the drawn bolt fastened to the pour concrete and the drawn bolt is mounted to the concrete strength tester of FIG.
5 is a perspective view showing a process of performing a test on the poured concrete of the test object using the concrete strength tester of FIG.
6 is a cross-sectional view showing a process of performing a test on the poured concrete of the test object using the concrete strength tester of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a top perspective view of a concrete strength tester according to an embodiment of the present invention, Figure 2 is a bottom perspective view of a concrete strength tester according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Partly cut perspective view of a concrete strength tester according to an example.

Referring to these drawings, the concrete strength tester 100 according to an embodiment of the present invention is largely a nut-shaped hollow body 110, a hollow bolt body 130, a rotating bearing 150, a rotating unit ( T: see FIG. 5).

The nut-shaped hollow body may be formed of a multi-stage hollow cylindrical body in contact with the wall surface of the pour concrete (C), a contact portion (110b) having a contact surface (110c) in contact with the wall surface of the concrete, and of a smaller width than the contact portion (110b) An extension part 110a may be formed, and a female thread part 113b may be formed in the hole 133a of the extension part 110a.

The hollow bolt body 130 is a hollow bolt body having a through hole 133a, and may be made of a commercial hexagonal bolt. The hollow bolt body 130 is a male thread portion 133 which is screwed to the head portion 131 and the female thread portion 113b of the hole 133a of the extension portion 110a of the nut-shaped hollow body 110. It includes.

Through the through-hole 133a of the hollow bolt body 130, as described later with reference to FIG. 4, the drawing bolt 200 having a predetermined drawing strength is embedded in the concrete (C) of the test object (Nem) Screw), and in this state, the drawing of the drawing bolt 200 is performed using the rotating unit T as described later with reference to FIG. 5.

As the rotary bearing 150 draws on the drawing bolt 200 using the rotating unit T as described later in FIG. 5, the rotational force of the hollow bolt body 130 remains in the drawing bolt 200. As a structure for preventing a torsional load from being transmitted, a commonly used rotary washer can be used.

Bearing seats may be formed in the upper portion of the head portion 131 of the hollow bolt body 130 to seat the rotary bearing 150 is concave.

The rotary bearing 150 may form a lower protrusion as shown, so that it can be seated in the hole 133a of the head portion 131 of the hollow bolt body 130, even if a simple configuration of the bearing seat It is irrelevant as it can be settled on.

Hereinafter, a process of performing a test on concrete (C) using the concrete strength tester 100 and the drawing bolt 200 according to the present invention shown in FIGS. 1 to 3 and a configuration therefor will be described with reference to FIGS. 4 to 6. Will be explained.

FIG. 4 is an exploded perspective view illustrating a drawing bolt fastened to pour concrete and a state in which the drawing bolt is mounted to the concrete strength tester of FIG. 1, and FIG. 5 is used to pour concrete to be tested using the concrete strength tester of FIG. 1. It is a perspective view showing the process of performing the test for, Figure 6 is a cross-sectional view showing the process of testing the pour concrete of the test object using the concrete strength tester of FIG.

The concrete strength tester 100 according to the present invention is designed to have a predetermined tensile strength or pull strength at a value corresponding to the design strength of the pour concrete to target the drawn bolt 200 fixed to the target concrete (C) As a result of the test, the drawing test results of the drawing bolts, it can be determined that the concrete strength meets the design strength when the drawing is made, and if the drawing test results in the drawing bolts are not drawn and the concrete falls out, It can be judged that the cast concrete does not meet the design strength.

The drawing bolt 200 is the head portion 210 is pressed outward by the head portion 131 of the bolt body 130, the shank portion 220 extending from the head portion 210 and the test object The screw portion 240 is fastened and fixed to the concrete (C) of the intermediate portion 230a provided between the shank portion 220 and the screw portion 240 is drawn by the pressure of the head portion 210 )

In order to fasten the drawing bolt 200 to the concrete (C) to be tested, the washer-type extension nut having a washer-type head (Nh) and a female thread portion (Ns) formed in the through hole (Na) in the concrete (C). The connector (Nem) as shown in FIG. 3 is embedded, and the drawing bolt is screwed into the concrete by screwing the threaded portion (240) of the drawing bolt (200) to the female thread portion (Ns) of the through hole (Na) of the connector (Nem). Can be fixed

The intermediate drawing portion 230a of the drawing bolt 200 may have a smaller diameter than the body portion of the drawing bolt, that is, the shank portion 220 and the screw portion 240.

When the connector Nem in the state of being embedded in the concrete C is not drawn out, the threaded portion Bs of the washer-type bolt Bc is connected to the female threaded portion Ns of the hole Na of the connector Nem. By fastening to prevent foreign matter from entering, so that the drawn bolt can be stably fastened to the connector (Nem) in the concrete (C) later.

As described above, the drawing bolt 200 is made in advance to the strength corresponding to the design strength of the pour concrete (C), the diameter of the constituent material and the intermediate drawing portion (230a) established through the test for adjustment of the strength According to the concrete test strength, the drawing bolts of various strengths are prepared in advance and used.

The drawing process on the drawing bolt 200 using the concrete strength tester 100 according to the present invention is as follows.

First, the nut-shaped hollow body 110 is disposed at the position of the connector Nem of the concrete C to be tested, and the female-shaped portion 113b of the hole 133a of the extension 110a of the nut-like hollow body is placed. The screw portion 133b of the hollow bolt body 130 is screwed into place.

Thereafter, the drawn bolt 200 having a predetermined tensile strength is inserted through the through-hole 133a of the hollow bolt body 130 and then screwed and fixed to the connector Nem in the concrete C.

Then, when the operator at the construction site manually rotates the head portion 131 of the hollow bolt body 130 in the direction of the arrow using the rotary unit T, which may be a tool such as a wrench, a wrench, the hollow bolt As the sieve 130 rotates upward, the head portion 210 of the drawing bolt 200 is upwardly pressed, and the pressing force is transmitted to the concrete C as it is.

At this time, the torsional load caused by the rotational force of the head of the hollow bolt body is canceled by the rotary bearing 150 disposed above the hollow bolt body 130, and the upward pressing force is applied to the head portion 210 of the drawn bolt 200. Only it is applied, and it is possible to prevent the concrete strength from being incorrectly calculated by the torsional load.

As a result, by checking the state in which the drawing bolt 200 is drawn by the rotation of the rotary unit (T), it is easy to determine whether or not the concrete strength meets a predetermined standard.

100: concrete strength tester 110: nut-shaped body
110a: extension part 110b: contact part
110c: contact surface 130: hollow bolt body
131: bolt body head 133: bolt body screw
133a: bolt body through hole 150: rotary bearing
200: drawing bolt 210: drawing bolt head portion

Claims (9)

As concrete strength tester:
A nut-shaped hollow body in contact with the wall surface of the poured concrete;
A hollow bolt body screwed to the nut-shaped hollow body and having a head portion and a through hole, wherein a connecting bolt having a predetermined pull strength is embedded in the concrete under test through a through hole of the hollow bolt body. Such a hollow bolt body screwed in;
A rotary bearing provided on an upper portion of the head of the hollow bolt body;
And a rotating unit which draws the drawing bolt while manually rotating the head of the hollow bolt body and presses the drawing bolt to the outside through the rotating bearing. 2. The concrete strength tester according to claim 1, wherein the nut-shaped hollow body is a multi-stage hollow cylindrical body comprising a contact portion in contact with a wall of the concrete and an extension portion having a smaller width than the contact portion, and the hole of the extension portion is formed with a female screw portion. . The concrete strength tester according to claim 2, wherein the hollow bolt body includes a male screw portion screwed to a female screw portion of an extension of the nut-shaped hollow body. The concrete strength tester according to claim 1 or 3, wherein the hollow bolt body is a commercial hexagonal screw. The concrete strength tester according to claim 1, wherein a bearing sheet on which the rotary bearing is seated is formed on an upper portion of the head of the hollow bolt body. The concrete strength tester of claim 1, wherein the rotating bearing is a rotary washer. The concrete strength tester according to claim 1, wherein the drawing bolt has a head part pressed by the head part of the bolt body and an intermediate drawing part drawn by pressing the head part. The concrete strength tester according to claim 7, wherein the intermediate drawing portion of the drawing bolt is smaller in diameter than the body portion of the drawing bolt. The concrete strength tester of claim 1, wherein the rotating unit is a tool including a spanner or a wrench.

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