KR101303937B1 - Test Piece - Google Patents

Abstract

The present invention relates to a bonded separation test body for measuring the compressive strength of concrete, and more specifically, to install the test specimen in the same curing environment as the concrete structure being poured, the concrete sample by a non-destructive sampling method that can minimize the damage to the structure The present invention relates to a joint separation system for compressive strength measurement, which is capable of accurate and reliable compressive strength measurement by collecting and measuring compressive strength.

Description

Bond Separation Test Body for Compressive Strength Measurement {Test Piece}

The present invention relates to a bonded separation test body for measuring the compressive strength of concrete, and more specifically, to install the test specimen in the same curing environment as the concrete structure being poured, the concrete sample by a non-destructive sampling method that can minimize the damage to the structure The present invention relates to a bonded specimen for compressive strength measurement, which is capable of accurately and reliably measuring compressive strength by collecting and measuring compressive strength.

In general, the method of measuring the compressive strength, which is a physical property of concrete, is divided into a fracture test and a nondestructive test.

Here, the non-destructive test can minimize the loss of the concrete structure, despite the advantage of easy compressive strength measurement, the error range of the data is opaque, the strength correction according to the age is required, dry and wet conditions are changed Due to the low precision and low reliability of compressive strength measurement, the fracture test is frequently used to measure the compressive strength of concrete in the field.

Conventional failure test is divided into the method through the control specimens and the method of measuring the strength by core extraction of the concrete of the structure.

Here, the method through the control specimens are managed by sealing curing, atmospheric curing, standard level curing, but in reality it is managed under different conditions from the concrete structure that is being poured, so the accuracy and reliability of the compressive strength is not realistic management. There is a problem that is difficult to suggest in a way.

In particular, in the case of high-strength concrete applied to a high-rise skyscraper, structural stability and reliability of related compressive strength are very important, and thus, it is difficult to apply the method through a management specimen.

In addition, the method of measuring the strength by collecting the core may cause damage to the concrete structure such as cross-sectional loss of the structure or cutting of the internal reinforcing bars, and there are many constraints such as restrictions on the sampling position and the number of specimens, and the test method is not easy. The problem arises that the cross section must be repaired after specimen collection.

In order to solve the above problems, an object of the present invention is to install a test specimen in the same curing environment as a concrete structure being poured, and to compress the concrete sample by a non-destructive sampling method that can minimize the damage to the structure The present invention provides a bonded specimen for compressive strength measurement, which enables accurate and reliable compressive strength measurement by measuring.

In order to achieve the above object, the bonding separation test body according to the present invention is a test body mounted on a formwork outer surface, and is fixedly coupled to the formwork at the inner side of the mold opening and the test body mold mounted on the formwork opening, And an anchor connected to the crack guide plate fixedly coupled to the outer surface, the attachment plate coupled to the front surface of the test mold, and the through plate of the attachment plate, the test mold and the crack guide plate.

The test mold is formed of a transparent material, characterized in that configured to include a mold portion is filled with concrete and a plate portion protruding in the vertical direction from the mold portion, the mold portion fixed to the formwork.

And the test body mold is characterized in that the through-hole is formed for removing the air of the filled concrete.

In addition, the plate portion is formed larger than the mold portion, and further comprises a separator plate formed in the vertical rear plate of the plate portion and the separator plate is inserted into the separator plate coupling groove for physically separating the test body mold and the concrete of the formwork. Characterized in that.

And the separator is characterized in that formed larger than the cross section of the opening of the mold portion.

In addition, the separator is characterized in that the specimen identification information is engraved in relief or intaglio.

And when the separation of the bonding test specimen is characterized in that the crack is induced by the repulsive force between the opening of the test mold and the crack guide plate by tightening the anchor is characterized in that the separation.

As described above, the bonding separation test specimen according to the present invention can measure compressive strength by curing and collecting the test specimen in a curing condition equivalent to that of a concrete structure, thereby producing an excellent effect of increasing the accuracy and reliability of the measurement.

In addition, since damage to the structure, such as cracking and cross-sectional loss of concrete, can be minimized, cross-section repair is very easy after sample collection, and test specimen installation is easy, resulting in excellent workability of desorption.

1 is a perspective view schematically showing that the bonded separation test body according to a preferred embodiment of the present invention is mounted on a formwork, and FIG. 2 is an exploded perspective view and a cross-sectional view schematically illustrating the unit bonded separation test body of FIG. 1.
3 is a modified example of the test specimen mold and the crack guide plate of FIG. 1.
Figure 4 is a perspective view schematically showing a bonding separation test body according to another embodiment of the present invention.
5 schematically illustrates a bonding method and a separating method according to a preferred embodiment of the present invention.
Figure 6 shows the detachment process of the bonding separation test specimen according to a preferred embodiment of the present invention.

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

1 is a perspective view schematically showing that the bonded separation test body according to a preferred embodiment of the present invention is mounted on the formwork, and FIG. 2 is an exploded perspective view schematically illustrating the unit bonded separation test body of FIG. 1.

1 and 2, the bonded separation test specimen according to the present invention is coupled to the test specimen mold mounted to the mold opening and the inner surface of the mold and the crack guide plate for fixing the test mold to the mold outer surface and the front of the test mold It may be configured to include an anchor coupled to the attachment plate and the attachment plate, the test plate mold and the through hole of the crack guide plate coupled to.

More specifically, the test mold is designed to be cured under the same conditions as the concrete in the form because the concrete is injected through the opening of the form into a space in which the poured concrete is injected and cured.

The test mold may be configured to include a mold portion into which concrete is injected and a plate portion for fixing the mold portion to a mold outer surface.

In addition, the test object mold may be configured to include a through hole for removing the air of the injected concrete, the through hole is preferably formed in the upper surface when the test body mold is mounted on the mold outer surface.

The test mold is preferably formed of a transparent material to check the filling state of the formwork and the concrete into the mold when the concrete is injected.

The test mold may be formed of an acrylic or a plastic material of a transparent material, and is preferably manufactured to a thickness of 5 to 30 mm according to the volume of the test mold.

The plate portion of the test specimen mold is configured to fix the mold portion to the outer surface of the mold, and the plate portion is fixed to the crack guide plate fixed to the inner surface of the die.

The crack guide plate may be fixedly coupled to the plate part by a bolt and a nut in a state in which the crack induction plate is fixedly coupled to the formwork.

The crack guide plate may be divided into two when the plate part of the test mold is configured in two directions in the vertical direction or left and right as shown in FIG. 1, but may be configured as a single crack guide plate.

In addition, as shown in FIG. 3a, the plate part of the test mold may be formed in a square shape having a larger size than the mold part, in which case it may be made of a single crack guide plate as shown in FIG. 3b.

And the attachment plate is coupled to the test mold in front of the test mold in a configuration used to fix and detach the test mold.

The attachment plate may be formed larger than the mold portion of the test mold, and an anchor may be inserted through the through hole formed in the edge region, and the inserted anchor may be coupled through the through hole of the crack guide plate and the plate portion of the test mold. .

Here, the attachment plate, the specimen mold and the crack guide plate may be integrally coupled through the anchor, but the specimen mold and the crack guide plate may be fixedly coupled by separate bolts and nuts for convenience of installation work separately from the anchor. It can then be configured to couple the anchor.

On the other hand, the bonding separation test specimen according to the present invention further comprises a separation plate for separating the concrete inside the formwork in the flow state after the concrete is injected into the test specimen mold for easy separation after the concrete is injected into the test mold to cure Can be configured.

Figure 4a is a perspective view schematically showing a bonding separation test specimen according to a preferred embodiment of the present invention.

Referring to FIG. 4A, the plate portion of the test mold is formed to have a larger area than the mold portion, and a separation plate coupling groove is formed in which a separation plate is coupled in a vertical direction among the rear surfaces of the plate portion.

Therefore, when the separator is inserted through the separator coupling groove after the concrete is completely filled in the test mold, the concrete inside the form and the concrete in the test mold are hardened in a physically separated state, so that the concrete is easily cured and cured. Can be separated.

In addition, when the identification information of the test piece is engraved in the embossed or engraved on the separation plate as shown in FIG.

Hereinafter, the bonding and separation method of the bonding separation test body according to the present invention will be described.

Figure 5 schematically shows the bonding and separation process of the test body according to a preferred embodiment of the present invention.

First, when the formwork is completed, an opening is formed at a position where the test specimen is to be mounted as shown in FIG. 5A.

Subsequently, as shown in FIG. 5B, the crack induction plate is fixedly coupled to the inner surface of the mold in which the opening is formed, the test piece mold is aligned with the opening, and the plate part of the test object mold is coupled to the crack induction plate by using a bolt and a nut.

After aligning the attachment plate on the front surface of the test mold mold as shown in FIG. 5C, the anchor is inserted through the through hole formed in the attachment plate, and the anchor is inserted into the through hole formed in the plate part and the crack guide plate to be fixed.

As described above, when the bonding separation test body is mounted on the outside of the formwork, the concrete is filled in the formwork.

When the concrete is filled in the formwork, the concrete is filled into the test mold through the opening of the formwork, and since the test mold is formed of a transparent material, it is possible to directly check the state of filling of the concrete.

When the concrete is filled in the formwork as described above, the concrete filled in the test mold is cured under the same conditions, and when the concrete is cured according to curing, the test body is separated.

More specifically, when tightening the anchor anchored as shown in Figure 6, the repulsive force between the opening of the formwork and the crack guide plate acts, the repulsive force acts as a tensile force on the interface between the formwork and the test specimen mold to generate a uniform, anchor Tightening more strongly increases the repulsive force, which destroys the cracked concrete and separates the specimen mold from the formwork.

When the concrete test body is demolded from the test body mold separated as described above, a test body for compressive strength measurement is obtained.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10 test specimen mold 20 crack induction plate
30: mounting plate 40: anchor

Claims (7)

As a test body mounted on the formwork outer surface,
It is formed in the mold opening and formed of a transparent material, and includes a mold portion filled with concrete, and a plate portion projecting in a vertical direction from the mold portion and fixing the mold portion to the form, and through-holes for removing the air of the filled concrete A test mold to be formed;
A crack induction plate fixedly coupled to the formwork at the inner side of the formwork opening and fixedly bonding the test piece mold to the formwork outer surface;
An attachment plate coupled to the front surface of the test mold;
And an anchor connected to the through plate of the attachment plate, the test mold, and the crack guide plate.
The plate portion is formed larger than the mold portion, the plate engaging groove formed in the vertical rear surface of the plate portion, and inserted into the separating plate coupling groove to physically separate the test body mold and the concrete of the formwork, the cross section of the opening of the mold portion Formed to be larger, the separator plate engraved with the identification information embossed or engraved; further comprising,
When the test piece is separated from the test specimen by tightening the anchor, the crack is induced by the repulsive force between the opening and the crack guide plate of the test specimen mold to separate the bonding test specimen for compressive strength. delete delete delete delete delete delete

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