KR20090092974A - Undergrounding structure of connector for concrete structure's pull-out testing apparatus and construction method for the concrete structure - Google Patents

Abstract

A connector busying structure of a concrete structure drawing testing device and a construction method of the concrete structure are provided to bury the connector without any damage on a mold by burying the connector while supporting with a channel. A connector busying structure of a concrete structure drawing testing device comprises a temporary cover(30) and a channel(40). The temporary cover is detachably installed at a connector(10). The temporary cover opens and closes an insertion part(12) of the connector. The insertion part of the connector is screwed up with a test piece. The connector comprises a hook part(14) for the separation protection from the concrete structure. The channel is temporary mounted at a mold(4) of the concrete structure. The channel supports one or more connectors.

Description

Undergrounding structure of connector for concrete structure's pull-out testing apparatus and construction method for the concrete structure}

The present invention relates to the field of construction and civil engineering, and to a connector buried structure of a concrete structure drawing test apparatus for drawing test of concrete structures, and a construction method of the concrete structure.

The pull-out test of concrete structures is one of the methods to test whether a concrete structure has a proper level of strength without destroying the concrete structure.

Conventional pull test method is a pull test by purchasing a straight pull bolt to the cured concrete structure. In this method, a portion of the concrete structure is inevitably destroyed to purchase the drawn bolt.

As a method of improving this problem, a method of using a pin-tail type pull bolt is proposed.

The first method of using the above-described draw bolt will be described with reference to FIGS. 1 to 3.

 As shown in FIG. 1, when the concrete is poured, a part of the drawing bolt 102 of the drawing test device 100 is embedded in the concrete structure 110, and when the concrete structure 110 is cured, the drawing test device is drawn on the drawing bolt 102. By connecting the tester 104 of the (100) is a pull test for measuring the strength of the concrete structure (110).

At this time, if the concrete structure 110 to secure the strength or more than the standard, as shown in Figure 2 only the drawing bolt 102 is cut and the concrete structure 110 is not damaged at all. On the other hand, when a portion of the concrete structure 110 is destroyed below the reference strength, as shown in Figure 3, the concrete structure 110 determines that the reference strength has not been secured.

The second method using the above-mentioned draw bolt is as follows.

After curing the concrete structure, the hole is formed in the concrete structure, the drawing bolt is installed in the hole of the concrete structure, the resin is injected into the hole of the concrete structure where the drawing bolt is installed, and the drawing bolt is fixed to the concrete structure. , Pull out.

However, the first method can not change the drawing test position after curing the concrete structure, there is a problem that results in only unnecessary work and costs if not tested.

In the second method, cracks are generated in the concrete structure as holes are formed after curing of the concrete structure, and the coupling force between the concrete structure and the drawing bolt is weak, which causes errors in the test results.

In both of the above methods, in order to remove the bolts installed in the concrete structure from the concrete structure, the bolts protruding from the concrete structure must be cut with a cutter or drawn out from the concrete structure. There is a problem.

The present invention has been made in order to solve the above problems of the prior art, when the concrete structure has passed the pull test or the pull test of the concrete structure is not carried out, which can prevent damage to the concrete structure due to unnecessary pull test It is to provide a connector buried structure of concrete structure drawing test device and construction method of the concrete structure.

It is another object of the present invention to provide a connector buried structure of a concrete structure drawing test apparatus and a construction method of the concrete structure that can minimize unnecessary work and the resulting cost loss even when the drawing test is not performed.

Still another object of the present invention is to provide a method of constructing a connector buried structure and a method of constructing a concrete structure, in which a drawing test apparatus can be firmly coupled with a concrete structure during testing.

In order to solve the above problems, the present invention is inserted into the insertion portion so that the test piece connected to the tester is detachable, the concrete structure so that the connector does not protrude from the concrete structure when the concrete is placed for the construction of the concrete structure A connector buried structure of a concrete structure drawing test device embedded in the temporary structure, the temporary cover being installed to be detachable from the connector and opening and closing the insertion part of the connector; Temporarily installed in the formwork of the concrete structure is embedded in the concrete structure, and provides a connector buried structure of the concrete structure drawing test apparatus including a channel for supporting at least one connector.

Insertion portion of the connector may be formed to be screwed with the test piece.

The connector may have a jaw to prevent separation from the concrete structure.

An uneven portion may be formed on an outer surface of the connector so that at least a portion of the connector has an attachment force with the concrete structure.

The connector may have a bolt head shape at an inner end of the concrete structure.

The temporary cover may be made of an elastic material.

The temporary cover includes a body portion inserted into the insertion portion of the connector; Is connected to the body portion and may be formed larger than the insertion portion of the connector may include a head that is caught on the outside of the connector.

The channel may be formed with at least one protrusion fitted to the connector.

The channel may include at least one fastening part at least partially inserted between the plurality of panels of the formwork and temporarily fastened to the formwork by a temporary fastening member fastened at an outer side of the formwork.

The temporary fastening member may be a form tie fitted to the panel of the formwork for fastening the plurality of panels of the formwork.

At least one cut portion may be formed in the channel so that a portion protruding from the concrete structure is easily cut.

It may further include an elastic member positioned between the channel and the connector.

In addition, in order to solve the above problems, the present invention is a construction method of the above-described concrete structure, assembling the formwork for the construction of the concrete structure, the formwork installation step of installing in the formwork by combining the connector and the temporary cover, the channel and ; A concrete structure curing step of curing the concrete structure in which the connector, the temporary cover, and the channel are embedded by placing concrete in the formwork; A formwork removing step of removing the formwork; After removing the formwork, the present invention provides a method for constructing a concrete structure including removing the temporary cover and removing a temporary cover for cutting a portion protruding from the concrete structure of the channel and cutting the channel.

After removing the temporary cover and cutting the channel, after passing the pull-out test of the concrete structure or when the pull-out test of the concrete structure is not carried out, may further include a finishing step of closing the connector with the concrete finish.

In the present invention, when the concrete is placed in the connector to the concrete structure, and after curing the concrete structure by coupling the test piece to the connector can be pulled out for the measurement of the strength of the concrete structure.

Therefore, it is easy to remove the specimen from the concrete structure after the pull test. In addition, if the concrete structure has passed the pull-out test or the pull-out test of the concrete structure is not carried out, there is no fear that the concrete structure will be damaged due to unnecessary pull-out test. In addition, the drawing test device can be installed firmly on the concrete structure during the pull test. In addition, after drawing test, the buried portion of the connector of the concrete structure can be neatly and simply finished. In addition, unnecessary work and costs can be minimized even when the pull-out test is not performed.

In addition, the present invention is buried by supporting the connector in the channel, the channel is fastened together by fastening the plurality of panels of the formwork together, thereby embedding the connector without damaging the formwork.

1,2,3 is a view showing a pull test for measuring the strength of a concrete structure according to the prior art.

4 is a view showing a pull test for measuring the strength of a concrete structure according to the present invention.

5 is an exploded perspective view showing a connector buried structure of a concrete structure drawing test apparatus according to the present invention.

6 to 10 is a schematic diagram showing the construction of the connector embedded in the concrete structure and the concrete structure including the same.

<Explanation of symbols on main parts of the drawings>

2; Concrete structure 4; Formwork

4A; Panel 10; Connector

12; Insert 14; Chin

16; Uneven portion 20; Test piece

22; Break 24; Screw connection

30; Temporary cover 32; Body

34; Head 40; channel

42; Support 44; Fastening part

Figure 4 is a view showing a pull test for measuring the strength of the concrete structure according to the invention, Figure 5 is an exploded perspective view showing the connector buried structure of the concrete structure drawing test apparatus according to the present invention, Figures 6 to 10 It is a schematic diagram showing the construction of the connector embedded in the concrete structure and the concrete structure including the same.

Concrete structure drawing test apparatus according to the present invention, at least one connector (10) embedded in the concrete structure (2) so as not to protrude from the concrete structure (2) during the construction of the concrete structure (2); After curing of the concrete structure (2), the test piece (20) coupled to be detachably attached to the connector 10 during the drawing test for measuring the strength of the concrete structure (2); Coupled with the test piece 20 may include a tester for generating a force for the pull test.

The test piece 20 is formed at a portion other than the portion coupled with the connector 10 so that the break portion 22 can be broken at a predetermined strength or more. Here, the break 22 of the test piece 20 may be implemented by forming a thickness thinner than other portions of the test piece 20.

The connector 10 and the test piece 20 may be any method as long as they can be detached from each other, and can be easily and reliably detached by a screwing method as a preferred example. That is, the connector 10 is formed in the insertion portion 12 that can be screwed to the bar bar is inserted into the test piece 20 is embedded in the concrete structure (2), the test piece 20 of the connector 10 It may have a screw fastening portion 24 is inserted into the insertion portion 12 and screwed. In other words, the connector 10 may have a female screw structure, and the test piece 20 may have a male screw structure. Here, the insertion portion 12 of the connector 10 is more preferably formed in the center of the connector 10 for balance.

Such a concrete structure drawing test apparatus according to the present invention may have the following advantages.

Since the connector 10 and the test piece 20 may be detachable, it is easy to remove the test piece 20 from the concrete structure 2 after the pull-out test, and at this time, because an excessive force does not act on the concrete structure 2, the concrete structure ( There is no need to worry about the damage of 2).

In addition, the connector 10 is completely embedded in the concrete structure 2, it is possible to clean and simply finish the connector embedded portion of the concrete structure (2).

In addition, even if the drawing test is not performed, only the connector 10, which is a very small part of the drawing test apparatus, may be left in the concrete structure 2, thereby minimizing unnecessary work and costs.

In addition, since the connector 10 is buried at the time of concrete installation for the construction of the concrete structure 2, there is no need to worry about the damage of the concrete structure 2 due to embedding the connector 10, the connector 10 is a concrete structure It can be firmly attached to (2).

Hereinafter, a technique of embedding the connector 10 in the concrete structure 2 when concrete is laid for construction of the concrete structure 2 will be described in more detail.

The connector 10 may be formed with a jaw portion 14 that can be hung on the concrete structure 2 in order to prevent it from being embedded in the concrete structure 2 more reliably. The jaw portion 14 of the connector 10 may be implemented in a variety of ways, and as an example, at least a portion of the outer shape of the connector 10 may be implemented by the step between the end and the end by taking the step shape. At this time, the outer shape of the connector 10 may take a step shape such that the inner side cross section of the concrete structure 2 is larger, so that the connector 10 may be more firmly embedded in the concrete structure 2.

The connector 10 may be formed in the concave-convex portion 16 on at least a portion of the outer surface in order to increase the adhesion to the concrete structure (2) to be embedded in the concrete structure (2) more robust. The concave-convex portion 16 of the connector 10 may take the form of a plurality of grooves, may take the form of a plurality of protrusions, may take the form of threads or a plurality of ring-shaped protrusions, and may take various forms in addition to this.

The connector 10 has a bolt head shape of the inner end 18 of the concrete structure 2, so that the attachment force with the concrete structure 2 can be increased, and the rotation can be prevented more reliably.

The connector 10 is temporarily fastened with the formwork 4 of the concrete structure 2 when the concrete is laid for the construction of the concrete structure 2 as follows, and is supported by the formwork 4 so as to provide a simple and robust concrete structure. May be buried in (2).

To this end, in order to bury the connector 10 during curing of the concrete structure 2, the temporary cover 30 is installed so as to be detachable to the connector 10 to open and close the insertion portion 12 of the connector 10; Temporarily installed in the formwork 4 may be embedded in the concrete structure 2, and may include a channel 40 for supporting at least one connector 10. Therefore, the connector 10 may be embedded in the concrete structure 2 without damaging the concrete structure 2. In addition, the temporary cover 30 may prevent foreign matters from entering the insertion part 12 of the connector 10. In addition, it is not necessary to damage the formwork 4 such as forming a hole in the formwork 4 for embedding the connector 10, and there is no need to worry about the airtightness of the formwork 4.

Furthermore, the temporary cover 30 may take a structure that is completely inserted into the connector 10 for attachment and detachment with the connector 10, but only a part of the temporary cover 30 is inserted into the connector 10 and a part protrudes from the connector 10. It is more preferable. That is, part of the temporary cover 30 protrudes from the connector 10, so that the temporary fastening member 40 can be securely fastened to the temporary cover 30. In addition, as will be described later, the part where the temporary cover 30 is removed at the end of the concrete structure 2 is secured as a finishing space of the concrete structure 2, thereby finishing the connector buried portion of the concrete structure 2 so as not to protrude. It can be treated and completely hides the connector 10, which is advantageous in terms of the finish of the concrete structure 2.

To this end, the temporary cover 30 includes a body portion 32 inserted into the insertion portion 12 of the connector 10; It is connected to the body portion 32 and may be formed larger than the insertion portion 12 of the connector 10 may include a head 34 that is caught on the outside of the connector (10).

The body portion 32 of the temporary cover 30 may only be inserted into the insertion portion 12 of the connector 10 as in the present embodiment, but in addition to the connector 10 and screw fastening for coupling with the connector 10 It may be carried out in a variety of ways.

The temporary cover 30 may be formed of various materials according to design conditions, and may have the following advantages by being formed of an elastic material such as rubber as in the present embodiment. That is, since the temporary cover 30 can be detached by simply inserting or pulling the connector 10 into the connector 10, the attachment and detachment of the temporary cover 30 is simple and advantageous in terms of the airtightness of the temporary cover 30 and the connector 10.

On the other hand, the temporary cover 30 may be formed with a groove or a protrusion so that it can be easily caught by a tool such as a tweezers or the hand of the operator so that the detachable more easily.

Next, the channel 40 may include a support part 42 coupled to the connector 10 and a fastening part 44 extending from the support part 42 to be temporarily fastened to the formwork 4.

The support 42 of the channel 40 may be spaced apart from the formwork 4 so that the connector 10 may be located between the channel 40 and the formwork 4.

The support part 42 of the channel 40 may be coupled with the connector 10 in various ways, and as a preferred example, a protrusion 42A into which the connector 10 is fitted may be formed. Only one protrusion 42A of the channel 40 may be formed in one support 42. Alternatively, a plurality of protrusions 42A of the channel 40 are formed at one support 42, so that several connectors 10 are coupled to one support 42, or one connector is connected to one support 42. Even if only 10 is coupled, it is possible to change the coupling position of the connector 10. The protrusion 42A of the channel 40 may be formed in a rod-like surface having a flat surface as in the present embodiment, and may only be fitted into the connector 10, but in addition, a thread may be formed or a connector may be screwed into the connector 10. It may be implemented in various ways, such as a hook is formed to be hooked to the (10).

Only one fastening portion 44 of the channel 40 may be provided, or two or more pieces may be provided. More preferably, one fastening portion 44 may be provided on each side of the support portion 42 of the channel.

The fastening portion 44 of the channel 40 is at least partially between the plurality of panels 4A of the formwork 4 so that the formwork 4 is easily detachable from the formwork and the formwork 4 is not damaged by embedding the connector 10. It can be temporarily fastened with the formwork 4 by a temporary fastening member that is fitted in and fastened from the outside of the formwork (4).

In particular, although the temporary fastening member may be configured separately for the temporary fastening of the channel 40, there is a form fastening member 6 for fastening the plurality of panels 4A of the formwork 4, the fastening member for the formwork 6 May also serve as a temporary fastening member. At this time, the form fastening member 6, which also serves as a temporary fastening member, any method can be used as long as it is suitable for the purpose of fastening, it can be implemented as a form tie (form tie) fitted as a wedge as a preferred example. Here, the hole 44A which can be matched with the hole 4B formed in the plurality of panels 4A of the formwork 4 so that the form fastening member 6 can be fitted into the fastening portion 44 of the channel 40. ) Is formed.

When the fastening portion 44 of the channel 40 is partially fitted between the plurality of panels 4A of the formwork 4 as in the present embodiment, a portion protruding from the concrete structure 2 after curing the concrete structure 2 is formed. At this time, at least one cutout 44B may be formed to be easily cut. In this case, the cutting portion 44B may be any method as long as it can easily cut, and may be implemented by forming a thickness thinner than other portions of the channel 40 as a preferred example, or by combining a plurality of holes or grooves. It may be implemented.

Meanwhile, an elastic member 50 having an elastic force may be positioned between the connector 10 and the channel 40. Then, the connector 10 may be in close contact with the channel 40 by the elastic force of the elastic member 50, so that the connector 10 may be more firmly supported. The material of the elastic member 50 for this purpose may be any material as long as the material having elastic force, including styrofoam. In addition, the elastic member 50 may be formed with a hole 50A into which the protrusion 42A of the channel 40 may be inserted, so that the elastic member 50 may be supported by the channel 40.

Hereinafter, the construction method of the concrete structure 2 in which the connector 10 is embedded will be described in detail.

The construction method of the concrete structure (2) is a formwork installation step of assembling the formwork (4), combining the connector 10, the temporary cover 30, the channel 40 and installed in the formwork (4) (see Fig. 6) Wow; A concrete structure curing step (see FIG. 7) for pouring concrete 10 into the formwork 4 to cure the concrete structure 2 in which the connector 10, the temporary cover 30, and the channel 40 are embedded; A formwork removing step of removing the formwork 4 (see FIG. 8); After removing the formwork 4, the temporary cover 30 may be removed, and the temporary cover removal and channel cutting step of cutting the protruding portion from the concrete structure 2 of the channel 40 may be included (see FIG. 9). .

In addition, the construction method of the concrete structure (2) is concealed the connector 10, after the temporary cover removal and channel cutting step, if the concrete structure (2) has passed the pull-out test or the pull-out test of the concrete structure (2) is not carried out Finishing step (see Fig. 10) for finishing the connector buried portion of the concrete structure (2) to the concrete can be further included.

Since the above is only described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known is not to be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

Claims (14)

Insertion part for inserting the test piece to be connected to the tester detachably is formed in the connector, the connector of the concrete structure drawing test apparatus embedded in the concrete structure so that the connector does not protrude from the concrete structure when the concrete is placed for the construction of the concrete structure As buried structure, A temporary cover which is installed to be detachably attached to the connector and opens and closes the insertion part of the connector; Temporarily installed in the formwork of the concrete structure is embedded in the concrete structure, the connector buried structure of the concrete structure drawing test apparatus including a channel for supporting at least one connector. The method according to claim 1, Inserting portion of the connector is a connector buried structure of the concrete structure drawing test device formed to be screwed with the test piece. The method according to claim 1, The connector is a connector buried structure of the concrete structure drawing test apparatus having a jaw to prevent departure from the concrete structure. The method according to claim 1, The connector buried structure of the concrete structure drawing test apparatus is formed in the concave-convex portion on the outer surface of the connector to increase the adhesion to the concrete structure on at least part. The method according to claim 1, The connector is a connector buried structure of the concrete structure drawing test apparatus in which the inner end of the concrete structure has a bolt head shape. The method according to claim 1, The temporary cover is a connector buried structure of the concrete structure drawing test device made of an elastic material. The method according to claim 1, The temporary cover includes a body portion inserted into the insertion portion of the connector; The connector buried structure of the concrete structure drawing test apparatus including a head connected to the body portion and formed larger than the insertion portion of the connector is caught on the outside of the connector. The method according to claim 1, The channel is a connector buried structure of the concrete structure drawing test device formed with at least one projection fitted to the connector. The method according to claim 1, The channel is at least partially sandwiched between the plurality of panels of the formwork, and the connector buried in the concrete structure drawing test apparatus including at least one fastening portion that is temporarily fastened to the formwork by a temporary fastening member fastened on the outside of the formwork rescue. The method according to claim 9, The temporary fastening member is a connector buried structure of a concrete structure drawing test apparatus is a form tie (form tie) that is fitted to the panel of the formwork for fastening the plurality of panels of the formwork. The method according to claim 1, The channel is a buried structure of the connector of the concrete structure drawing test device formed with at least one cut portion so that the protruding portion from the concrete structure is easily cut. The method according to claim 1, The connector buried structure of a concrete structure drawing test apparatus further comprising an elastic member positioned between the channel and the connector. As a construction method of the concrete structure of any one of claims 1 to 12, A formwork installation step of assembling formwork for construction of the concrete structure, and installing the formwork on the formwork by combining the connector with a temporary cover and a channel; A concrete structure curing step of curing the concrete structure in which the connector, the temporary cover, and the channel are embedded by placing concrete in the formwork; A formwork removing step of removing the formwork; And removing the temporary cover after removing the formwork, and removing the temporary cover and cutting the channel from the protruding portion of the concrete structure. The method according to claim 13, After removing the temporary cover and cutting the channel, after passing the pull-out test of the concrete structure or when the pull-out test of the concrete structure is not carried out, the concrete structure further comprises a finishing step of closing and closing the connector with the concrete; Construction method.