KR101293327B1 - Construction of inner connecter for concrete structure - Google Patents

Abstract

PURPOSE: A member for embedding and installing the fastener of a concrete structure is provided to significantly improve work productivity by embedding and installing a fastener to a concrete structure. CONSTITUTION: A member (100) for embedding and installing the fastener of a concrete structure comprises a coupling support part (110) and a fixing part (120). The coupling support part is elastically coupled with the pipe body of a fastener to support the fastener embedded into a concrete structure. The outer circumference of the coupling support part is divided into three stages. The upper, middle, and lower stages of the coupling support part separately comprise a contact support surface (114), a close contact support surface (116), and a mortar inflow prevention circular stepped part (118). The fixing part is integrated with the lower center of the coupling support part to fix the coupling support part to a form.

Description

Fastener buried installation member of concrete structure {Construction of Inner Connecter for Concrete Structure}

The present invention relates to a fastener buried installation member of a concrete structure, and more specifically, to a buried fastener made of a screw or straight pipe in a concrete structure such as a concrete sleeper or concrete slab to be buried in place It relates to a fastener buried installation member of a concrete structure that can be easily and quickly coupled and separated from the fastener by mounting the mounting member to the formwork and can be used continuously and repeatedly.

In general, in the case of concrete sleepers, in order to fix the rails, the fasteners made of threaded pipes are embedded in the form of concrete sleepers, and in the case of constructing concrete slabs such as the ceiling of a building, the structures are suspended from the ceiling. For this purpose, a fastener (nut insert) made of threaded tubing is embedded in the concrete slab.

When the concrete structure is used, the formwork is mainly used, and the fasteners embedded in the concrete structure have various shapes according to the type of the formwork. For example, a fastener made of a sand pipe on the upper surface of the formwork is made of bolts. After screwing together by the supporting member to fix it, the concrete is poured and cured. When the formwork is dismantled, the supporting member made of bolts etc. is separated from the fastener. Not only does it take a lot of time because it needs to be loosened, but in the case of a fastener made of a straight pipe, a vacuum is generated between the support member and the inside of the pipe in the process of pushing the straight support member into close contact with the inner wall of the fastener. Did not.

In addition, as an embodiment showing the installation of the fastener in the conventional concrete structure, Figure 1 is an external perspective view showing an example of the insert for a concrete slab used in the conventional aluminum formwork, Figure 2a to 2d is the insert of Figure 1 A cross-sectional view showing an example in which step is installed.

Referring first to Figure 1, the conventional insert is composed of a fastener 20 is fixed to the metal formwork 10, and the insert body 30 is fitted to the upper side of the fastener (20). Then, the process of installing the insert embedded in the concrete slab is as follows.

As shown in FIG. 2A, the bolts 24 are fastened to the plurality of coupling holes 22 formed on the fixture 20 to fix the fixture 20 to the formwork 10. Then, the insert main body 30 is fixed to the formwork 10 by inserting the indentation pipe 32 below the insert main body 30 to the fitting protrusion 26 installed above the fastener 20. As shown in FIG. 2B, concrete 12 is poured onto the formwork 10. When the concrete 12 is cured, the formwork 10 is removed as shown in Figure 2c.

At this time, the fixture 20 fixed to the upper surface of the formwork 10 is removed as the formwork 10, the insert body 30 is installed in a state embedded in the concrete (12). Thereafter, as shown in FIG. 2D, the anchor bolt 36 may be coupled to the nut body 34 embedded in the insert body 30 so as to construct a ceiling structure or the like.

Such a conventional insert can be easily fixed and fixed on the aluminum formwork 10 using the fastener 20, and fixing the fixture 20 to the formwork 10 is cumbersome, but the fastener 20 is It is recycled in the installed state, making it easier to install the insert later.

However, a phenomenon in which the fixture 20 is often damaged due to crushing of the fitting protrusion 26 of the fixture 20 while removing or transporting the formwork 10 is carried out. In this case, the fixture 20 needs to be replaced. In the process of disassembling and reassembling the bolt 24, the screw tab formed on the formwork 10 is crushed so that the bolt 24 is not reassembled. Therefore, the fixture 20 must be reinstalled in another location nearby. This causes a problem that the insertion position of the insert is changed, and if the reinstallation is repeated, it is difficult to recycle the formwork 10.

In view of this, in Patent Publication No. 10-2009-0113476 disclosed in the prior art in the insert for concrete slab embedded in the concrete as shown in Figure 3, the insert body 50 having a nut body 54 therein; An inlet pipe 52 extending downward of the insert body 50 and into which the anchor bolt 59 is inserted and coupled; An elastic piece 56 extending downward of the urinary inlet tube 52 and formed to be elastically axially diameter; And an engaging portion 58 formed at an end of the elastic piece 56 and protruding outwardly to be caught by a rear surface of the fitting hole 62 formed in the formwork 60 of the concrete. .

However, in Figures 1, 2 and the prior art, the fastener (insert) embedded in the concrete structure is inserted into the support end formed on the upper end of the insert body, and then fixed by capping the anchor bolt inlet pipe to the insert body. And the elastic piece is formed so that the bottom of the insert body located at the top of the elastic piece of the insert body is separated while the mold is dismantled. Disadvantages, as the insert body is consumed together with the nut body, the economical disadvantage is low, and the work body productivity is greatly reduced because the insert body must be installed in the formwork every time the concrete structure is constructed.

The present invention has been made in order to solve this problem, the fastening of the bottom fixing portion of the fastener buried mounting member to the mold and the support portion made of an elastic material such as rubber, urethane, silicone, etc. above the fixing portion of the buried mounting member Fasteners made of threaded or straight pipes can be easily and quickly combined to allow landfill installation by pouring concrete mortar while the fasteners are stably supported by the mounting member. The present invention provides a fastener buried installation member of a concrete structure to separate the buried installation member to be used repeatedly.

The present invention, in the buried installation member to be installed in the concrete structure to be installed in the fastener made of screw or straight tubular body, the outer peripheral surface is partitioned into three stages so as to be elastically fitted and coupled to the tubular body of the fastener A coupling support portion including a protruding frame contact surface formed at the center, a cylindrical contact surface formed at the middle end, and a mortar inflow prevention projection formed at the lower end, and integrally connected to the lower center of the coupling support portion. Characterized in that the fastener buried installation member of the concrete structure is provided with a fixing portion to be fixed to the formwork.

The coupling support portion is provided with an elastic material to support the fastener embedded in the concrete structure.

The protruding frame contact surface is. It is formed to be rotated to the spiral portion, or characterized in that formed by the multi-stage separation compartment in the ring-shaped portion.

The fixing part. It is provided with a metal or synthetic resin and is insert-molded in the lower center of the coupling support, it is characterized in that the screw is formed to maintain the state fixed to the formwork by fastening the nut.

And a first vent formed vertically at the lower center of the fixing part and penetrating with the upper center of the coupling support part, and a second vent branched from the first vent to penetrate between the contacting ground surfaces.

The coupling support of the buried installation member is provided in the form of a vertical angle or an inclination angle, characterized in that any one of the vertical support or inclination angle of the coupling support is fixed to the formwork.

Fastener buried installation member of the concrete structure of the present invention is equipped with a buried installation member to be installed in the formwork to the buried fastener made of screw or straight pipe to the concrete structure such as concrete sleepers or concrete slabs in the formwork Fasteners can be installed and embedded in concrete structures as a means to easily and quickly join and separate fasteners, thereby greatly improving work productivity.

In addition, there is a very economical effect because it is possible to continuously and repeatedly buried the fastener in the concrete structure by using a buried installation member fixed to the formwork repeatedly.

In addition, the present invention has an effect that can be easily installed in the inclination angle as well as the vertical angle of the installation of the fastener according to the characteristics of the concrete structure.

1 is a perspective view showing the configuration of a conventional concrete slab insert.
2A to 2D are cross-sectional views showing an example in which the insert of FIG. 1 is installed.
Figure 3 is a cross-sectional view showing another configuration of an insert for a conventional concrete slab. Figure 4 is an exemplary view showing the installation of the fastener buried in the concrete structure by applying the fastener buried installation member of the concrete structure according to the present invention.
5 is a front view showing the fastener buried installation member of the concrete structure according to the present invention.
Figure 6 is a cross-sectional view showing the fastener buried installation member of the concrete structure according to the present invention.
7 to 9 illustrate a process of installing the fastener buried in the concrete structure by applying the fastener buried installation member of the concrete structure according to the present invention,
Figure 7 is an exemplary cross-sectional view showing coupling fasteners to the buried installation member fixed to the formwork.
8 is a cross-sectional view illustrating a state in which concrete mortar is poured in a state in which a fastener is coupled to a buried installation member fixed to a formwork.
9 is an exemplary cross-sectional view showing a state in which the concrete structure formed from the formwork is separated.
10 is a front view showing the fastener buried installation member of the concrete structure according to another configuration of the present invention.
11 is a cross-sectional view of the use state of the fastener buried mounting member according to the configuration of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention is a screw or straight pipe to enable fastening bolts (not shown) to the concrete structure (A) while manufacturing a concrete structure (A), such as a concrete sleeper or concrete slab as a form (P) When embedding the fastener (B) to the buried installation member 100 in the formwork (P) so that the fastener (B) can be buried in the correct position of the concrete structure (A) formwork (P) It relates to a fastener buried installation member 100 of a concrete structure to be mounted on to support the fastener (B).

The buried installation member 100 is; Coupling support 110 is provided with an elastic material such as rubber, urethane, silicone to support the fastener (B) embedded in the concrete structure (A) to be elastically fitted to the tube of the fastener (B) And, the lower portion of the coupling supporting portion 110 is integrally connected by insert molding is provided with a fixing portion 120 to fix the coupling supporting portion 110 to the formwork (P).

The outer circumferential surface of the coupling support 110 is divided into three stages, and the protruding frame-shaped contact support surface 114 formed at the upper end, the columnar contact surface 116 formed at the middle end, and the mortar inflow prevention barrier formed at the lower end. (118).

The fixing part 120 is provided with a metal or synthetic resin and is insert-molded in the lower center of the coupling support part 110 to be used integrally with the coupling support part 110. The fixing part 120 is a screw 122 formed with a nut. (124) It is preferable to maintain the state fixed to the formwork (P) by fastening, the fixing portion 120 is provided with an elastic catching piece (not shown) is fixed to the formwork (P) with an elastic catching piece It can also be installed.

In addition, the first passage 111 through which the lower center of the fixing part 120 is vertically penetrated with the upper center of the coupling support 110, and the contact ground surface 114 branched from the first passage 111. The second passage 112 is formed to be penetrated between the first and second through the first and second passages 111 and 112 even if the coupling support portion 110 is in close contact with the inside of the tube of the fastener (B). Do not become a vacuum inside the tube body of the sphere (B) to facilitate the fitting and separation.

In the above, the protruding frame contact surface 114 is formed to be swiveled by the spiral portion 114a, or a multi-stage separation section formed by the ring portion 114b, but the contact support ground formed to be swiveled by the spiral portion 114a ( In the case of 114), the fastener B is applied to the threaded tubular body, and in the case of the contact support surface 114 which is divided into multiple stages by the ring-shaped part 114b, the fastener B 'to the straight tubular body. It is preferable to apply to the present invention, however, since the contact ground surface 114 is elastically coupled to the fastener B, regardless of the tubular structure of the fastener, the protruding frame contact ground surface 114 is the spiral portion 114a. Of course, it is possible to use any one of the formed to be swollen or formed into a multi-stage separation compartment by the ring-shaped portion (114b).

On the other hand, as another embodiment of the buried installation member 100 of the present invention, as shown in Figure 10 it can be used that is provided with a protruding frame contact surface 114 formed by the multi-stage separation compartment as the ring-shaped portion (114b) When the protruding frame contact surface 114 is divided into multiple stages, the contact support surface is not provided in the coupling support 110, and the outer circumferential surface of the coupling support 110 is divided into two stages and protruded at the upper end. It can be carried out by configuring a coupling support portion including the rim contact surface 114 and the mortar inflow prevention projection 118 formed at the lower end, in this case, the fastener (B ') mainly made of a straight tube Used to be equipped.

As described above, the fastener B 'made of a straight tubular body is formed with a coupling groove B'-1, so that any one of the multi-stage partitioned projecting rim contact surface 114 is inserted into the external pressure and vibration. It is preferable to prevent the fastener (B ') made of a straight pipe body to escape from the buried installation member 100 by.

Contact land surface 114 formed in the buried installation member 100 of the present invention configured as described above is the inner diameter of the upper portion of the inner tube of the fastener (B) when fitting to the fastener (B) made of a screw type Air flowing through the second passage 112 formed between the contact ground surfaces 114 while supporting the air is prevented from becoming a vacuum state by facilitating the flow of air without stagnation of air between the contact ground surfaces 114. Do it.

In addition, the installation angle of the fastener B is installed at an inclination angle of about 2 to 5 degrees as well as the vertical angle according to the characteristics of the concrete structure A, and the like. The support unit 110 is provided in the form of forming a vertical angle or an inclination angle to the form (P), any one of the supporting support 110 of the vertical angle or inclination angle can be installed and used in the form (P), fasteners Even if the installation angle of (B) is installed at an inclination angle of about 2 to 5 degrees, the fitting support 110 to be fitted and separated in response thereto is elastic and made of elastic material, so the fitting and separation of the fastener B and the fitting It can be done easily.

In addition, since the cylindrical contact surface 116 is supported in the longitudinal direction of the fastener at the lower part of the tube of the fastener B, when the fastener B is to be buried at a vertical angle or slightly oblique inclination angle, 116 is to be buried in the installation angle, when the cylindrical contact surface 116 is formed at an angle of inclination, the cylindrical contact surface 116 is based on the longitudinal direction of the coupling support 110 is spiral The length of the cutting edge is compared with that of the contact surface 114 so that the fitting and the fastener B can be easily coupled and separated without being influenced by the inclination angle of the cylindrical contact surface 116. desirable.

In addition, the mortar inflow prevention jaw 118 is to prevent the concrete mortar to be poured between the coupling support 110 of the buried installation member 100 and the tube of the fastener (B).

The present invention as described above is fastened in a state in which the coupling support 110 is fixed by fastening the fixing part 120 of the buried installation member 100 to the form (P) for manufacturing the concrete structure (A) as shown in FIG. The tubular portion of the sphere (B) is easily and quickly elastically coupled in the form of forced fitting to the coupling support 110.

As described above, the fastener B is poured into the mortar mounting member 100 fixed to the formwork P to cast concrete mortar to form and cure the concrete structure A as shown in FIG. 8.

Subsequently, when curing of the concrete structure (A) is completed, when the concrete structure (A) is separated from the formwork (P), the fastener (B) buried in the concrete structure (A) as shown in Figure 9 is fixed to the formwork (P) The separation support member 110 of the buried installation member 100 is easily separated without performing a separate separation operation.

That is, according to the present invention, the fasteners (B) buried in the concrete structure (A) according to the type or characteristics of the concrete structure (A) is fixed to the formwork (P) when several to several tens or more are installed in the concrete structure (A). Significantly improves work productivity because the fitting and disengaging of the fastener B can be easily and quickly performed on the coupling support 110 of the buried mounting member 100 to allow the fastener B made of tubular to be buried. And, as shown in Figure 9 to separate the concrete structure (A) from the formwork (P) it is possible to perform another operation repeatedly repeatedly using the buried installation member 100 fixed to the formwork (P).

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: buried mounting member 110: coupling support
111: first passage 112: second passage
114: contact surface 114a: helix
114b: ring portion 116: contact surface
118: mortar inflow prevention jaw 120: fixed part
122: screw 124: nut
A: concrete structure B, B ': fastener
B'-1: Coupling groove P: Formwork

Claims (9)

In the buried mounting member for allowing the fasteners made of screw or straight pipe to be embedded in the concrete structure,
The outer circumferential surface is partitioned into three stages so as to be elastically fitted to the pipe of the fastener, and the protruding frame contact support ground formed at the upper end, the cylindrical contact support ground formed at the middle end, and the mortar inflow prevention barrier formed at the lower end. Combined support and including,
Fastener buried installation member of the concrete structure, characterized in that the fixing portion is provided integrally connected to the lower center of the coupling support portion to secure the coupling support to the formwork.
The method of claim 1,
The coupling support part, the fastener buried installation member of the concrete structure, characterized in that it is provided with an elastic material to support the fastener embedded in the concrete structure.
The method of claim 1,
The projecting frame contact land is fastening buried installation member of the concrete structure, characterized in that formed in a spiral to turn.
The method of claim 1,
The projecting frame contact land is fastening buried installation member of the concrete structure, characterized in that formed in multiple stages divided into a ring-shaped portion.
The method of claim 1,
The fixing part is provided with a metal or synthetic resin and the fastener buried installation member of the concrete structure, characterized in that the insert is formed in the lower center of the coupling support.
6. The method of claim 5,
The fixing portion is fastening buried installation member of the concrete structure, characterized in that the screw is formed to maintain a fixed state to the formwork by fastening the nut.
The method of claim 1,
A first air passage formed vertically at the lower center of the fixing part and penetrating the upper center of the coupling support portion, and a second air passage branched from the first air passage and penetrated between the contact ground planes; Fastener buried installation member of the structure.
The method of claim 1,
The coupling support of the buried installation member is provided in the form of forming a vertical angle or an inclination angle fastener buried installation member of a concrete structure, characterized in that any one of the vertical support or the angle of inclination is fixed to the formwork.
In the buried mounting member for allowing the fasteners made of screw or straight pipe to be embedded in the concrete structure,
The outer peripheral surface is partitioned into two stages so as to be elastically fitted to the tube of the fastener, and the upper edge is connected to the protruding frame-type contacting ground, which is divided into multiple stages by a ring-shaped portion, and a mortar inflow preventing recess formed at the lower end. Support,
Fastener buried installation member of the concrete structure, characterized in that the fixing portion is provided integrally connected to the lower center of the coupling support portion to secure the coupling support to the formwork.

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