KR100507742B1 - Structure for Anchoring of Steel Stud Bearing Wall and Method for Operating thereof - Google Patents

Abstract

The present invention relates to a steel stud bearing wall fixing structure for fixing the steel stud bearing wall to the foundation concrete, the fixing structure of the present invention, two fixing members formed by bending both ends of the channel having a "c" shaped cross-section, respectively, upwards The fixing means constituted by fastening the webs 21 of 20 to each other with screws 26 is embedded in the foundation concrete 31 so that only the upper surface thereof is exposed to the outside, and the steel stud bearing wall 30 is disposed on the upper surface of the fixing means. The lower surface of the contact is characterized in that the fixing with a screw 33. In the present invention, since the steel stud bearing wall is fixed to the foundation concrete using a fixing material and a screw, the workability is remarkably improved than using an anchor bolt as in the related art.

Description

Structure for anchoring of steel stud bearing wall and method for operating

The present invention relates to a steel stud bearing wall fixing structure, and more particularly, to a fixing structure for fixing the bearing wall to the foundation concrete by using a fixing material embedded in the foundation concrete to facilitate anchoring of the steel stud bearing wall. The present invention also relates to a construction method of fixing the steel stud bearing wall to the foundation concrete using the fixing material.

1 is a schematic view showing a steel stud bearing wall fixing structure according to the prior art. As shown in FIG. 1, the steel stud bearing wall 10 serves to transfer the load acting on the steel stud structure to the foundation concrete 11. Generally, the steel stud bearing wall 10 and the foundation concrete 11 are connected by an anchor bolt 12. The anchor bolt 12 is embedded in concrete to exhibit a certain fixing force, and effectively connects the steel and concrete with different physical properties. These anchor bolts are classified into buried anchors, set anchors and epoxy anchors according to the embedding method. The buried anchor is installed at the formwork stage, and the set anchor and the epoxy anchor are installed by grouting the concrete after curing of the concrete.

The anchor bolt as described above has the advantage of securing a certain fixing force, but has the disadvantage that the construction is difficult. In addition, set anchors and epoxy anchors require careful attention to construction management because they differ in performance and specifications from manufacturer to manufacturer. These problems are not serious due to the small number of anchor bolts installed in general steel structures, but the construction of anchor bolts is required to install anchor bolts at regular intervals (approximately 60cm) in accordance with the position of the bearing wall. It will be a significant part of the construction. Therefore, some frame contractors not only avoid the construction of anchor bolts, but also intentionally ignore the construction of anchor bolts.

Concrete smoothness as well as the construction of the anchor bolt as described above acts as an important variable in the installation of the steel stud bearing wall. When the concrete smoothness is not secured, the lower track 13 coupled to the lower portion of the bearing wall does not adhere closely to the concrete surface, and thus, the load cannot be effectively transmitted. In this case, an empty space is formed between the lower track 13 and the foundation concrete 11. In the related art, after filling the empty space 14 with the reinforcing iron plate 14, the edges are mortar-filled (15; cement, sand). And formed by mixing water), the workability of fixing the steel stud-bearing wall to the foundation concrete has a disadvantage in that it is remarkably deteriorated.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, the steel stud load bearing wall to the foundation concrete using a fixing material which is easy to connect the steel stud load bearing wall and the foundation concrete and ensures a smooth surface It is an object of the present invention to provide a fastening structure for fast fixing and a construction method thereof.

Steel stud bearing wall fixing structure of the present invention for achieving the above object, the fixing configured by fastening the web of the two fixing members formed by bending both ends of the channel having a "c" -shaped cross section to each other with a fastening means against each other The means is embedded in the base concrete so that only the upper surface thereof to the outside, and the lower surface of the steel stud bearing wall is in close contact with the upper surface of the fixing means to be fixed by the fixing means.

In addition, the steel stud bearing wall construction method of the present invention, the fixing means constituted by fastening the web of the two fixing members formed by bending both ends of the channel having a "c" shaped cross section to each other by fastening means by the fastening means, said steel Arranging a stud bearing wall in a position to be installed, embedding the fixing means in concrete so that only the upper surface of the fixing means is exposed to the outside, and curing the forming means to form a foundation concrete; and the steel stud on the upper surface of the fixing means. The bottom surface of the bearing wall is characterized in that it comprises the step of fixing with a fixing means.

In the following, with reference to the accompanying drawings a preferred embodiment of the steel stud bearing wall fixing structure and its construction method according to the present invention will be described in detail.

Figure 2a is a cross-sectional view of the fixing material used in the steel stud bearing wall fixing structure of the present invention.

As shown in FIG. 2A, the fixing member 20 used in the steel stud bearing wall fixing structure has a form in which both ends of the channel having a “c” shaped cross section are bent upwards. That is, the fixing member 20 has a predetermined height and vertically vertical web 21, and bent in the same horizontal direction perpendicular to the web 21 at both ends of the web 21 to support the steel stud bearing wall or foundation The support 22 and the fixing portion 23 to be embedded in the concrete, and bent in the upper direction parallel to the web 21 at both ends of the support 22 and the fixing portion 23 to prevent the inflow of concrete It is composed of bent portions (24, 25) to be firmly fixed to the foundation concrete.

The web 21 has a flat shape to easily fasten against another member, and the support part 22 has a flat shape to close and fasten a lower track coupled to a lower portion of the steel stud bearing wall. In addition, the bent portion 24 formed at the end of the support portion 22 is bent to have a height such that concrete does not flow into the support portion 22 at the time of placing concrete to form the foundation concrete. In addition, the fixing portion 23 formed with the other bent portion 25 is firmly fixed to the foundation concrete and exhibits a certain fixing force, and has a corrugated shape or a plurality of surfaces on the surface so as to be more firmly fixed to the foundation concrete. A projection may be formed.

The fixing member 20 as described above is a plate having a width such that the screw can be fastened and a width capable of forming a desired height during bending and a length capable of fixing the steel stud bearing wall by a desired length, so as to have a shape as described above It is formed by bending at the point of.

In the following, a fixing structure and a construction method for fixing the steel stud-bearing wall to the foundation concrete using the fixing member 20 configured as described above will be described in detail with reference to FIGS. 2A to 3.

FIG. 2B is a cross-sectional view of the fixing member shown in FIG. 2A in a state where FIG.

First, two fixing members 20 shown in FIG. 2A are brought into contact with each other. In other words, the webs 21 of the fixing member 20 are opposed to each other. In this state, the webs 21 are coupled to each other using a screw 26 or the like as a fastening means. Then, it has an overall "I" cross-sectional shape, the upper space is formed by the support 22, the bent portion 24 is formed to seat the lower track 32 coupled to the steel stud bearing wall 30 The lower portion has a form that can be firmly fixed to the foundation concrete 31 by the fixing portion 23 formed with other bent portions 25 (see FIGS. 2B and 3).

When the fastening means having the cross-sectional shape as shown in Figure 2b is manufactured, the fastening means is disposed at the position where the steel stud bearing wall is to be installed. Then, the concrete is poured to form the foundation concrete 31. At this time, the concrete is poured so that only the bottom of the support 22 of the fixing member 20 is filled so that the upper surface of the fixing means is expressed to the outside, the fixing portion 23 formed with the web 21 and the other bent portion 25 is formed. ) Is embedded in concrete.

When the concrete is cured in this form, the lower track 32 of the steel stud bearing wall 30 is seated in the space formed by the support part 22 on which the bent portion 24 is formed. Then, the lower surface of the lower track 32 is in close contact with the support 22 of the fixing member 20, and both side surfaces of the lower track 32 are in close contact with the bent portions 24 formed at the support 22. In this state, the lower track 32 is coupled to the support part 22 using screws 33 or the like as the fixing means. As a result, the steel stud bearing wall 30 is fixed to the foundation concrete 31.

As described in detail above, the present invention uses the fixing material and the screw as described above to fix the steel stud-bearing wall to the foundation concrete, there is an effect that the workability is remarkably improved than using an anchor bolt as in the prior art.

In addition, when the construction method of the present invention is used, a gap is not formed between the steel stud bearing wall and the foundation concrete, so that no additional reinforcement work is required, thereby improving workability.

Although the technical details of the steel stud bearing wall fixing structure and the construction method of the present invention has been described above with the accompanying drawings, this is for illustrative purposes only and not for limiting the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

1 is a schematic view showing a steel stud bearing wall fixing structure according to the prior art,

Figure 2a is a cross-sectional view of the fixing material used in the steel stud bearing wall fixing structure of the present invention,

FIG. 2B is a cross-sectional view of the fixing material shown in FIG.

Figure 3 is a schematic diagram showing a steel stud bearing wall fixing structure according to an embodiment of the present invention.

  ♠ Explanation of symbols on the main parts of the drawing ♠

20: fixing material 21: web

22: support portion 23: fixed portion

24, 25: bend portion 26, 33: screw

30 steel stud bearing wall 31 foundation concrete

32: lower track

Claims (2)

In the fixed structure for fixing the steel stud bearing wall to the foundation concrete, Fastening means formed by fastening the webs of the two fixing members formed by bending both ends of the channel having a "c" -shaped cross section to each other with the fastening means are embedded in the foundation concrete so that the upper surface thereof is exposed to the outside, Both sides and the lower surface of the steel stud bearing wall is in close contact with the bent portion and the upper surface of the fixing means, respectively, and the steel stud bearing wall fixing structure, characterized in that for fixing the lower surface of the steel stud bearing wall to the base concrete by other fixing means. In the construction method of fixing the steel stud bearing wall to the foundation concrete, Arranging the fixing means constituted by fastening the webs of the two fixing members formed by bending both ends of the channel having a “c” -shaped cross section to each other with the fastening means at a position where the steel stud bearing wall is to be installed; Embedding the fixing means with concrete so that the upper surface of the fixing means is exposed to the outside to cure to form a foundation concrete; And And fixing both sides and the lower surface of the steel stud bearing wall to the bent portion and the upper surface of the fixing means, respectively, and fixing the lower surface of the steel stud bearing wall to the basic concrete by another fixing means. Bearing wall construction method.