KR100752961B1 - Rigid steel floor frame and construction method thereof - Google Patents

Abstract

The present invention relates to a floor structure of a building structure using steel studs, the floor structure of the present invention, a plurality of steel studs 10 and the plurality of steel studs arranged in the transverse or longitudinal direction at equal intervals The bottom surface is coupled to the flange (11) of the plurality of first concrete plate 20 to connect the plurality of steel studs 10 and pipe 40 and the fastening bolt on the upper surface of the first concrete plate 20 It is composed of a plurality of second concrete plate 30 coupled to each other via 42, and a rubber plate 50 disposed on the lower surface of the plurality of steel studs 10, respectively. The floor structure of the present invention can secure the lateral rigidity through a concrete plate of a certain weight that is integrally coupled to the upper portion of the steel stud, and can also obtain a vibration reduction effect through the rubber plate disposed on the bottom surface of the steel stud.

Description

Floor structure and construction method using steel studs

1 is a perspective view of a conventional steel stud,

2 is a perspective view showing a floor structure using a steel stud according to the prior art,

Figure 3 is a perspective view showing the whole floor structure using a steel stud according to an embodiment of the present invention,

4 is an enlarged perspective view illustrating a portion of the floor structure shown in FIG. 3 in an enlarged manner;

5 is an exploded perspective view showing a coupling relationship of the floor structure shown in FIG.

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

10 steel stud 11 flange

12: web 20: first concrete plate

21: insertion groove 22: semi-circular groove

30: first concrete plate 31: semi-circular groove

32: through hole 40: pipe

41: fastening hole 42: fastening bolt

50: rubber plate

The present invention relates to a floor structure of a building structure using a steel stud, and more particularly, to a floor structure using a steel stud that can achieve a vibration reduction effect and structural performance in the construction of the floor structure dry. In addition, the present invention also relates to a method for constructing a floor structure using a steel stud that can achieve the effect of reducing vibration and improving structural performance.

1 is a perspective view of a conventional steel stud, as shown in FIG. 1, the steel stud 1 is a section steel having a cross-section "c" shape. These steel studs (1) are located between the H-beams that are pillars of the building is used as a reinforcement of the building wall, or may be used as a joist in the floor structure of the building.

When the floor structure is formed using the steel studs 1 as described above, dry or wet construction is performed according to the characteristics of the building structure, and various building materials are attached to the upper and lower surfaces of the steel studs 1 according to the construction method. . Thus, in the case of the floor structure using a steel stud excessive vibration of the floor occurs depending on the load.

In the case of the wet construction method, the bottom structure is formed by placing concrete on the upper surface of the steel stud. In this case, the vibration performance is improved by the poured concrete, but there is a disadvantage in that construction time is required.                         

In the dry construction method, the floor structure is formed by a diaphragm structure in which a plywood is installed on the upper surface of the steel stud. There is a disadvantage that the performance is significantly reduced. In order to make up for the disadvantages of the dry construction method, a rubber plate may be attached to the lower surface of the steel stud. In order to reduce vibration by using an insulating material such as a rubber plate, such as a concrete plate, which is a heavy object on the upper surface of the steel stud, Vibration reduction effect can be obtained only if the loading part is placed.

Thus, conventionally, as shown in FIG. 2, the extruded concrete plate 2, which is a heavy object, is disposed on the upper surface of the steel stud 1, and the rubber plate 3, which is an insulating material, is disposed on the lower surface of the steel stud 1. The bottom structure was formed by placing. That is, the conventional floor structure is configured to insert the concrete plate 2 on the upper surface of each steel stud 1, as shown in Figure 2 and is not configured to connect the steel studs 1 to each other. Therefore, there is a disadvantage in that the role of the diaphragm cannot be sufficiently performed for the lateral load.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, by using a steel stud to secure the transverse rigidity by arranging a concrete plate of a certain weight to be integrally integrated on the top of the steel studs The object is to provide a structure and a construction method thereof.

Structure of the present invention for achieving the above object, a plurality of steel studs arranged in the transverse or longitudinal direction at equal intervals, and the bottom surface is coupled to the flange of the plurality of steel studs to connect the plurality of steel studs to each other To include a plurality of first concrete plate, and a plurality of second concrete plate is coupled to each of the upper surface of the first concrete plate through a fastening means, wherein the first, the second concrete plate is another first disposed before and after It is characterized in that the staggered with the second concrete plate.

In addition, the construction method of the structure according to the invention, the plurality of steel studs are arranged in the transverse direction or longitudinal direction at equal intervals, and the insertion grooves formed on the lower surface of the first concrete plate on the flange of the plurality of steel studs Respectively connecting the plurality of steel studs to each other, and inserting a pipe having a fastening hole into a circular groove formed by the first concrete plate and the second concrete plate disposed on the upper surface of the first concrete plate; And inserting a fastening bolt into a through hole formed in an upper surface of the second concrete plate, and then fastening to a fastening hole of the pipe, thereby coupling the first concrete plate and the second concrete plate to each other. It features.

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

3 is a perspective view showing a bottom structure using a steel stud according to an embodiment of the present invention as a whole, Figure 4 is an enlarged perspective view showing a portion of the bottom structure shown in Figure 3, Figure 5 is a An exploded perspective view showing the coupling relationship of the floor structure shown.                     

3 to 5, the bottom structure using the steel stud of the present invention is a plurality of steel studs 10 arranged in the transverse direction (or longitudinal direction) at equal intervals, and the steel stud 10 A plurality of first concrete plates 20 having a length to be connected to and fixed to the flanges 11 of the plurality of steel studs 10 arranged at equal intervals, and on top of the first concrete plates 20, respectively. It is composed of a second concrete plate 30 is coupled.

The steel studs 10 are conventional steel studs, each arranged so that both flanges 11 face up and down and the webs 12 face side.

In addition, the first concrete plate 20 has a length capable of connecting a plurality of steel studs 10 to each other, the lower surface of the first concrete plate 20 has the same spacing as the arrangement interval of the steel stud 10 A plurality of insertion grooves 21 are formed. The insertion groove 21 is formed in the width direction of the first concrete plate 20 is formed in a size that can be fitted to the flange 11 of the steel stud (10). In addition, semicircular grooves 22 having a predetermined depth are formed on the upper surface of the first concrete plate 20 at regular intervals in the longitudinal direction from the corners of the front and rear surfaces.

In addition, the second concrete plate 30 is coupled to be in contact with the upper surface of the first concrete plate 20, the lower surface of the second concrete plate 30 in the semi-circular groove 22 of the first concrete plate 20 Semi-circular grooves 31 which are formed correspondingly to form one circular groove are formed, respectively. Further, through holes 32 perpendicular to the semicircular grooves 31 are formed on the upper surface of the second concrete plate 30.                     

The first concrete plate 20 and the second concrete plate 30 configured as described above are formed in the pipe 40 and the fastening holes 41 of the pipes 40, each of which has fastening holes 41 formed at both end portions thereof. It is coupled by a fastening bolt 42 is fastened. That is, as the first and second concrete plates 20 and 30 are bonded to each other, one side of the pipe 40 is inserted into circular grooves formed at the front and rear surfaces, respectively, and is formed on the upper surface of the second concrete plate 30. The fastening bolts 42 are inserted into the through holes 32 and then fastened to the fastening holes 41 formed on one side of the pipe 40, thereby being coupled to each other. Then, the other side of the pipe 40 is inserted into a circular groove formed by the other first and second concrete plates 20 and 30 respectively disposed before and after, and penetrating formed on the upper surface of the second concrete plate 30. The fastening bolt 42 is inserted into the hole 32 and then coupled to the fastening hole 41 formed on the other side of the pipe 40.

Through such a series of processes, the first and second concrete plates 20 and 30 are coupled to the upper portion of the steel stud 10 in an integrated form. That is, in order to construct the floor structure of the present invention, first, the plurality of steel studs 10 are arranged in the transverse direction or the longitudinal direction at equal intervals, and then the first flanges 11 of the plurality of steel studs 10 are arranged. The insertion groove 21 of the concrete plate 20 is fixed by fitting, and the second concrete plate 30 may be coupled to the first concrete plate 20 through the pipe 40 and the fastening bolts 42. At this time, the first and second concrete plates 20 and 30 are alternately arranged to be coupled with the first and second concrete plates 20 and 30 arranged before and after. The first and second concrete plates 20 and 30 are alternately arranged in such a manner as to be integrated so as to secure the lateral rigidity and also serve as a diaphragm.

And the rubber plate 50 which is an insulating material is arrange | positioned at the lower surface of the steel stud 10. This rubber sheet serves to prevent the vibration of the floor from being transmitted to the substructure.

The structure of the present invention configured as described above may be used to construct a wall structure using a steel stud to replace the rubber product having a heat shield function instead of the rubber plate as an insulating material and to stand the frame as it is.

As described in detail above, the floor structure using the steel stud of the present invention has an effect of securing lateral rigidity through a concrete plate of a certain weight that is integrally coupled to the top of the steel stud.

In addition, the floor structure using the steel stud of the present invention can obtain a vibration reduction effect through the rubber plate disposed on the lower surface of the steel stud.

Although the technical details of the floor structure using the steel stud of the present invention and the construction method thereof are described together with the accompanying drawings, this is for illustrative purposes only and is not intended to limit the present invention.

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

Claims (5)

In the structure of the building structure using a steel stud, A plurality of steel studs arranged in the transverse or longitudinal direction at equal intervals, a plurality of first concrete plate coupled to the flange of the plurality of steel studs to connect the plurality of steel studs with each other, and the first It includes a plurality of second concrete plate is coupled to each other through the fastening means on the upper surface of the concrete plate, The first and the second concrete plate is a structure using a steel stud, characterized in that the staggered arrangement with other first and second concrete plates arranged before and after. According to claim 1, The upper surface of the first concrete plate is formed with a semi-circular groove of a predetermined depth at a predetermined distance in the longitudinal direction at the corners of the front and rear surfaces, respectively, the lower surface of the second concrete plate is the first concrete Semi-circular grooves are formed to correspond to the semi-circular grooves of the plate to form one circular groove, respectively, and the through-holes vertically penetrating the semi-circular grooves are formed on the upper surface of the second concrete plate. Structure using steel studs. The pipe of claim 2, wherein the fastening means may be inserted into circular grooves formed by the first and second concrete plates, and the fastening holes may be respectively formed at both end portions thereof, and may be fitted into the through holes. Structure using a steel stud, characterized in that consisting of a fastening bolt fastened to the fastening hole of the. The structure using a steel stud according to any one of claims 1 to 3, wherein a rubber plate is disposed on a lower surface of the steel stud. In the construction method of the structure using a steel stud, Arranging a plurality of steel studs in the horizontal direction or the longitudinal direction at equal intervals, and connecting the plurality of steel studs to each other by coupling insertion grooves formed in the lower surface of the first concrete plate to flanges of the plurality of steel studs, respectively. And inserting a pipe having fastening holes into a second concrete plate disposed on an upper surface of the first concrete plate and a circular groove formed by the first concrete plate, and on an upper surface of the second concrete plate. And inserting the fastening bolt into the formed through hole and fastening to the fastening hole of the pipe to couple the first concrete plate and the second concrete plate to each other.

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