KR20020009003A - A C-Type stud and the light wall structure utilizing it - Google Patents

Abstract

PURPOSE: A lightweight wall structure by using a C-shaped stud is provided to heighten soundproofing efficiency by improving construction efficiency of a wall structure. CONSTITUTION: The lightweight wall structure by using a C-shaped stud comprises: insulating-waterproofing materials(20) interposed to the middle; a C-shaped stud(50) grasping and fixing the insulating-waterproofing materials(20) and containing a grasp plate(51) formed in a T shape ; and lightweight cellular concrete(30) filled to both sides of the insulating-waterproofing materials(20) to heighten noise insulation efficiency, wherein exterior boards(40) are attached to both sides of a cellular concrete layer.

Description

A-type stud and the light wall structure utilizing it

The present invention relates to a prefabricated wall structure that can be quickly and easily partitioned inside the building to separate the building into various spaces, and in particular, to hold the insulation sound insulation material inserted into the adjacent side by forming a grip plate in the center of the stud Meanwhile, the present invention relates to a seam stud and a lightweight wall structure using the same, which improve the sound insulation performance as well as the insulation sound insulation performance by filling lightweight foam concrete on both sides of the insulation sound insulation material.

In general, offices, factories, and houses are partitioned inside to divide spaces for efficient use of spaces, and thus, simple prefabricated wall structures are frequently used to divide spaces into spaces. Such a prefabricated wall structure is not only easy to construct, but also can be installed without burdening the building. In addition, the use of facilities is increasing day by day because of the low cost and rapid operation. These prefabricated wall structures are required for structural strength and insulation, fire resistance and sound insulation. Thus, the prefabricated wall structure is filled with insulation between the fire-resistant inner / outer plate material spaced at regular intervals.

However, the wall structure such as the glass surface or the pressing material, such as heat insulation fireproof and at the same time as the room, sound insulation as well. However, this alone has a limitation of sound insulation, and the wall structure having the structure described above has a problem in protecting the privacy while at the same time deteriorating the living environment by transmitting noise or sound to a neighboring space. Therefore, in order to improve sound insulation performance, the sound insulation is inserted and fixed in the middle of the heat insulating material, and a conventional example thereof is disclosed in FIG. 1.

FIG. 1 is a block diagram of a wall structure using a conventional stud, and a sound insulation material 12 made of a plate having a predetermined thickness is gripped through an approximately r-shaped stud 10 in the middle of the wall structure. Then, by filling the heat insulating material 14 on both sides thereof, the exterior plate member 16 is attached and finished. However, the wall structure of such a structure has a limit of sound insulation performance as the sound insulating material 12 inserted in the middle and the heat insulating material 14 filled in both sides. And, there is a disadvantage in that the construction is difficult and the work is slow. In addition, it is difficult to realize perfect sound insulation with insulation material such as asbestos or arc room and sound insulation material of thin plate, which prevented the privacy of neighboring house and acted as a factor that hindered the realization of pleasant living environment.

Accordingly, an object of the present invention is to devise to solve the above-mentioned drawbacks, and to form a grip plate portion in the center of the stud and to bend to the insulation sound insulation material inserted into the adjacent side elastic support and lightweight on both sides of the insulation sound insulation material The present invention provides a lightweight wall structure using a seed stud that can improve sound insulation performance and reduce weight by filling foam concrete.

In addition, another object of the present invention is to provide a seed stud to elastically support the thermal insulation sound insulating material by bending the grip plate portion formed in the wall structure at regular intervals and stamped in the center on both sides.

1 is a block diagram of a wall structure using a conventional stud,

2 is a block diagram of a lightweight wall structure according to the present invention,

3a and 3b is a perspective view and a state of use showing an embodiment of the seed stud according to the present invention,

4 is a perspective view showing another embodiment of the seed stud according to the present invention,

5 is a perspective view showing another embodiment of the seed stud according to the present invention,

Figure 6 is a perspective view showing another embodiment of the seed stud according to the present invention,

7 is a perspective view showing another embodiment of the seed stud according to the present invention,

8A and 8B are views showing embodiments of the seed stud to be applied to the above embodiments to improve the flowability of foam concrete.

* Code descriptions for the main parts of the drawings

20: insulation sound insulation material 30: foam concrete

40: exterior plate material 50: seed stud

51; Gripping plate portion 52: space portion

53: mounting hole 54: flow hole

60: grip piece 61: body plate

62: holding plate 63: clip portion

Lightweight wall structure using the seed stud according to the present invention for achieving the above object, in the wall structure of the building, the insulation sound insulation inserted in the middle; Seed stud for gripping the insulation sound insulation material; And lightweight foamed concrete filled on both sides of the thermal insulation soundproofing material.

Seed stud according to the present invention for achieving the above another object in the stud is inserted into the wall structure to grasp the heat insulation sound insulation material of a certain size, bent by spaced apart the thickness width of the heat insulation sound insulation material in the central portion along the longitudinal direction A pair of gripping plate portions to be formed are provided at regular intervals.

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

2 is a block diagram of a lightweight wall structure according to the present invention.

As shown in the figure, the light weight wall structure inserts a heat insulating soundproof material 20 in the middle, and fills the foamed foam 30 with light weight on both sides thereof to increase sound insulation. Of course, the exterior plate material 40 is fixed to both sides of the foam concrete layer. Here, a lightweight styrofoam or the like is used as the heat insulation soundproofing material 20, and the foamed concrete 30 is filled in the exterior plate material 40 to be hardened to form a lightweight concrete layer. At this time, in order to support and fix the insulation sound insulation material 20, which is standardized and produced in a certain size, in the middle of the wall structure, the insulation sound insulation material 20 is grasped and fixed through the seed stud 50 for each size of the insulation sound insulation material 20. . The seed stud 50 is provided with a grip plate portion 51 for holding the heat insulating soundproof material 20 at the center portion thereof, and the grip plate portion 51 is bent to the front and back to hold the heat insulating soundproof material 20. Therefore, the holding plate 51 is a pair of holding plate portions 51a, 51b, 51c, 51d spaced apart by the thickness of the insulating sound insulating material 20, in particular to both sides to hold the insulating sound insulating material 20 on both sides. Two pairs of gripping plate portions 51a, 51b, 51c, and 51d that can be bent are formed. The gripping plate portions 51 which are bent to both left and right sides are formed at equal intervals along the length of the seed stud 50 to increase the gripping force. These gripping plate parts may be configured by attaching a separate gripping piece in addition to being integrally press-molded at the central portion of the body of the stud 50. In addition, the stud 50 has a structure that can be completely filled while the bubble concrete 30 is filled through the flow hole (not shown) at equal intervals along the longitudinal direction through the stud (50). This stud will be described in detail with reference to the following Examples.

3a and 3b is a perspective view and a state diagram showing an embodiment of the seed stud according to the present invention.

The seed stud 50 press-forms the holding plate part 51 which grips the heat insulation soundproof material 20 along the center part in the longitudinal direction. The gripping plate part 51 is bent to the left and right to hold the insulating sound insulating material 20. For this purpose, the gripping plate parts 51 are separated by a thickness of the insulating sound insulating material 20 to form a pair. The paired holding plate portions 51a and 51b are bent to approach each other, thereby holding and fixing both sides of the insulating sound insulating material 20. The holding plate part 51 is formed in substantially T-shape, and the space part 52 is formed so that the periphery may be partially lost and it may be easy to hold and bend by a hand or a tool.

Of course, both sides of the stud 50 is equipped with a heat insulating soundproof material 20, so the stud 50 is a pair of holding plate parts 51a, which can be bent to both sides in order to hold the heat insulating soundproof material 20 on both sides, 51b, 51c, and 51d are formed. Therefore, the pair of gripping plate portions 51a and 51b paired to face each other to grip the insulating sound insulating material 20 in close contact therewith, and the other pair of gripping plate portions 51c and 51d adjacent to each other. By bending oppositely, the heat-insulating soundproofing material (not shown) mounted thereon is gripped. The gripping plate portions 51a, 51b, 51c, and 51d which are bent to both left and right sides are formed at regular intervals along the length of the seed stud 50 and are continuously gripped to both sides along the length of the heat insulation soundproofing material 20 so that the gripping force is increased. You will double.

Figure 4 is a perspective view showing another embodiment of the seed stud according to the present invention, by drilling a mounting hole 53 at regular intervals in the center portion along the longitudinal direction of the seed stud 50, through the sound insulation material (not shown) ), The holding pieces (60) for gripping. In particular, the mounting hole 53 is a substantially rectangular hole, through which a pair of identical gripping pieces 60 are inserted into both sides to be fixed to face each other. The gripping piece 60 forms a pair of gripping plate portions 62 in front of the body plate portion 61, and provides a clip portion 63 that is bent backward from the body plate portion 61. Accordingly, the clip portion 63 is inserted into the mounting hole 53 to fix the mounting portion. In this way, the pair of gripping pieces 60 and 60a are inserted and fixed to both sides in one mounting hole 53 so that the gripping pieces 60 and 60a are positioned on both sides of the rear surface of the stud 50 so as to be mounted on both sides. Insulating sound insulation is made and fixed.

Figure 5 is a perspective view showing another embodiment of the seed stud according to the present invention. As shown, the seed stud 50 drills a mounting hole 53 on the stud and mounts and holds a grip piece 60a having one bent grip plate portion 62a thereon, and is then mounted adjacent thereto. The gripping piece 60b having the gripping plate portion 62b bent at the other side is mounted to the ball 53a to grasp and fix the heat insulating soundproofing material on one side. In addition, the mounting holes (53, 53a), the holding pieces (60c, 60d) located on the rear side in a different direction (down) than the holding pieces (60a, 60b) for holding the one side of the insulating sound insulation material Will be installed. Only one grip plate portion 62c, 62d is bent in the rear side grip pieces 60c, 60d, that is, the grip plate portions of neighboring grip pieces are alternately bent and gripped to fix the rear side insulation sound insulating material therebetween. Done.

Figure 6 is a perspective view showing another embodiment of the seed stud according to the present invention, forming a mounting hole 53 in the body of the stud 50 to mount the gripping piece 60, a pair of gripping adjacent thereto By indenting the plate parts 51 and 51a and bending them to the opposite side, the heat insulating sound insulating material on both sides is gripped and fixed. Of course, the gripping piece 60 mounted on the paired studs 50 and the gripping plate portions 51 and 51a formed in the opposing shape are located in such a way that the gripping plate portions are bent and projected, and are paired and the studs 50 are formed. Several are constructed along the length of).

Figure 7 is a perspective view showing another embodiment of the seed stud according to the present invention.

The seed stud 50 drills the mounting hole 53 in the stud as shown in another method, and mounts and holds the grip piece 60 having one bent grip plate portion 62 thereon, The pair of holding plate portions 51 and 62 may be formed by press-molding the holding plate portion 51 on the body of the stud adjacent to and spaced apart by the width of the insulation sound insulation material.

8A and 8B are views showing embodiments of the seed stud for improving the flowability of foam concrete applied to the above embodiments.

The seed stud 50 is interposed in the middle to support the heat insulating soundproofing material, and after fixing the heat insulating soundproofing material, the foamed concrete is poured on both sides to form a lightweight foamed concrete layer. At this time, a plurality of flow holes (54) along the longitudinal direction in the stud 50 so that the foamed concrete is poured well to the inside of the stud 50 or can be filled to every corner of the space through the stud 50 during filling The perforated foams allow the foamed concrete to flow.

These flow holes are punched while the gripping plate portion 51 and the flow holes 54 are alternately formed as shown in FIG. 8A when the gripping plate portion 51 is integrally formed on the stud 50. On the other hand, in the case of the mounting stud 50 on which the gripping piece 60 is mounted, the mounting holes 53 and the flow holes 54 are alternately formed as shown in FIG. 8B. Of course, the flow holes 54 may be variously implemented as holes in triangles or other polygons in addition to the rectangular or circular holes.

As described above, the present invention inserts a styrofoam which is a heat-insulating soundproofing material inside the wall structure, press-forms the grip plate portion in the center of the stud and bends to the styrofoam entered into the adjacent side to improve elasticity and sound insulation performance. It has an improved effect. As a result, the bending width of the gripping plate part varies according to the insulating sound insulating material having a different thickness, and thus, the insulating sound insulating material having various thicknesses can be applied. In addition, the present invention has the advantage that it is possible to exhibit almost perfect sound insulation by forming a lightweight foam concrete layer on both sides of the heat insulating soundproofing material. In particular, the present invention is used for the generation and generation of high-rise buildings, wall partitioning between the house and the house can be lightweight construction has the effect of improving the safety of high-rise buildings more.

Claims (9)

In the wall structure of a building, Thermal insulation sound insulation inserted in the middle; Seed stud for gripping the insulation sound insulation material; And Lightweight wall structure using a seed stud containing a lightweight foam concrete filled to both sides of the insulation sound insulation. The lightweight wall structure according to claim 1, wherein a lightweight styrofoam is used as the heat insulation sound insulation material. In the stud is inserted into the wall structure to grasp and fix the heat insulation sound insulation of a certain size, Seed stud, characterized in that provided in the central portion along the longitudinal direction a pair of gripping plate portion is formed by bending at a predetermined interval spaced apart by the thickness width of the insulation soundproofing material. 4. The seed stud according to claim 3, wherein the gripping plate part is formed in the center portion along the longitudinal direction of the stud by a plurality of gripping parts. 5. The seed stud according to claim 4, wherein the gripping plate portion is bent in a pair in the front and the other in the rear to grasp and fix the heat insulation soundproof material mounted on the back. The seed stud according to claim 3, wherein the gripping plate portion is formed by drilling a mounting hole in the stud and inserting a gripping piece having a gripping plate portion formed in the mounting hole. 7. The seed stud according to claim 4 or 6, wherein the gripping piece of the mounting type and the gripping plate part which is stamped and formed are alternately formed in a regular rear surface. 4. The seed stud according to claim 3, wherein the pair of gripping plate portions bent in the same direction is one gripping plate portion bent from the gripping piece, and the other is a gripping plate portion integrally press-formed. 4. The seed stud according to claim 3, wherein flow holes through which bubble concrete to be filled are flowed between the gripping plate portions are perforated.