KR100932733B1 - Wall structure of building with heat transfer prevention function - Google Patents

Abstract

The present invention relates to a wall structure of a building having a heat transfer preventing function, and more particularly, to form an exterior wall or partition an interior space by assemble and connect a plurality of prefabricated lightweight blocks between a ceiling slab and a floor slab of a building. In the configuration, the wall frame and the upper rail is installed on the ceiling slab and the lower rail is installed on the bottom slab, and the wall frame configured to include a plurality of heat transfer prevention frame is installed to slide between the upper rail and the lower rail Consists of a plurality of lightweight blocks that are masonry, connected to the inside of the wall frame and concrete mortar applied to the front and back of the lightweight block, there is an effect that the heat transfer to other lightweight blocks by the heat transfer prevention frame when the topic occurs. .

Lightweight block, upper rail, lower rail, heat transfer prevention frame

Description

Wall structure of the building with the function prevention of heat transfer

The present invention relates to a wall structure of a building having a heat transfer preventing function, and more particularly, a plurality of heat transfer preventing frames are installed to be installed on upper and lower rails and upper and lower rails installed on ceiling and floor slabs. The present invention relates to a wall structure of a building having a heat transfer prevention function, in which a wall frame is formed, and a light weight block is formed inside the wall frame to block heat transfer to another light weight block by a heat transfer prevention frame when a topic occurs.

In general, the outer wall or inner wall of a building has a cement block composed of rectangular hexahedron and a cement block such as cement mortar on the cement brick, and another cement block and a lightweight block placed on the cement block and the cement brick underneath. The masonry walls are constructed by stacking them sequentially.

In such masonry wall, the external exposed part except the window part is used for exterior, and the insulation is inserted into the internal space after the double space wall is stacked in accordance with the heat permeation rate, so as to respond to the temperature change from the outside, or a separate insulation is attached to the inside and the outside. Was used.

Wall construction using cement blocks not only makes the process complicated, but also makes the wall thick, which reduces the effective effective area, the weight per unit volume of the wall, and the internal space is completely sealed from the outside due to the use of insulation. Deodorization and humidity control is not made at all, the process is complicated, labor costs are increased, there was a problem that can not reduce material costs.

In addition, the formed internal space of the building undergoes a process of arranging the partition to be suitable for the purpose of use, and in most of the division of the internal space of the building, permanent wall construction was generally involved. As a general construction material used for the interior wall construction, cement brick is adopted, and in general, wall construction is performed by most of the masonry construction of the cement brick, so that the interior space of the building is made. However, when the inner wall is configured as described above, there are problems such as sick house syndrome due to various harmful substances generated from cement, and there is a problem in that the expansion and change of the plane are impossible due to the weight of the unit volume and the wall made of concrete.

The present invention is to form a wall to form the outer wall or partition the interior space by assemble and connect a plurality of prefabricated lightweight blocks between the ceiling slab and the floor slab of the building, the upper rail and the floor slab installed in the ceiling slab A plurality of lightweight blocks and a plurality of lightweight blocks that are masonry and connected to the inside of the wall frame and a wall frame including a lower rail is installed, and a plurality of heat transfer prevention frame is installed to slide between the upper rail and the lower rail Characterized in that made of concrete mortar applied to the front and back corresponding thereto.

In addition, a guide protrusion is formed on the upper rail and the lower rail, and guide grooves provided with guide members are formed at both ends of the heat transfer preventing frame, and the guide member is guided to the guide protrusion and slides. do.

In addition, the lightweight block is characterized in that a plurality of fastening grooves are further formed so that the concrete mortar is filled.

In addition, a plurality of protrusions are formed on the front or rear surface of the lightweight block, characterized in that the filling groove is further formed on the upper surface of the protrusion so that the concrete mortar is filled.

" 형상으로 형성되어 연결되는 상기 경량블록 사이에 개재되는 것을 특징으로 하다.In addition, the cross section of the heat transfer prevention frame is "

It is characterized in that interposed between the lightweight blocks formed and connected to the shape.

In addition, the lightweight block is characterized in that it is made of any one of the styrofoam, ocher plastics or clay plastics of the compressed form.

In addition, in forming a wall that forms an outer wall or partitions an inner space by stacking a plurality of lightweight blocks between the ceiling slab and the floor slab of the building, the upper guide groove formed in the ceiling slab and the lower portion formed in the floor slab A plurality of heat transfer prevention frames and guides provided at both ends of the guide grooves, the upper guide grooves and the lower guide grooves, and between the upper guide grooves and the lower guide grooves. Lightweight blocks and the front of the light block and characterized in that consisting of the concrete mortar is applied to the back corresponding thereto.

The present invention installs the upper rail and the lower rail installed on the ceiling and floor slab and install a plurality of heat transfer prevention frames to slide on the upper and lower rails to form a wall frame, by assemble a light weight block in the wall frame In the event of a fire, heat transfer is blocked by the heat transfer prevention frame to other lightweight blocks.

In addition, after installing the wall frame on the ceiling and the floor slab can be installed in the light weight block to be guided inside the wall frame has the effect that the general public can easily install the wall.

Hereinafter, exemplary embodiments of a wall structure of a building having a heat transfer preventing function according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention but merely presented by way of example, and there may be various embodiments implemented through the present invention.

1 is a perspective view showing a wall structure of a building having a heat transfer preventing function according to the present invention, Figure 2 is a perspective view showing a wall frame in the wall structure of a building having a heat transfer preventing function according to the present invention, Figure 3 is In the wall structure of a building having a heat transfer prevention function according to the present invention, a perspective view showing a state in which a light weight block is stacked on the wall frame.

As shown in the drawing, the wall structure 1 of the building having a heat transfer preventing function (hereinafter, referred to as a wall) is formed by connecting and connecting a plurality of prefabricated lightweight blocks between the ceiling slab 100 and the floor slab 200 of the building to form an outer wall. Forming or partitioning the internal space, it comprises a wall frame (2), lightweight block (3) and concrete mortar (4).

Here, the wall frame (2) is the upper rail 21 is installed on the ceiling slab 100 and the lower rail 22 is installed on the floor slab 200, the upper rail 21 and the lower rail It comprises a plurality of heat transfer prevention frame 23 which is installed to slide between (22). That is, the upper rail 21 and the lower rail 22 are fixed to the ceiling and the bottom slab 100 and 200 by an anchor bolt (not shown) or a screw connection method as long as the wall 1 is formed, and then heat transfer prevention. The frame 23 is supported by the guide protrusion 221 formed on the upper rail 21 and the lower rail 22 and installed to slide.

At this time, the heat transfer prevention frame 23 is installed to prevent the heat from being transmitted to the other block 3 connected in the longitudinal direction in the event of a fire, it is preferable to form the material of aluminum or metal material.

In addition, guide protrusions 211 and 221 are formed on the upper rail 21 and the lower rail 22, and guide grooves 23 having guide members 231 are formed at both ends of the heat transfer preventing frame 23. As a result, the guide member 231 is guided to the guide protrusions 211 and 221 and is able to slide by the pressure of the operator.

" 형상으로 형성되어 연결되는 상기 경량블록(3) 사이에 개재되며, 안착홈(232)과 끼움홈(233)이 절곡된 구조로 형성된다.The cross section of the heat transfer preventing frame 23 is "

Interposed between the lightweight block (3) is formed and connected in a shape, the mounting groove 232 and the fitting groove 233 is formed in a bent structure.

The wall frame (2) is configured as described above by bundling the lightweight block (3) to be guided to the upper, lower rails (21, 22) and the heat transfer prevention frame 23 installed masonry of blocks that can only be expert, The public will be able to work easily.

And, the light block 3 is a plurality of masonry, is connected to the inside of the wall frame (2). In addition, a fastening protrusion 34 and a fastening groove 35 are formed on the side of the light block 3, and the light block 3 is interposed between the light block 3 with the heat transfer preventing frame 23 therebetween. They are assembled and connected together. At this time, the light weight block 3 is laminated to the concrete mortar (4) on the upper surface to be bonded to the other light block (3). In addition, it is preferable to form a groove in the light weight block 3 which is in contact with the upper rail 21 and the lower rail 22 among the light weight blocks 3 to be stacked to be fitted and fixed to the guide protrusions 211 and 221. .

Here, it is also possible to form a coupling protrusion and a coupling groove (not shown) on the upper and lower surfaces of the lightweight block 3 so that a plurality of lightweight blocks 3 are assembled and stacked on each other.

The lightweight block 3 may be formed of any one of styrofoam, ocher plastic or clay plastic in the compressed form, and in the present invention, the styrofoam in the compressed form is used.

In the manufacture of the ocher or clay bodies, the raw materials are continuously extruded into the molding machine through a pulverization, sieving, mixing, filtration, and kneading process by granulator through an automatic manufacturing process. And it is preferable to manufacture the molded molding through a series of automated processes that are cut in accordance with the standard and dried in the shade and then fired in a gas furnace, but is not limited thereto.

Here, it is preferable that the cement mortar 36 applied by forming the uneven portion 36 on the front surface 31 or the back surface 32 of the lightweight block 3 is supported on the uneven portion 36.

In addition, the concrete mortar 7 is laminated and connected to the light weight block 3 inside the wall frame 2 as described above, and the front surface 31 and the corresponding back surface 32 of the light weight block 3. By applying the concrete mortar 4 to), the construction of the wall 1 is finished.

Alternatively, as shown in FIG. 1, it is also possible to apply the concrete mortar 4 to the entire wall frame 2 and the lightweight block 3.

Figure 4 is a perspective view showing another embodiment of the lightweight block in the wall structure of the building having a heat transfer prevention function according to the present invention, Figure 5 is a lightweight in the wall structure of a building having a heat transfer prevention function according to the present invention A perspective view of yet another embodiment of a block.

4 or 5, in the present invention, a plurality of fastening grooves 33 are formed in the lightweight block 3 to enable the wall 1 to be used as an outer wall in addition to the inner wall of the building. By filling the fastening grooves 33 as well as including the front, back (31,32) of the light weight block 3, it is possible to improve the strength and durability while maintaining lightness in comparison with the concrete block.

At this time, it is preferable to form the fastening groove 33 inclined so that the concrete mortar 4 is easily filled.

In addition, a plurality of protrusions 311 and 321 are formed on the front surface 31 and the rear surface 32 of the light weight block 3, and filling grooves 311a and 321a are formed on the upper surfaces of the protrusions 311 and 321, respectively. It is desirable to increase the strength of the lightweight block by filling (4).

6 is a perspective view showing another embodiment of a wall structure of a building having a heat transfer preventing function according to the present invention.

As shown in the drawings, the present invention is to form a plurality of lightweight blocks between the ceiling slab 100 and the floor slab 200 of the building to form an outer wall or partition the internal space, which is formed in the ceiling slab 100 Lower guide groove 210 formed in the upper guide groove 110 and the bottom slab 200, and is installed to slide between the upper guide groove 210 and the lower guide groove 210 and guide projections at both ends A plurality of heat transfer preventing frames 5 and 51 provided with a plurality of lightweight blocks (6) and the light block 6 is installed and connected between the upper guide groove 110 and the lower guide groove 210. It is composed of a concrete mortar (7) is applied to the front surface 61 and the back surface 62 corresponding thereto. That is, the heat transfer prevention frame 23 is easily installed on the ceiling and the floor slabs 100 and 200 without the upper and lower rails 21 and 22 described above, and then the light weight block 3 is stacked to form the wall 1. It can be formed.

1 is a perspective view showing a wall structure of a building having a heat transfer preventing function according to the present invention.

2 is a perspective view showing a wall frame in the wall structure of a building having a heat transfer preventing function according to the present invention.

3 is a perspective view showing a state in which a light weight block is stacked on the wall frame in the wall structure of a building having a heat transfer preventing function according to the present invention.

Figure 4 is a perspective view showing another embodiment of the lightweight block in the wall structure of the building having a heat transfer prevention function according to the present invention.

5 is a perspective view showing another embodiment of the lightweight block in the wall structure of the building having a heat transfer preventing function according to the present invention.

6 is a perspective view showing another embodiment of a wall structure of a building having a heat transfer preventing function according to the present invention.

Description of the main parts of the drawing

1 wall 2 wall frame

21: upper rail 211: guide projection

22: lower rail 221: guide projection

23: heat transfer prevention frame 231: guide member

232: seating groove 233: fitting groove

3: Lightweight block 31: Bottom

311: projection 311a: filling groove

32: back 321: Doric

321a: Filling groove 4: concrete mortar

5: heat transfer prevention frame 6: light weight block

7: concrete mortar 100: ceiling slab

110: guide groove 200: floor slab

210: guide groove

Claims (7)

In constituting a wall that forms an outer wall or partitions an interior space by assemble and connect a plurality of prefabricated lightweight blocks between the ceiling slab 100 and the floor slab 200 of the building, The upper rail 21 is installed on the ceiling slab 100 and the lower rail 22 is installed on the bottom slab 200, and is installed to slide between the upper rail 21 and the lower rail 22. A wall frame 2 including a plurality of heat transfer preventing frames 23 to be provided; A plurality of lightweight blocks (3) connected to the inside of the wall frame (2); And It is made of a concrete mortar (4) applied to the front surface 31 and the rear surface 32 of the lightweight block corresponding thereto; An uneven portion 36 is formed on the front surface 31 or the rear surface 32 of the lightweight block 3 so that the concrete mortar 4 is applied and supported; The lightweight block (3) is a wall structure of a building having a heat transfer prevention function, characterized in that any one of a compressed form of styrofoam, ocher plastics or clay plastics. The method of claim 1, Guide protrusions 211 and 221 are formed on the upper rail 21 and the lower rail 22, and guide grooves 23 having guide members 231 are formed at both ends of the heat transfer preventing frame 23. The guide member 231 is guided to the guide projections (211,221) and the wall structure of the building having a heat transfer prevention function, characterized in that the sliding movement. The method of claim 1, The lightweight block (3) wall structure of the building having a heat transfer prevention function, characterized in that a plurality of fastening grooves 33 are further formed so that the concrete mortar (4) is filled. The method of claim 1, A plurality of protrusions 311 and 321 are formed on the front surface 31 or the rear surface 32 of the lightweight block 3, and the filling grooves 311a and 321a are filled in the upper surfaces of the protrusions 311 and 321 to fill the concrete mortar 4. The wall structure of the building having a heat transfer prevention function, characterized in that further formed. The method of claim 1, The heat transfer prevention frame 23 has a cross section of "

"Wall structure of the building having a heat transfer prevention function, characterized in that interposed between the light-weight block (3) formed and connected in a shape. delete delete

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