KR100374536B1 - Insulation structure system for one way slab - Google Patents

Abstract

The present invention is to install a slab insulation material of the same height as the thickness of the one-way slab in the one-way slab or at the same level as the one-way slab in the lower portion of the outer wall heat insulating material provided on the outer wall at the portion where the one-way slab and the outer side wall of the building contact. It relates to a heat insulation structural system applied to the one-way slab characterized in that.

Insulating structure system of the present invention is a one-way slab 5 is the main bar is arranged in the long side direction of the building, the one-way slab (5) and the outer wall 7 and the one-way slab disposed in the long side direction of the building to contact the outside air ( 5) a structure comprising an inner wall 15 which is disposed in a short side direction of the building and orthogonal to the outer wall 7, an outer wall insulating material 10 installed on the outer wall 7, and the outer wall insulating material 10 or the At the junction of the outer wall 7 and the one-way slab 5 on the same vertical surface as the inner side of the outer wall 7, the center of the outer wall 7 at the same level as the one-way slab 5 or the one-way slab 5 or It is composed of a slab insulating material 11 is installed on the lower inner side.

The insulation structure system applied to the one-way slab of the present invention secures the continuity between the upper and lower outer wall insulations cut by the slab between the floors, and completely partitions the indoor and outdoor parts of the apartment house by the insulation to minimize condensation and floor slab. Heating efficiency is excellent because it can fundamentally block heat loss.

Description

Insulation structure system for one way slab

The present invention relates to an insulating structure system applied to a one-way slab. More specifically, the present invention provides a slab insulation material having a height equal to the thickness of the one-way slab in the one-way slab or the one-way slab in the lower portion of the outer wall heat insulating material provided on the outer wall at the portion where the one-way slab and the outer side wall of the building contact. The present invention relates to a heat insulation structural system applied to a one-way slab characterized in that it is installed at a level.

In the conventional floor heating system, as shown in FIG. 1, the hot water floor heating system mainly consists. The hot water floor heating system is a hot water ondol structure, installed on the moisture-proof layer formed by laying a moisture-proof film on the floor slab base surface without any gaps, and the junction is glued and fixed with a moisture-resistant tape, the hot water pipe ( 1) After filling the mortar and filling the mortar or placing hot water pipe on the insulation layer formed by pouring foam concrete on the floor slab, the method of floor plastering is mainly used.

In such a conventional floor heating system, to prevent heat loss through the floor slab, even if a heat insulating material is installed between the floor slab and the heat dissipation layer (3) or foam concrete is poured to form a heat insulating layer (4) in accordance with the standard, complete insulation In order to ensure the thickness of the insulation layer (4) above the norm, a substantial amount of heating energy is actually conducted through the floor slab to the outer wall (7) and the balcony, and the heating energy of the lower floor is also released through the floor slab of the ceiling There is a problem that the efficiency is lowered.

In addition, as shown in FIG. 2, a method of installing a heat insulating strip 8 at a portion where the floor heating system and the outer wall 7 contact each other is used. However, the method of installing the heat insulation strip 8 only prevents a part of heat loss from the floor heating system to the outer wall 7 and is not a fundamental measure of preventing heat loss through the slab structure.

The object of the present invention is to secure the continuity between the outer and outer wall insulation of the upper and lower layers cut by the slab between each floor, to completely partition the indoor and outdoor of the apartment house by the insulation to minimize condensation and heat loss on the floor slab surface It is to provide an insulation structure system applied to one-way slab with excellent heating efficiency that can be basically blocked.

1 is a cross-sectional view, a partial detailed view and a heat loss conceptual diagram of a conventional floor heating system.

2 is a cross-sectional view of a floor heating system provided with a conventional heat insulation strip.

3 is a conceptual diagram of a one-way slab of a multi-family house.

4A is a cross-sectional view of installing a slab insulation material in the lower portion of the outer wall insulation material provided in the center of the upper outer wall, when the outer wall is located in the lower slab.

4B is a cross-sectional view of the slab insulation material provided in the lower portion of the outer wall insulation material provided in the center of the upper outer wall, when the window is located in the lower slab.

5 is a cross-sectional view of the slab insulating material is installed in the lower portion of the outer wall insulating material provided on the inner side of the outer wall.

6A is a cross-sectional view of installing a slab insulation material based on the inner side surface of the upper outer wall when the outer wall is located below the slab.

6B is a cross-sectional view of installing a slab insulation material based on the inner surface of the upper outer wall when the window is located in the lower slab.

7 is a cross-sectional view of the slab insulation material provided on the joint surface of the one-way slab and the pulverized beam.

8A and 8B are sectional views in which the slab insulation material is installed in a shear key shape so that the one-way slab and the balcony slab are engaged.

Fig. 9A is a sectional view and a partial detailed view of a slab insulation material having a plurality of holes formed therein so that the rebar can be penetrated.

FIG. 9B is a cross-sectional view of selectively installing slab insulation between only the upper and lower reinforcing bars and the lower part of the upper or lower reinforcing bars in the one-way slab.

FIG. 10 is a plan view and a partial detailed view in which inner wall side insulation is installed at an upper and lower predetermined ranges centering on a floor slab on a joint surface of a long side outer wall of a building and a short side inner wall of a building.

11 is a plan view and a partial detailed view in which the slab insulation material is installed on the joint surface to a certain extent from the left and right outer walls of the building and the long side inner wall of the building at the joint surface of the short side outer wall of the building and the one-way slab; to be.

12A and 12B are plan views in which straight and uneven slab insulation materials are provided on the joint surfaces of the one-way slab and the outer side walls of the building, respectively.

<Short description of the symbols in the drawings>

1: hot water pipe 2: finishing layer

3: heat insulation layer 4: heat insulation layer

5: one-way slab 6: balcony slab

7: outer wall 8: insulation strip

10: outer wall insulation 11, 11a, 11b, 11c, 11d: slab insulation

12: cantileverbo 13: window frame

14: Insightful 15: Inner Wall

16: rebar 17: inner wall side insulation

The present invention will be described with reference to the drawings.

3 is a conceptual view of a one-way slab of a multi-family house, in which the front and rear portions of a unit household are opened in a multi-family house such as an apartment. Therefore, the floor slab is often designed as a one-way slab 5 with respect to the long side direction of the building.

The main root of the one-way slab (5) is reinforcement in the direction of the long side of the building and only the minimum reinforcement in order to restrain the crack of the concrete due to the temperature change of the slab in the direction of the short side of the building.

The heat insulation structure system applied to the one-way slab of the present invention focuses on the fact that the majority of apartments are designed as one-way slabs as described above, so that the long side outer wall 7 and one-way slab of the building where load transfer and moment are not generated. Insulation material is installed in the joint surface of 5).

Insulation structure system of the present invention is a structure consisting of one-way slab (5), outer wall (7) and inner wall (15), outer wall heat insulating material (10) installed on the outer wall (7) and the bottom of the center or inner surface of the outer wall (7) It consists of a slab insulation (11) installed in.

The structure consists of a one-way slab 5, an outer wall 7 and an inner wall 15. The one-way slab 5 is mainly used in a multi-family house such as an apartment, and the main root is arranged in the long side direction of the building and the short side direction. As a result, only the minimum temperature reinforcing bar is added. The outer wall 7 supports the one-way slab 5 and is disposed in the long side direction of the building and is in contact with the outside air. The outer wall 7 corresponds to a balcony side wall in a common house, and uses a masonry wall, reinforced concrete wall, or PC wall. The inner wall 15 supports the one-way slab 5 and is disposed in the short side direction of the building so as to be perpendicular to the outer wall 7.

The outer wall insulation 10 is installed at the center or the inner surface of the outer wall 7 to prevent the heat inside the building from escaping through the wall, and styropol, glass, rock, or felt is used.

The slab insulation material 11 is installed at the junction of the outer wall 7 and the one-way slab 5, and is installed inside the one-way slab 5 at a lower portion on a vertical surface such as the inner surface of the outer wall 7. Or, it is installed at the same height as the one-way slab 5 on the same vertical surface as the outer wall insulation (10). The slab heat insulating material 11 is installed in the upper and lower layers of the outer wall heat insulating material (10) is mutually separated from each other, by ensuring the continuity between the upper and lower outer wall heat insulating material (10) by completely partitioning the interior and exterior of the apartment house by the heat insulating material It prevents the heating energy from escaping through the floor slab. In addition, the slab insulation material 11 may be installed directly under the heat insulation strip 8 of the floor heating system as shown in FIG. 5 even though the slab insulation material 11 is not installed on the same vertical surface as the outer wall insulation material 10.

When the outer wall 7 is a masonry wall, as shown in FIGS. 6A and 6B, the slab insulation material does not penetrate into the joints of the slab insulation material 11 and the floor slab and the balcony slab 6, as shown in FIGS. 6A and 6B. (11) can be provided based on the inner surface of the outer wall (7) rather than the lower portion of the outer wall insulation (10).

When the one-way slab 5 is in contact with the threaded beam 14, it is installed on the contact surface between the threaded beam 14 and the one-way slab 5 without inserting the slab insulation 11 into the threaded beam 14 as shown in FIG. do. Because, when the slab insulation material 11 is inserted and installed in the insulated beam 14, the root of the insulated beam 14 is cut by the slab insulation material 11, the volume occupied by the slab insulation material 11 This is because the concrete is not poured, so structural problems may occur.

8A and 8B are cross-sectional views of the slab insulation material 11a having a shear key shape, wherein the one-way slab 5 and the balcony slab 6 are engaged with each other so that the vertical cross section of the slab insulation material 11a is not separated once. Or double bent. The slab insulation material 11a of the shear key shape is to prevent inequality of the slab due to construction load and working load between the one-way slab 5 and the balcony slab 6, and may be formed in a shape other than that shown. Can be.

Fig. 9A is a sectional view and a partial detailed view in which the slab insulation material 11b in which a plurality of holes are formed so that the reinforcing bar 16 can be penetrated is installed. Although there is no structural problem between the one-way slab 5 and the balcony slab 6, there is no structural problem. However, when reinforcing the minimum temperature or connecting reinforcing bars, a plurality of holes are provided in the slab insulation material 11b. It can be formed by passing through the reinforcing bar 16 to connect the one-way slab (5) and the balcony slab (6). In addition, when it is difficult to install a hole in the slab insulation material 11b as described above, it is provided only between the upper reinforcement 16 and the lower reinforcement 16 in the slab cross section without forming the hole as shown in Figure 9B, The slab insulation material 11 may be selectively inserted between the upper reinforcement 16 and the lower reinforcement 16 and the upper or lower reinforcement 16 of the upper reinforcement 16.

FIG. 10 is a plan view and a partial detailed view of the inner wall side insulation material 17 provided in the upper and lower predetermined ranges centering on the floor slab on the joint surface of the long side outer wall 7 of the building and the short side inner wall of the building. The inner wall side insulating material 17 is a heat insulating material is installed in a predetermined range of the upper and lower centers around the one-way slab 5 at the intersection of the inner wall 15 and the outer wall 7 in the short side direction of the unit generation building, Heating energy from the floor slab serves to prevent the outflow to the outer wall (7) through the inner wall (15). The inner wall side insulation 17 is installed only in a predetermined range from the bottom slab to the bottom slab which does not cause structural problems even if the reinforcing bars are not disposed between the inner wall 15 and the outer wall 7.

Fig. 11 shows that the main root of the one-way slab 5 is fixed to the outer wall from side to side about the long side outer wall of the building and the long side inner wall of the building at the joint surface of both side short-side outer walls of the building and the one-way slab. The slab insulation material 11c is also provided in a plan view and a partial detailed view in which the slab insulation material 11c is installed on the joining surface in a certain range in which structural problems do not occur. It is to prevent the loss of heating energy through the floor slab by installing.

Fig. 12A is a plan view in which the above-described straight slab insulation material 11 is provided on the joint surface of the one-way slab 5 and the long side outer wall 7 of the building, and Fig. 12B is a plan view in which the uneven slab insulation material 11d is provided. . Recently, awareness of earthquake loads has increased, and regulations have been tightened. However, the collective housing to which the one-way slab 5 is applied responds strongly to the lateral load in the short side direction of the building, but is weak in the lateral load in the long direction of the building. Therefore, in consideration of the diaphragm role between the slabs to cope with the earthquake load, the slab insulation material 11d is joined to the floor slab and the balcony slab 6 so as to integrally resist the lateral load in the longitudinal direction of the building as shown in FIG. 12B. It can also be provided in an uneven shape on a plane.

The insulation structure system applied to the one-way slab of the present invention has the upper layer wall insulation and the lower layer wall insulation in the entire joint surface of the one-way slab and the outer wall so as to ensure continuity between the outer wall insulations cut by the slab between the floors of the building to which the one-way slab is applied. By installing the slab insulation to be continuous, it is possible to fundamentally block the heat loss through the floor slab by completely partitioning the indoor and outdoor of the multi-unit house by the heat insulating material is excellent heating efficiency, thereby resulting in energy savings. In addition, condensation may be minimized by maintaining the temperature of the internal structure similar to the room temperature regardless of the outside temperature.

Claims (6)

The main roots support the one-way slab 5 disposed in the long side direction of the building, the one-way slab 5 and the outer wall 7 and the one-way slab 5 disposed in the long side direction of the building and in contact with the outside air. A structure comprising an inner wall 15 disposed in a short side direction and orthogonal to the outer wall 7; An outer wall insulating material (10) installed on the outer wall (7); And, It is provided at the junction of the outer wall 7 and the one-way slab 5, is provided in the interior of the one-way slab 5 in the lower portion on the same vertical surface as the inner surface of the outer wall 7, or the outer wall insulation ( A slab insulating material 11 installed at the same height as the one-way slab 5 on a vertical surface such as 10); Thermal insulation system applied to one-way slab, characterized in that consisting of. 2. The insulation structure system according to claim 1, wherein a plurality of holes are formed in the slab insulation material 11 to penetrate the short side reinforcing bars 16 of the one-way slab 5 through the holes. . According to claim 1, The slab insulation material 11 is characterized in that the vertical cross-section is formed in the shear key shape so that the bottom slab and the balcony slab 6 is engaged with one or two times in the middle or the horizontal cross-section is formed in the uneven shape. Insulation structure system applied to one-way slab. The slab insulation material 11 is installed only between the upper reinforcement 16 and the lower reinforcement 16 in the slab cross section, or between the upper reinforcement 16 and the lower reinforcement 16 and the upper reinforcement ( Insulation structure system applied to the one-way slab, characterized in that it is selectively installed in the upper or lower reinforcement (16) of the 16. According to claim 1, wherein the outer wall 7 and the inner wall 15 in one direction characterized in that the inner wall side insulating material 17 is further installed in the upper and lower predetermined range around the one-way slab (5). Insulation structure system applied to slab. According to claim 1, on both sides of the building on the joint surface of the short-sided outer wall and the one-way slab 5 at the same level as the one-way slab 5 in a certain range from the left and right outer wall of the building and the long-sided inner wall of the building. Insulation structure system applied to the one-way slab, characterized in that further installing the slab insulation (11c).