KR100516975B1 - Story partitions structure for plural story buildings - Google Patents

Abstract

The present invention relates to an interlayer structure of a multi-storey building such as an office building, an officetel, a multi-family house, an apartment, or a villa. A heat insulation layer which is constructed to cover the barrier tube at an upper part of the slab layer by extending the rebar; And a finishing layer installed on the heat insulation layer, the reinforcing bar extending and reinforcing, and a hot water pipe embedded therein. According to the present invention, first, by laying a block pipe having a hollow in the slab layer can reduce the amount of use of rebar, concrete, etc. can reduce the construction cost, the second by reducing the slab layer load and increase the flexural strength Since the number of pillars supporting the slab floor can be reduced, construction can be made to have a wide and efficient residential space or office space. Third, there is an effect of maintaining sound insulation and dustproof efficiency without inputting expensive building materials. While maintaining the thickness of the conventional interlayer structure or rather reducing the thickness of the interlayer structure, it is possible to strengthen the durability and bearing capacity, and unlike the conventional "knitted structure" to prevent damage such as partial depressions, cracks and breaks generated in the finishing layer It has the advantage of being reduced.

Description

Story partitions structure for plural story buildings}

The present invention relates to the interlayer structure of a multi-story building such as an office building, an officetel, a multi-family house, an apartment or a villa.

Multi-storey buildings such as office buildings, officetels, multi-family houses, apartments, or villas can be separated from each other in order to ensure the comfort of office spaces and residential spaces because the upper and lower floors become independent office spaces or residential spaces where people work and live day and night. The noise problem is a problem that must be solved.

In addition, in the case of a multi-storey building to which floor heating, which is one of Korea's unique building methods, is applied, a problem of thermal insulation to prevent heat from being transferred to the lower part of the interlayer structure should be solved.

Various attempts have been made to solve the sound insulation and insulation problems of the multi-storey building as described above, with reference to FIG. Same as

Looking at such a conventional interlayer structure, the slab layer 10 for supporting the load, the sound insulation layer 20 to be placed on the slab layer 10 to block the noise generated in the upper layer, and placed on the sound insulation layer 20 It is composed of a heat insulating layer 30 to increase the thermal efficiency of the floor heating and the finishing layer 40 is finished to flatten the surface of the floor and embedded with a hot water pipe 50 for heating.

The interlayer structure as described above requires a certain thickness in order for each of the layers 10, 20, 30 and 40 to achieve their intended purpose, and generally the entire interlayer structure has a thickness of 20 to 30 cm, usually 25 cm.

On the other hand, the sound insulation and insulation of the interlayer structure, which is important in the multi-storey building in Korea, in theory, the greater the thickness of the interlayer structure, the greater the effect. In particular, in the case of sound insulation, since the noise vibration generated in the upper layer is transmitted to the lower layer using the interlayer structure as a medium, the thicker the thickness, the larger the sound insulation effect will be seen.

However, there is a practical difficulty in thickening the interlayer structure. In other words, if it is necessary to secure as many floors as possible within the height limit of the building, if the interlayer structure becomes thick, the gap between floors and ceilings of each floor becomes narrow, which may cause inconvenience to life, and even reduce the floors. There is a problem that greatly falls.

Therefore, building methods and building materials that can increase the effects on sound insulation and insulation while maintaining or narrowing the current thickness between layers are constantly being studied.

In general, building materials such as glass wool, dustproof mat, carbide cork, rubber mat, and foam rubber mat, which constitute the sound insulation layer 20 having excellent performance, are supplied at a high price. It became.

In addition, in the case of the heat insulation layer 30, but a lot of lightweight foam concrete, but the heat insulation efficiency is low, there is a problem to thicken the thickness.

In order to overcome the above-mentioned problem, in recent years, the interlayer structure of what is called "floating structure" is devised and implemented.

Referring to FIG. 2 of the 'floating structure', the 'floating structure' is to make a space part on the upper part of the slab layer 20 by making an interlayer structure for sound insulation.

Specifically, the interlayer structure of “floating structure” includes the sound insulation reinforcing layer 60 forming a space 61 on the slab layer 10 in the conventional interlayer structure shown in FIG. 1.

The sound insulation reinforcing layer 60 is an elastic material having a cushioning property capable of absorbing vibration in order to improve the efficiency of the sound insulation layer 20 together with the formation of the space portion, mainly a rubber material is utilized. Therefore, the sound insulation reinforcement layer 60 has sufficient cushioning for sound insulation and dustproofing, but the strength decreases relatively and the support force is lost so that the finishing layer 40 installed on the top is recessed, cracked, damaged, or the like. This problem may arise.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to provide an interlayer structure that effectively blocks noise generated in the upper layer without changing the thickness of the interlayer structure.

Another object is to provide an interlayer structure in which no depression, cracking, breakage, or the like occurs.

In addition, there is another purpose to provide a simple and robust interlayer structure while reducing the construction cost.

In order to achieve the above object, the present invention,

Reinforcing bar is reinforcement, the slab layer is embedded in the lower portion of the plurality of blocking pipe having a hollow;

A heat insulation layer which is constructed to cover the barrier tube at an upper part of the slab layer by extending the rebar; And

Constructed on top of the heat insulation layer is an interlayer structure of a multi-storey building including a finishing layer in which the reinforcement is extended and reinforcement, and the hot water pipe is embedded,

In the interlayer structure of the multi-storey building according to the present invention as described above, it is preferable that the heat insulation layer is constructed up to the upper part of the barrier tube.

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

First, a cross-sectional view showing an embodiment of an interlayer structure according to the present invention will be described with reference to FIG. 3.

In the interlayer structure according to the present invention, the slab layer 10 and the reinforcing bar are laid and cured so that a plurality of reinforcing bars 11 are arranged and the lower ends of the plurality of blocking pipes 70 having hollow parts 71 are embedded. (11) is extended to the reinforcement and is installed on the heat insulating layer 30 and the heat insulating layer 30 that is poured from the top of the slab layer 10 to a height almost coincident with the top of the barrier tube 70 and the reinforcement is It includes a finishing layer 40 is extended and reinforcement and the hot water pipe 50 is embedded.

The slab layer 10 may be made of concrete (consisting of cement, sand, gravel) or cement mortar (consisting of cement, sand), the insulating layer 30 is a thermal insulation, such as lightweight foam concrete, urethane foam As a material having excellent performance, any material used as a heat insulating layer in a conventional interlayer structure may be used, and the finishing layer 40 may lead to cement mortar or cement paste (consisting only of cement).

The interlayer structure according to the present invention as described above is used in a conventional interlayer structure by embedding a shielding tube 70 having a hollow portion 71 between the slab layer 10 and the heat insulating layer 30 to effect sound insulation. It is not necessary to configure a sound insulation layer separately.

That is, the interlayer structure according to the present invention forms the air layer having a very high sound insulation effect in the slab layer 10 by embedding a barrier tube having the hollow portion 71 in the slab layer 10 in the slab layer 10 itself. It is to have a sound insulation effect.

Conventional sound insulation layer of the interlayer structure using the expensive construction materials, such as glass wool, dustproof mat, carbonized cork, rubber mat and foam rubber mat, there was a problem of rising construction cost, but in the present invention omitted the block pipe 70 This will be solved by laying out the construction cost, which will drastically reduce the construction cost.

In addition, the interlayer structure according to the present invention is to reinforce the reinforcing bar 11 to the heat insulating layer 30 to serve as a slab-like structure to the heat insulating layer 30 to reduce the thickness of the slab layer 10 to the thickness of the conventional slab layer The slab layer 10 and the heat insulating layer 30 can be constructed to the extent that the thickness of the entire interlayer structure can be significantly reduced, and the slab layer 10 and the heat insulating layer ( The combined thickness of 30) may be increased as the sound insulation layer is omitted, and accordingly, the diameter of the blocking tube 70 may be large, that is, the hollow portion 71 may be enlarged, so that the sound insulation effect may be further improved. have.

As described above, the interlayer structure according to the present invention allows the hollow portion 71 to use the large blocking tube 70 by extending the reinforcing bars 11 to the finishing layer 40 so as to break the blocking tube 70. Due to the prevention problem, the structure should be placed on the upper part of the blocking tube 70 at a height of about 5 cm. The role of the finishing layer 40 is to allow the upper surface of the blocking tube 70 to almost the same height as the insulating layer 30. Make it come up. Therefore, the space in which the blocking tube 70 is embedded is increased, so that the large blocking tube 70 can be used.

The barrier tube 70 may be used as long as the material has excellent heat resistance and mechanical strength such as metal, glass fiber reinforced cement (GRC), fiber reinforced plastics (FRP), and the like. The shape is also limited to circular in Figure 3, but may be used in a variety of shapes, such as square, pentagon.

As described above, the method of the present invention, which forms the hollow portion 71 by the embedding of the blocking tube 70 and makes a sound insulation effect, may appear to be similar to the space portion 61 of the conventional " floating structure " Finishing layer due to problems of "floating structure", that is, adding space to the top without changing slab layer to increase the thickness of the whole interlayer structure, complicating construction, and bearing capacity of "floating structure" The problem of cracking, breakage, dents, and the like, and the cost increase of the structure of the present invention has all the advantages that can be solved.

In addition, the interlayer structure according to the present invention can reduce the amount of use of rebar and concrete by embedding the shielding pipe 70 having the hollow portion 71 in the slab layer 10, thereby reducing the construction cost, and also slab The load of the layer 10 is reduced and the flexural strength of the slab layer 10 is improved than the use of reinforcing bars, thereby reducing the number of pillars supporting the slab layer 10 to secure a wide and efficient office space or residential space. It has advantages

Next, referring to FIG. 4, which is a plan view showing the buried structure of the blocking tube in the interlayer structure according to the present invention, the blocking tube 70 according to the present invention has a long length blocking tube corresponding to the overall length of the slab layer 10. (See A) or a short cut off tube (see B) can be used, and using a short cut off tube has advantages in terms of economics and ease of construction.

Hereinafter, the effects of the interlayer structure according to the present invention will be described through Examples and Comparative Examples.

<Example>

The interlayer structure as shown in Figure 3 was prepared, the shielding pipe used a hollow pipe made of iron with an outer diameter of 15cm, the thickness of the concrete slab layer 10cm, the thickness of the lightweight foam concrete insulation layer 10cm, the cement mortar finishing layer The total thickness was 25 cm with 5 cm.

Also. The buried depth of the barrier tube was about 5cm from the bottom of the slab layer, and the insulation layer was poured to the height that matches the top of the barrier tube, and the reinforcement of the rebar was extended to the finishing layer.

Comparative Example

A conventional interlayer structure as shown in Figure 1 was prepared, the total thickness is 28cm, the thickness of each layer is a 5cm finishing layer, a heat insulating layer consisting of lightweight foam concrete, foamed polystyrene foam (trade name Soundpor manufactured by BASF) Sound insulation layer consisting of 5cm, and concrete slab layer was 13cm.

Sound Insulation Experiment

The sound insulation performance was tested by generating a light impact sound and a heavy impact sound for the interlayer structures of Examples and Comparative Examples. The light impact sound was generated by tapping machine (Tapping Machine, Danish B & K Co., Ltd.), and the heavy shock sound was generated by dropping tires with weight of 7.6kg and air pressure of 40psi by 90cm by using auto fallout. The results were measured according to the criteria set by the Japan Institute of Architecture (L grade curve and overall sound pressure level (dB), which is a single evaluation index, and are shown in Table 1 below).

Example Comparative example Lightweight Shock Rating L-45 L-60 Heavy impact sound rating L-45 L-55

As shown in Table 1, in the case of the embodiment according to the present invention it was confirmed that the sound insulation performance is very excellent than the interlayer structure of the conventional comparative example.

<Heat Insulation Test>

Each of the interlayer structures of Comparative Examples and Examples was heated to 45 ° C. by heating a boiler to the hot water pipe under the same room conditions, and then the surface temperature of the bottom of the slab layer was measured to test the thermal insulation effect.

As a result, both the Example and the comparative example showed room temperature of about 18 ℃, it was confirmed that all of the thermal insulation effect is excellent.

According to the present invention as described above, first, by embedding the blocking tube having a hollow in the slab layer can reduce the amount of use of rebar, concrete, etc. can reduce the construction cost, the second decrease in the slab layer load and increase the bending strength By reducing the number of pillars supporting the slab layer, construction is possible to have a wide and efficient residential space or office space. Third, there is an effect of maintaining sound insulation and dustproof efficiency even without expensive construction materials. Fourth, while maintaining the thickness of the conventional interlayer structure, or rather, while reducing the thickness of the interlayer structure can strengthen the durability and bearing capacity, unlike the conventional "knitted structure" such as partial depressions, cracks and breaks generated in the finishing layer It has the advantage of reducing damage.

1 is a cross-sectional view showing a conventional interlayer structure,

2 is a cross-sectional view showing another conventional interlayer structure,

3 is a cross-sectional view showing an embodiment of an interlayer structure according to the present invention.

4 is a plan view showing the buried form of the blocking tube in the interlayer structure according to the present invention.

-Explanation of terms for main parts of attached drawings-

10; Slab layer 20; Sound insulation layer

30; Thermal insulation layer 40; Finishing layer

50; Hot water pipe 60; Sound insulation layer

61; Space part 70; Blocker

71; Hollow part

Claims (2)

Reinforcing bar is reinforced, the concrete slab layer is embedded in the lower end of the plurality of glass fiber reinforced cement barrier tube having a hollow portion; Light-weight foam concrete insulation layer is extended so that the reinforcement is reinforced and is constructed to surround the blocking tube in the upper portion of the concrete slab layer; And The interlayer structure of the multi-storey building including a cement mortar or cement paste finishing layer is installed on the light-weight foam concrete insulation layer and the reinforcement is extended and the hot water pipe is embedded. The method of claim 1, The insulating layer is an interlayer structure of the multi-story building, characterized in that the construction up to the top of the barrier pipe.