KR102077086B1 - Structure for preventing the floor impact sound of building - Google Patents

Abstract

The present invention relates to a structure for preventing a floor impact sound of a building and, more specifically, to a structure for preventing a floor impact sound of a building which can prevent interlayer noises using a rigidity reinforcement grid structure frame for reinforcing rigidity and an elastic support cap for attenuating noises. The structure for preventing the floor impact sound of the building according to an embodiment of the present invention, installed between a concrete structure layer and a floor finishing layer which are interlayer construction surfaces of the building to reduce the interlayer noises, comprises: a rigidity reinforcement grid structure frame installed at the lower part of the floor finishing layer and having a grid shaped rigidity reinforcement piece; and elastic support caps for supporting the rigidity reinforcement grid structure frame. The present invention can maintain or reinforce the rigidity of the floor surface while suppressing the occurrence of a floor impact sound in an apartment or a multi-story building.

Description

Structure for preventing the floor impact sound of building}

The present invention relates to a structure for preventing floor impact noise from buildings, and more specifically, using a rigid reinforcement lattice structure frame and a rubber cap for attenuating noise, which can reinforce the rigidity of the floor finishing layer constructed on the floor slabs of the building. It relates to a structure for preventing a floor impact noise to attenuate a floor impact sound.

Floor noise is a noise pollution that occurs mainly in multi-family houses or apartments. The floor noise is a general term for the sound of toilet water, floor impact sound, piano sound, audio sound, conversation sound, TV sound, etc. Among the floor noise, the floor impact sound is a light shock sound (relative light and hard impact floor impact sound, legal standard 50㏈ Below) and heavy impact sound (floor impact sound due to heavy and soft impact, legal standard 50㏈ or less). In the past, living in a single-family home, problems began to emerge as apartments such as apartments became common today, and due to the characteristics of apartments where multiple households live with a single layer of walls and floors, floor noise Contention can occur. In particular, among floor noise, floor impact noise (solid transfer sound), which is caused by direct impact on a concrete surface, is easily transmitted to neighboring households, and these noises mainly pull children's running sounds and objects from the upper floors downstairs. It is the sound of falling or falling, and interlayer noise, like other noise pollution, has a negative effect on mental and physical health, and it has long since emerged as a social issue such as many problems and complaints among neighbors.

In order to solve the inter-floor noise problem, the Ministry of Land, Infrastructure and Transport's notification of the 2016-824 apartment complex floor noise reduction structure recognition and management standards, Presidential Decree No. 28628 housing construction standards, etc. It proposes housing construction standards related to preventing floor noise. In addition, various research papers to prevent inter-floor noise (experimental study on the effect of reducing floor impact noise according to changes in slab thickness and stiffness-Taehee Kim, performance evaluation by alternative of floor finishing structure in consideration of floor impact noise in apartment houses) have been conducted and released have.

In addition, various methods have been invented and proposed to prevent inter-layer noise, which is a social problem, and there is a related prior art No. 10-1740046 for preventing such inter-layer noise.

1 is a view showing the configuration of a floor impact sound prevention material of the prior art registration No. 10-1740046 related to the conventional floor impact sound prevention material.

Referring to Figure 1, a conventional floor impact sound prevention material is placed on the floor surface of the interlayer slab of the building structure as a gel (Gel) material, a gel sheet to block the floor impact sound belonging to vibration; A rubber sheet laminated on top of the gel sheet and made of a rubber material to block heavy impact sound belonging to a low frequency; A foam sheet laminated on top of the rubber sheet to form a lightweight shock sound belonging to high frequencies; And an adhesive sheet laminated between the foam sheet, rubber sheet, and gel sheet. Through this configuration, it provides a floor impact sound prevention material capable of blocking different noises generated in the life of an apartment house, such as a floor impact sound belonging to vibration, a weight impact sound belonging to low frequency, and a light weight impact sound belonging to high frequency.

However, such a conventional floor impact prevention material may be effective in reducing or preventing interlayer noise, but has a problem in that it is insufficient to reinforce the rigidity of the floor finishing layer on the top of the slab.

The floor impact sound, which can be divided into a light weight impact sound and a heavy impact sound, increases the noise prevention effect as the thickness of the medium to which the floor impact sound is transmitted increases and the stiffness increases. Among them, it is known that, in particular, in the case of low-frequency noise such as a heavy impact sound, it is mainly related to the stiffness of the medium in the noise transmission path. That is, the higher the stiffness, the lower the frequency, the higher the effect of reducing noise.

However, in the case of the prior art shown above, since it is a structure in which several panels for preventing noise are stacked, it may be effective in preventing high-frequency noise such as a light-weight impact sound, but it is not a structure in which the rigidity of the floor is reinforced, so it is a frequency like a heavy shock sound. The disadvantage is that it has little effect in preventing low noise.

Among the prior arts, there are those that disclose a structure in which a predetermined number of paper supports are installed on a panel and a rubber material is covered under the support so that noise can be absorbed. More than three points are in the overtool, so most of the support points are not attached to the floor, and even a very small gap is floating, so this structure makes the floor impact sound of the upper floor of the slab act as a diaphragm and the floor finishing layer and the floor of the upper floor of the slab. A number of studies have pointed out that the space between the spaces acts as a resonator, and the secondary shock sound is generated by the gap between the slab and the upper slab top layer, resulting in a decrease in the ability to absorb the floor impact sound or rather amplification.

Korean Registered Patent No. 10-1740046: Interlayer noise prevention material

The present invention was devised to solve the above problems, and according to the present invention, there is provided a floor impact sound prevention structure for attenuating the floor impact sound by reinforcing the rigidity of the floor finishing layer in an apartment or a multi-story building and adding a shock absorption function. .

Building floor impact sound prevention structure according to an embodiment of the present invention is installed between the concrete structure layer (slab layer) and the floor finishing layer, which is the interlayer construction surface of the building, in the building floor impact sound prevention structure for reducing the floor impact sound, the A rigid reinforcement lattice structure frame installed under the floor finishing layer and having a grid-shaped rigid reinforcement piece; And elastic support caps for supporting the rigid reinforcement lattice structure frame.

In a preferred embodiment, the rigid reinforcement grating structure frame includes: a rigid reinforcement piece formed in a lattice shape under the rigid reinforcement grating structure frame; And a panel support formed in a shape protruding downward in a portion of the rigid reinforcing piece so that the rigid reinforcing lattice structure frame becomes a floating structure.

In a preferred embodiment, it characterized in that it further comprises an insulating panel that is installed in a form that is inserted between the rigid reinforcement pieces of the rigid reinforcement grating structure frame.

In a preferred embodiment, an insulating panel support piece for supporting the insulating panel is formed on an upper portion of the rigid reinforcement grating structure frame.

In a preferred embodiment, the elastic support caps are made in an inserted form, and the lightweight foam is a sound absorbing panel that is coupled to the rigid reinforcement lattice structure frame by the elastic support caps fitted to the panel support of the rigid stiffness lattice structure frame. Characterized in that it further comprises a concrete panel or other sound absorbing material.

In a preferred embodiment, the elastic support caps are characterized by comprising a support cap portion surrounding the rigid supports and a bottom plate portion contacting the bottom surface.

In a preferred embodiment, the elastic support caps are made of an elastic material, characterized in that the width of the bottom surface of the bottom plate portion is wider than the width of the bottom surface of the support cap portion.

In a preferred embodiment, the support cap is characterized in that it has a cylindrical shape.

In a preferred embodiment, the support cap is characterized in that it has a rectangular prism shape.

In a preferred embodiment, the insulating panel is a foamed polystyrene panel, and is characterized in that it is made of a size that can be inserted into the stiffness reinforcement piece of the stiffness lattice structure frame.

In a preferred embodiment, a closed mortar space groove is formed on an upper portion of the heat insulating panel to form a space through which the finish mortar can flow between the heat insulating panel support piece and the heat insulating panel when the finish mortar is installed. Is done.

In a preferred embodiment, a coating layer made of an elastic material for absorbing noise is formed under the insulation panel.

In a preferred embodiment, an upper layer of the lightweight foam concrete panel is characterized in that an elastic material coating layer is formed to absorb noise.

According to the present invention, it is possible to maintain or strengthen the rigidity of the floor surface while suppressing the occurrence of floor impact noise in the apartment or multi-story building.

In addition, according to the present invention, by providing a structure having a skeleton having a structure similar to a "T" or "I" shaped beam structure, the rigidity of the floor finishing layer is increased to effectively prevent low-frequency noise.

In addition, according to the present invention, the support of the structure is in a form that is inserted into the bottom surface of the lightweight foam concrete so that the support of the structure is not floating in the air, thereby preventing the occurrence of secondary shock noise due to separation from the floor of the support zone. And it has the advantage that it can increase the noise prevention effect.

1 is a view showing the configuration of a conventional floor impact sound panel,
Figure 2 is a perspective view showing the configuration of a building floor impact sound prevention structure according to an embodiment of the present invention,
Figure 3 is a perspective view from the lower direction of the building floor impact sound prevention structure according to an embodiment of the present invention,
4 is an exploded cross-sectional view of a building floor impact sound prevention structure according to an embodiment of the present invention,
5 to 7 is a view for showing the bonding process of the building floor impact sound prevention structure shown in Figure 4,
8 is a perspective view showing the configuration of a building floor impact sound prevention structure according to another embodiment of the present invention,
9 and 10 are perspective views for showing the bonding process of the building floor impact sound prevention structure shown in FIG. 8,
11 is a view showing another shape of the insulating panel of the building floor impact sound prevention structure,
12 is a view for showing the form in which the insulation panel shown in FIG. 11 is disposed in a rigid reinforcement grating structure frame,
13 is a side cross-sectional view for showing the coupling process of the building floor impact sound prevention structure shown in FIG. 8,
14 and 15 is a cross-sectional side view for showing the bonding process of the building floor impact sound prevention structure according to another embodiment of the present invention,
16 and 17 are views showing examples of a structure for preventing noise between buildings having an elastic coating layer,
18 is a view showing a state in which the construction of the finishing mortar and the floor finishing material is completed in a state in which the heat insulating panel of the low height (h2) is used.

Hereinafter, with reference to the accompanying drawings for the embodiment of the present invention will be described the configuration and operation.

It should be noted that the same components among the drawings are denoted by the same reference numerals and symbols as possible, even if they are displayed on different drawings. In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, when a part is said to "include" a certain component, this means that other components may be further included instead of excluding other components, unless specifically stated otherwise.

Also, the terms or words used in the specification and claims should not be interpreted in a conventional and lexical sense, and the inventors can properly define the concept of terms in order to best describe their own invention. Based on the principles, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the configuration shown in the embodiments and drawings described in this specification is only a preferred embodiment of the present invention, and does not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application And variations, and the scope of the present invention is not limited to the embodiments described below.

Figure 2 is a perspective view showing the configuration of a building floor impact sound prevention structure according to an embodiment of the present invention, Figure 3 is a perspective view from the lower direction of the building floor impact sound prevention structure according to an embodiment of the present invention, Figure 4 is It is an exploded cross-sectional view of a building floor impact sound prevention structure according to an embodiment of the present invention, and FIGS. 5 to 7 are views for showing the bonding process of the building floor impact sound prevention structure shown in FIG. 4.

The present invention relates to a floor impact soundproof structure for reducing floor noise by being installed between a concrete layer (concrete slab) and a floor finishing layer, which are interlayer construction surfaces of a building. It is a feature of the present invention to prevent floor impact noise by performing floor construction using the building floor impact sound prevention structure according to an embodiment of the present invention when performing floor construction in the process of building a building. , The building floor impact sound prevention structure according to an embodiment of the present invention is composed of a rigid reinforcement grating structure frame 100 and an elastic support cap 200.

The rigid reinforcing grating structure frame 100 is installed under the floor finishing layer, and is a panel on which a grid-shaped rigid reinforcing piece 110 is formed, and the rigid reinforcing grating structure frame 100 is the bottom finishing layer. It is made of a cross-sectional shape with a large cross-section coefficient to reinforce the bending stiffness of.

The elastic support caps 200 are for supporting the rigid reinforcement grating structure frame 100.

The stiffness reinforcing grating structure frame 100 is used for reinforcing the rigidity of the floor finishing layer, and when it is made of a metal material, the strength is improved to help improve the rigidity, but the weight is heavy, and a part is cut for floor construction. There is discomfort when doing something. Therefore, in the building floor impact sound prevention structure according to the embodiment of the present invention, the rigid reinforcement grating structure frame 100 is made of plastic resin. General plastics can be used, but engineering plastics such as polycarbonates with high rigidity can be used.

The rigid reinforcement grating structure frame 100 is composed of a rigid reinforcement piece 110 and a panel support 120. The rigid reinforcement piece 110 is formed in a lattice shape under the rigid reinforcement lattice structure frame 100, and the panel support 120 is rigid so that the rigid reinforcement lattice structure frame 100 can be floated. It is formed in a form protruding in a downward direction on a portion of the reinforcing piece (110).

Referring to FIG. 2, an elastic support cap 200 in which a lower portion of the panel support 120 of the rigid reinforcement grating structure frame 100 is inserted is provided, and the elastic support cap 200 includes the rigid reinforcement grating structure frame To attenuate the noise of the upper layer transmitted through the (100), the lower portion of the panel support 120 is inserted, the support cap portion 210 wrapped around the outer circumferential surface of the panel support, and inserted into the support cap portion 210 The panel support 120 is made of a bottom plate part 220 that is in contact with the lower surface, and the elastic support cap 200 is made of an elastic material and the noise of the upper layer transmitted through the rigid reinforcement grating structure frame 100 is paneled. The elastic support cap 200 of the rubber material surrounding the lower surface of the support 120 is not transmitted to the lower layer and is offset.

The elastic support caps 200 are made to have a larger width of the bottom surface of the bottom plate part 220 than a wide area of the bottom surface of the support cap part 210, which is optimal for attenuating noise transmitted from the upper layer. To make a structure.

The support cap part 210 may be formed in a cylindrical shape or a square pillar shape, and may be formed in various shapes as needed.

8 is a perspective view showing the configuration of a building floor impact sound prevention structure according to another embodiment of the present invention, FIGS. 9 and 10 are perspective views for showing the process of combining the building floor impact sound prevention structure shown in FIG. 8, FIG. Is a view showing another shape of the insulation panel of the building floor impact soundproof structure, FIG. 12 is a view for showing the form in which the insulation panel shown in FIG. 11 is disposed on the rigid reinforcement lattice structure frame, and FIG. 13 is shown in FIG. 8. It is a side cross-sectional view to show the process of combining the building floor impact sound prevention structure.

In another embodiment of the present invention, a structure for preventing floor impact noise is implemented by including an insulating panel 300 installed in a form inserted between the rigid reinforcement pieces 110 of the rigid reinforcement grating structure frame 100.

The heat insulation panel 300 may be made of expanded polystyrene panel, and may be made of various materials having good heat insulation functions, and may be made of a material capable of functioning as a cushioning material.

In the case of forming the insulating layer separately, the thickness of the structure becomes thick due to the formation of the insulating layer, and consequently, the height of the construction structure between the building layers increases, so that the height of the living space inside the building decreases. The panel 300 is made to a size that can be inserted inside the lattice-type rigid reinforcement piece 110 of the rigid reinforcement lattice structure frame 100. As described above, the thickness of the structure including the heat insulating layer can be reduced by forming the heat insulating panel 300 in a form that is embedded in the structure, rather than separately forming the structure at the top or bottom.

An insulating panel support piece 130 for supporting the insulating panel 300 is formed on an upper portion of the rigid reinforcement grating structure frame 100.

A finishing mortar space groove 310 for forming a space where a finishing mortar can flow between the insulating panel support piece 130 and the insulating panel 300 when the finishing mortar is installed on the upper portion of the insulating panel 300 It is formed. After completing the construction of the building floor impact soundproof structure, the finishing mortar space groove 310 is formed in the building floor impact soundproof structure during construction of the finishing mortar, so that the finishing mortar flows in the direction 'A' shown in FIG. 12.

In FIG. 11, the height of the heat insulation panel 300 is made to the maximum height (H) that can be inserted into the stiffness reinforcement piece of the rigid reinforcement grating structure frame 100, and the finishing mortar can flow into the upper center portion. Although showing an embodiment in which a closed mortar groove 310, which is an open space, is formed, the overall height of the heat insulation panel 300 can be inserted into the stiffness reinforcement piece of the stiffness lattice structure frame 100. It may be made smaller than the phosphorus height (H). That is, the insulating panel 300 may be made of a height h2 smaller than the height H that can be inserted into the lattice-type stiffness reinforcement piece of the rigid stiffness lattice structure frame 100 as a whole. In this case, an insulating panel spacing piece 170 for separating the insulating panel 300 by a predetermined height (h2) is formed under the lattice-type rigid reinforcement piece 110 of the rigid reinforcement grating structure frame 100. . Thus, the insulating panel spacer piece 170 is formed inside the lattice-type rigid reinforcement piece 110 of the rigid reinforcement grid structure frame 100 so that the insulating panel 300 is rigid reinforcement grid structure frame 100 When inserted into the inside of the h2 length when inserted into the interior of the insulation panel spacer 170 can no longer be inserted as a result, as long as the length of h1 is not inserted, this length is closed during the construction of the mortar during the construction process The mortar flows in and fills up.

18 is a view showing the completion of the construction of the finishing mortar and floor finishing materials when using the low-height (h2) insulation panel 300. If the entire height of the heat insulating panel 300 is set to be a low height (h2) instead of a high height (H), as shown in FIG. 18, when the finishing mortar is installed, the finishing mortar 950 is the rigid reinforcement grating. On the upper surface of the structural frame 100, a certain height (h1) is filled, and the flooring material 910, which is a floor finishing material, is made on the finishing mortar 950. In Figure 18, it can be seen that the concrete slab 930, the lightweight foam concrete panel 500 as a sound absorbing panel, the insulating panel 300 and the finishing mortar 950, and the flooring floor 910 as a floor finishing material are sequentially installed. Also, it can be confirmed that the pipe 920 for the boiler is formed in the finishing mortar layer.

14 and 15 are side cross-sectional views for showing the bonding process of the building floor impact sound prevention structure according to another embodiment of the present invention, and FIGS. 16 and 17 show examples of the building floor impact sound prevention structure having an elastic coating layer It is a drawing.

In another embodiment of the present invention, the elastic support caps 200 are made in an inserted form, and the elastic support caps 200 are fitted to the panel support 120 of the rigid reinforcement lattice structure frame 100. To further include a lightweight foam concrete panel 500, which is a sound absorbing panel coupled with the rigid reinforcing grating structure frame 100, a building floor impact sound prevention structure is implemented.

The sound absorbing panel may be made of various materials, such as a panel made of a concrete-rubber mixture or a multi-layered composite material composed of a plurality of materials or other noise shock absorbing materials in addition to the lightweight foam concrete panel.

As required, as shown in FIG. 17, an upper layer of the lightweight foam concrete panel 500 may be formed with an elastic material coating layer 590 for absorbing noise, thereby enhancing noise prevention performance.

 If necessary, as shown in FIG. 16, the insulating layer 300 may be formed with an elastic material coating layer 390 for absorbing noise to increase noise prevention performance.

100: rigid reinforcement grating structure frame 200: elastic support cap
110: Stiffness reinforcement piece 120: Panel support
130: insulating panel support piece 210: support cap portion
220: bottom plate 300: insulation panel
310: Finished mortar space home 500: Lightweight foam concrete panel

Claims (14)

In the building floor between the concrete structure layer and the floor finishing layer, which is installed in the floor between the floor structure noise reduction structure for reducing the floor noise,
A rigid reinforcement lattice structure frame 100 which is installed under the bottom finishing layer and is formed with a rigid reinforcement piece having a lattice-shaped cross section; And
It comprises an elastic support cap 200 for supporting the rigid reinforcement grating structure frame,
The rigid reinforcement grating structure frame 100 is:
A rigid reinforcing piece 110 formed in a lattice shape under the rigid reinforcing grating structure frame; And
It is configured to include; a panel support 120 formed in a form protruding downward in a portion of the rigid reinforcing piece so that the rigid reinforcing grating structure frame can be a floating structure;
Further comprising an insulating panel 300 installed in a form inserted between the rigid reinforcement piece 110 of the rigid reinforcement grating structure frame,
An insulating panel support piece 130 for supporting the insulating panel is formed on an upper portion of the rigid reinforcement grating structure frame,
The elastic support caps 200 are made in an inserted form, and further include a sound absorbing panel coupled to the rigid reinforcement lattice structure frame by the elastic support caps fitted to the panel support 120 of the rigid reinforcement lattice structure frame. And
The elastic support cap 200 is a lower portion of the panel support 120 is inserted into the support cap portion 210 surrounding the outer peripheral surface of the panel support,
It consists of a bottom plate portion 220 in contact with the lower surface of the panel support 120 inserted into the support cap portion 210,
The elastic support caps 200 are made of an elastic material, and the area of the bottom surface of the bottom plate part 220 is wider than the area of the bottom surface of the support cap part 210,
A finishing mortar space groove 310 for forming a space in which a finishing mortar 950 flows between the insulating panel support piece 130 and the insulating panel when the finishing mortar is installed on the upper portion of the insulating panel 300 Is formed,
In addition, the lower floor of the heat insulation panel 300 is a building floor impact sound prevention structure, characterized in that a coating layer 390 of an elastic material for absorbing noise is formed.
delete delete delete delete delete delete According to claim 1,
The sound absorbing panel is a lightweight foam concrete panel made of lightweight foam concrete, characterized in that the building floor impact sound prevention structure.
According to claim 1,
The insulating panel is a foamed polystyrene panel, and the building floor impact soundproof structure, characterized in that it is made of a size that can be inserted into the stiffness reinforcement piece of the stiffness lattice structure frame.
delete According to claim 1,
The height of the heat insulation panel is lower than the height (H) that can be inserted into the stiffness reinforcement piece of the stiffness reinforcement lattice structure frame building floor impact sound prevention structure.
delete According to claim 1,
A building floor impact sound prevention structure, characterized in that a coating layer made of an elastic material for absorbing noise is formed on the upper portion of the sound absorbing panel.
According to claim 1,
Building floor impact soundproofing, characterized in that an insulating panel spacing piece is formed on the lower inner side of the stiffness reinforcement lattice structure frame to space the insulation panel by a predetermined distance from the inner top of the rigid reinforcement lattice structure frame. Structure.

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