KR20090080603A - Interstory noise reducing materials - Google Patents

Abstract

An interlayer noise absorbing material is provided to prevent resonance and to decrease vibration effectively by attaching plural vibration damping members to the lower part of a buffer layer and making the vibration damping members have different properties, thereby making each part of the buffer layer have different vibration properties. An interlayer noise absorbing material comprises a floor mortar layer, a buffer layer(102) formed on the lower part of the floor mortar layer, and plural supporters(114) supporting the floor mortar layer and the buffer layer, wherein the supporter is formed on the floor mortar layer, an air layer is formed between the buffer layer and the floor slab layer, and plural vibration damping members(120) are attached to the lower side of the buffer layer and the lower end of the vibration damping member is formed to contact with the floor slab layer.

Description

Interlayer noise reducing materials

1 is a schematic cross-sectional view of one embodiment of the present invention.

2 is a partially exploded view of one embodiment of the present invention.

<Description of Major Symbols in Drawing>

10: floor mortar layer 20: floor slab layer

102: buffer layer 114: support

116: buffer layer support 120: vibration damping member

The present invention relates to an interlayer noise buffer. More specifically, it relates to an interlaminar noise buffer of semi-dry floating floor structure.

With the growth of the population and the development of building technology, most people live in apartment houses, including apartments, rather than single-family homes. Compared to single-family homes, this type of multi-family dwelling is particularly problematic for floor noise. This is a challenge that must be solved for modern people who live in apartments and require an independent and quiet environment.

In order to reduce the noise between floors, the thickness of the slab is thickened and the thickness of the slab and the finishing mortar between the floor of the sound source chamber and the slab are reduced. There is a method of reducing the transmission vibration by inserting a shock absorber, the reduction method through the shock absorber can be said to be the most economical and effective.

As a shock absorber that reduces transmission vibration, it is necessary to pour foam concrete together with the shock absorber, which has a damping effect on light impact sound but amplifies it on heavy impact sound. Have Semi-dry buffers that do not require bubble concrete casting are desirable, but currently available buffers do not have a logical basis to counter the general theory that vibration damping in the low frequency bands is difficult, and they do not satisfy repeatability or durability, as well as time decay. The choice of flexible materials, which are heavily focused on, made it difficult to deteriorate the feeling of walking or to prevent cracking of the finished mortar.

On the other hand, since July 2005, the floor floor impact sound of apartment buildings has been defined as 50dB or less, as well as the light impact sound (sound of small objects falling) as well as the heavy impact sound (children's running sound) that it is difficult to attenuate because it is located in the low frequency band. The vibration attenuation characteristic of is becoming more important problem.

According to the present invention, in the interlayer noise absorber for attenuating transmission vibration, a plurality of vibration damping members are attached to the lower portion of the cushioning material layer, and the vibration damping members are formed to have different characteristics, so that each part of the cushioning material layer has different vibration characteristics. The purpose is to prevent the resonance and to effectively damp the vibration.

According to the present invention, in the interlayer noise buffer, the bottom mortar layer 10, the buffer layer 102 formed below the bottom mortar layer, the bottom mortar layer 10, and the buffer layer 102 are supported. And a plurality of supports 114, wherein the support 114 is formed on the bottom slab layer 20, the support 114 is formed on the bottom slab layer 20, and the buffer layer An air layer is formed between the bottom slab layer 20 and a plurality of vibration damping members 120 are attached to a lower surface of the cushioning material layer, and the bottom end of the vibration damping member is the bottom slab layer 20. It relates to an interlayer noise absorbing material which is formed in contact with).

Here, the plurality of vibration damping members 120 is formed of an elastic material, the lower end is preferably formed to be divided.

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

As shown in FIG. 1, the present invention relates to a structure of an interlayer cushioning material inserted between a bottom mortar layer 10 and a bottom slab layer 20. 2 is an exploded bond diagram thereof. As shown, the buffer layer 102 is supported by the plurality of supports 114. The cushioning material layer 102 may be directly supported by the support 114, and the cushioning material support 116 formed of steel or the like is seated on the step of changing the thickness of the support as shown in FIG. 1 or 2. It is also possible to make the buffer layer 102 support by this.

The bottom mortar layer 10 is formed on the buffer layer 102. That is, a plurality of supports as shown in FIG. 1 are placed on the bottom slab layer 20 to form a bottom mortar layer thereon, so that the vertical load of the bottom mortar layer 10 is supported by the support.

However, in the present invention, as shown, the air layer is formed between the buffer layer and the bottom slab layer 20, a plurality of vibration damping member 120 is attached to the lower surface of the buffer layer. The plurality of vibration damping members 120 may be formed of an elastic body such as rubber, and may have a hollow pipe shape as shown in the figure, and have a sufficient length such that the lower end thereof contacts the bottom slab layer.

The vibration damping member made of material with excellent elasticity does not support the load in this part even if vibration is applied to the floor mortar layer due to people jumping on the upper layer. And it receives the vibration wave reflected back to the floor slab layer through the support to act to damp the vibration. When the fingertips are gently pressed against the vibrating drum, the vibration is attenuated in the same manner as the vibration is attenuated. That is, as shown in FIG. 1, the vibration damping member is formed in the middle of the support and the support, so that the vibration damping member absorbs and removes the vibration without transmitting the vibration at the intermediate point, thereby reducing noise.

Furthermore, when the vibration damping member vibrates, the lower end of the vibration damping member is formed to be split as shown in FIG. 2 so that the external slab layer is not subjected to strong external force by vibration. Through this, the vibration of the vibration damping member, which is an elastic body, can be made more easily, and the vibration damping member can be effectively prevented from being subjected to up and down loads, thereby effectively attenuating the vibration without transmitting the vibration by the vertical load.

On the other hand, each vibration damping member is formed to have a different size or different density, through which the buffer layer may have different vibration characteristics for each part by the vibration damping members having different characteristics. Therefore, when the vibration transmitted from the upper layer is transmitted to the buffer layer and attenuated in the buffer layer, each part has different vibration characteristics, thereby suppressing the occurrence of resonance and lowering the vibration through the vibration damping and vibration reflection of each vibration damping member. The noise transmitted to it is effectively attenuated.

The embodiments of the present invention described above are examples of one of the embodiments of the present invention, and the present invention is not limited thereto, and the present invention includes equivalents and equivalents thereof.

According to the present invention, in the interlayer noise absorber for attenuating transmission vibration, a plurality of vibration damping members are attached to the lower portion of the cushioning material layer, and the vibration damping members are formed to have different characteristics, so that each part of the cushioning material layer has different vibration characteristics. It has the effect of preventing the resonance and effectively damping the vibration.

Claims (2)

In the interlayer noise buffer, Bottom mortar layer (10), A buffer layer 102 formed below the bottom mortar layer, It includes a plurality of supports 114 for supporting the bottom mortar layer 10 and the buffer layer 102, The support 114 is formed on the bottom slab layer 20, an air layer is formed between the buffer layer and the bottom slab layer 20, A plurality of vibration damping members 120 are attached to the lower surface of the cushioning material layer, and the lower end of the vibration damping member is formed to contact the bottom slab layer 20. Interlayer noise buffer The method of claim 1,  The plurality of vibration damping members 120 is formed of an elastic material, characterized in that the lower end is formed to be divided Interlayer noise buffer

Images