KR100635078B1 - Viscoelastic material supporting multiple mass damper device for floor noise reduction - Google Patents

Abstract

The present invention relates to a floor impact sound reduction device using a viscoelastic support type multi-tuning mass damper, and more particularly, to a floor impact sound reduction device using a viscoelastic support type multi-tuning mass damper capable of reducing the noise of the lower floor caused by the vibration of the upper floor plate. The purpose is to provide.

Floor impact sound reduction device using a viscoelastic support-type multiple tuning mass damper of the present invention having the above object is coupled to the I-shaped steel or c-shaped steel attached to the bottom of the bottom plate which is a structure installed on the bottom finish of the structure It consists of a viscoelastic support type multi-tuning mass attenuator, characterized in that absorbing the vibration of the bottom plate to reduce the floor impact sound, the viscoelastic support type multi-tuning mass attenuator is coupled to a viscoelastic material made of a cushioning material such as rubber or urethane and the upper portion thereof The weight is characterized in that it is configured to be connected to the bottom plate to have a rigidity and damping.

Viscoelastic material, tuned mass attenuator, multiple tuned mass attenuator, noise damping, I-shaped steel, C-shaped steel, rubber, urethane

Description

Viscoelastic material supporting multiple mass damper device for floor noise reduction}             

1 is a schematic diagram showing a viscoelastic support type tuned mass damper

Figure 2 is a schematic diagram showing a state in which the viscoelastic support type multi-tuned mass damper of the present invention is installed using I-shaped steel

3 is a schematic view showing a state in which the viscoelastic support type multi-tuned mass damper of the present invention is installed using a c-beam.

<Explanation of symbols for the main parts of the drawings>

1: floor finishing material 3: bottom plate

5: I section steel 5a: Anchor bolt

7: ceiling surface 9: c-beam

10: viscoelastic support type synchronized mass damper 12: weight

14 adhesive 16: viscoelastic material

The present invention relates to a floor impact sound reduction device using a viscoelastic support type multi-tuning mass damper, and more particularly, in an apparatus for reducing the noise between floors of an apartment house, an upper floor slab (hereinafter referred to as "floor plate"). TMD (Tuned Mass Damper), which is synchronized with the specific frequency generated in the system, is used for the floor impact sound reduction device using the viscoelastic support type multi-tuned mass damper that can reduce the noise of the lower floor caused by the vibration of the upper floor. It is about.

In conventional apartments, the floor noise reduction method inserts an interlayer noise cushioning material between the slab of the slab and the ondol finishing material, or installs a ceiling and a sound shield to block the transmission of the lower floor noise.

However, in the conventional method of blocking the noise to the lower floor by the installation of the interlayer noise absorber or the sound shield, there is a problem in that the installation cost of the components is increased, and the effect of reducing the lower floor of the noise generated from the upper floor is extremely insignificant. there was.

That is, the noise that is a problem in the apartment houses are light-shock shocks of high frequency bands, such as dropping objects, and heavy shock sounds of mid- and low-frequency bands such as children playing.

Among the above noises, the light impact sound may be blocked to some extent by the installation of a conventional interlayer noise buffer or a sound shield, but the heavy impact sound may be generated by the vibration of the bottom plate. Could not see the blocking effect.

The present invention has been made to improve the above-described problems, by applying a tuning mass attenuator used for the vibration control of the structure to the bottom plate vibration of the apartment house to absorb the vibration of the upper floor plate, thereby generating the noise of the upper floor itself An object of the present invention is to provide a floor impact sound reduction device using a viscoelastic support-type multiple tuned mass damper that can be reduced.

As a means for achieving the above object, the floor impact sound reduction device using the viscoelastic support type multi-tuning mass damper of the present invention, I-shaped steel or c-shaped steel is attached to the bottom of the bottom plate which is a structure installed below the bottom finish of the structure It consists of a viscoelastic support-type multiple tuning mass damper coupled by an adhesive, characterized in that it absorbs the vibration of the bottom plate to reduce the floor impact sound.

The viscoelastic support type multiple tuning mass damper constituting the floor impact sound reduction device using the viscoelastic support type multiple tuning mass damper of the present invention is characterized in that it is formed to have 1 to 2% of the bottom plate mass.

In addition, the viscoelastic support type multi-tuning mass attenuator constituting the floor impact sound reduction device using the viscoelastic support-type multi-tuning mass damper of the present invention, the viscoelastic material made of a cushioning material such as rubber or urethane, and the weight body bonded thereon It is characterized in that configured to be connected to the bottom plate to have attenuation.

In addition, the viscoelastic material of the floor impact sound reduction device using the viscoelastic support type multi-tuned mass damper of the present invention is characterized in that it is coupled to the weight in the form of a polyhedron or a rod.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same number as much as possible even if displayed on different drawings.

The present invention is to reduce the heavy impact sound caused by the vibration of the bottom plate of the noise that is a problem in the apartment house, and to reduce the vibration of the bottom plate using a viscoelastic support type multi-tuned mass damper.

The viscoelastic support type multi-tuned mass attenuator absorbs the vibration of the bottom plate by combining a weight having 1 to 2% of the bottom plate mass with the viscoelastic material and connecting the bottom plate to have rigidity and damping. This will reduce the floor impact sound.

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

1 is a schematic diagram showing a viscoelastic support type tuned mass damper.

The viscoelastic support-type tuned mass damper 10 shown in the figure is tuned by tuning the natural frequency of the structure (architectural or civil engineering building, floor plate, etc.) and the frequency of its own (tuned mass damper) to be damped. It is a device that absorbs the vibration energy of the structure instead of itself to reduce the vibration of the structure.

The viscoelastic support-type tuned mass damper 10 having the above-mentioned function includes a weight body 12 having 1 to 2% of the bottom plate mass, and a bonding member, that is, an adhesive 14 or a lower portion of the weight body 12. It is made of a viscoelastic material 16 such as rubber or urethane fixed by another connecting member (bolt or nut), the viscoelastic material is combined in a polyhedral shape or a rod form to serve as a cushioning material.

Figure 2 is a schematic diagram showing a state in which the viscoelastic support-type multiple tuned mass damper of the present invention is installed using I-shaped steel, Figure 3 is a state in which the viscoelastic support-type multiple tuned mass damper of the present invention is installed using a c-shaped steel It is a schematic diagram showing.

As shown in the figure, the viscoelastic support type multi-tuned mass damper of the present invention is formed by symmetrical installation of the viscoelastic support-type tuned mass attenuator 10 shown in FIG.

This will be described in detail as follows.

That is, as shown in Figure 2, to the lower end of the bottom plate 3, which is a structure installed below the bottom finishing material 1 of the two-layer structure by attaching the I-shaped steel (5) by the anchor bolt (5a) as a coupling member, The lower end of the I-shaped steel 5 combines the viscoelastic support-type tuned mass damper 10 with left and right symmetry by an adhesive or a joining member such as a bolt or a nut to form a multi-tuned mass damper.

FIG. 3 shows two C-beams 9 instead of I-beams 5 and attaches them to the bottom of the bottom plate 3, and viscoelastic support-type tuned mass damper 10 inside the C-beams 9. Symmetrically coupled multiple symmetric mass dampers.

In the drawings, reference numeral 7 denotes a ceiling surface of the one-layer structure.

According to the present invention, the high modulus type TMD is possible by adjusting the elastic modulus value and the height of the viscoelastic material 16, and the attenuation amount required for the TMD can be realized by the inherent attenuation characteristic of the viscoelastic material.

That is, as shown in FIG. 1, the adjustment of the frequency of the TMD by the viscoelastic material is determined by the rigidity by compression and tension.

The stiffness K of the viscoelastic material subjected to compression or tension as described above is determined by Equation 1 below.

In Equation 1, E is the elastic modulus of the material, A is the cross-sectional area of the material, H is the length of the material.

Therefore, the frequency of the TMD supported by the viscoelastic material with the mass M is expressed by Equation 2 below.

Hereinafter, the design of the tuned mass damper will be described with reference to Examples.

Example 1

When the effective mass of the bottom plate 3 is 4000 kg and the natural frequency is 50 Hz, a tuned mass damper suitable for this is designed as follows.

If the mass of the tuned mass damper is set to 1% of the effective mass of the bottom plate, the natural frequency f of the tuned mass damper is 50 Hz corresponding to the natural frequency of the bottom plate.

The mass of the tuned mass damper is 40 kg.

Since the mass of the tuned mass damper is too large, it is divided into 10 pieces to produce 4 kg per piece. (Size 4cm × 6cm × 21.23cm, iron density 7850kg / m ³ )

The cross-sectional area (A) of two viscoelastic materials 1 cm wide and 21.23 cm long is A = 2 x 1 x 21.23 = 42.46 cm ²

Elastic modulus of material (E) = 23000 N / cm ² (elastic modulus of rubber series)

The height H of the material is obtained by the following equation (3).

The TMD (Tuned Mass Damper) of the present invention has a vibration reduction effect when synchronized with a specific frequency of a structure in which vibration occurs.

However, the higher order mode frequency of the bottom plate is different from the actual structural analysis results, so it must be clearly estimated through measurement. However, measuring all decks is economically unreasonable, and higher order frequencies are likely to change over time. Therefore, as shown in FIG. 2, the control effect can be expected by distributing a plurality of TMDs in a frequency region where a high order mode frequency is likely to exist.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the floor impact sound reduction device using the viscoelastic support type multi-tuned mass damper of the present invention can effectively reduce the generation of floor impact sound by absorbing the floor plate vibration of the apartment house, As the weight is bonded to the upper part of the viscoelastic material to replace and implement the inherent damping force of the TMD, it is possible to manufacture a small TMD.The noise is distributed by distributing several TMDs in a frequency region where high-order mode frequencies are likely to be generated. The control effect of can be expected.

Claims (7)

I-shaped steel is attached to the bottom of the bottom plate, which is a structure installed under the bottom finish of the structure by a coupling member, and a viscoelastic support-type multiple tuning mass damper is coupled to the bottom of the I-shaped steel by a bonding member. Floor impact sound reduction device using multi-tuned mass damper. Two c-beams are attached to the bottom of the bottom plate, which is a structure installed under the bottom finishing material of the structure, by a coupling member, and a viscoelastic support-type multiple tuning mass damper is coupled to the bottom of the c-beam by a joining member. Floor impact sound reduction device using viscoelastic support type multi-tuned mass damper. The method of claim 1 or 2, wherein the viscoelastic support-type multi-tuning mass attenuator is a viscoelastic material-supported multi-tuning mass attenuator is connected to the bottom plate so that the viscoelastic material and the weight coupled to the upper portion has rigidity and damping Floor impact sound reduction device using mass damper. The floor impact sound reduction device using a viscoelastic support type multiple tuning mass damper according to claim 1 or 2, wherein the joining member is an adhesive. 4. The device of claim 3, wherein the viscoelastic support-type multi-tuned mass damper is formed to have 1 to 2% of the bottom plate mass. 4. The floor impact sound reduction device according to claim 3, wherein the viscoelastic material is made of a cushioning material such as rubber or urethane. According to claim 3, The viscoelastic material floor impact sound reduction device using a viscoelastic support-type multiple tuning mass damper, characterized in that coupled to the weight in the form of a polyhedron or a rod.

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