KR101086318B1 - Hanger for floor between noise drop - Google Patents

Abstract

The present invention is to provide a damping mechanism for interlayer noise reduction to reduce the vibration energy between the floor and noise by installing a damper mechanism having a vibration-resistant rubber in the connection of the hanger and the carrying channel, which is a structure used in the lightweight ceiling system will be.

The bottom surface (1) of the upper layer made of concrete, the struts (11) respectively provided at the bottom edge of the bottom surface (1), and the bottom surface of the carrying channel (3) coupled to the central portion of the struts (11) A damper 12 for damping vibration and noise, a support member 13 for supporting a bottom surface of the embar 4 coupled to the lower end of the support 11, and a carrying channel 3 and an embar 4. A floor apparatus for reducing noise between floors, characterized in that it comprises a ceiling surface (2) made of gypsum board fixed by.

Noise, Vibration, Moon, Damper, Interlayer

Description

Hanger for floor between noise drop

1 is a perspective view showing an interlayer structure of a typical building.

Figure 2 is a perspective view of the moon apparatus according to the present invention.

Figure 3 is a perspective view showing a state in which the moon apparatus according to the invention is installed.

4 is a cross-sectional view showing a state in which the moon mechanism according to the present invention is installed.

[Description of Reference Numerals]

1: bottom surface 3: carrying channel

4: Emba 11: holding

12 damper 13 support member

The present invention relates to a floor mechanism for reducing noise between floors, and more particularly, to provide vibration damping mechanism between floors by installing a damper mechanism having anti-vibration rubber at a connection between a hanger, which is a structure used in a lightweight ceiling system, and a carrying channel. The present invention relates to an interlayer noise reduction device capable of reducing noise.

In general, in a multi-storey building, since the floor of the upper floor forms a ceiling of the lower floor, vibrations and noise generated in the upper floor are transmitted to the lower floor through the floor and the lower side of the floor, thereby preventing inter-floor noise. There is an urgent need for a device.

On the other hand, in recent years, a lightweight ceiling system that can be used to reduce the weight of the ceiling structure is widely used, as shown in Figure 1, the bottom surface (1) of the upper floor is cast concrete and the lower surface of each corner of the bottom surface (1) After installing the hanging mechanism 10 in the lower end of the holding mechanism 10, the carrying channel (3) and the embar (m-bar) (4) are sequentially installed and the carrying channel (3) and embar (4) It is made by attaching gypsum board to form the ceiling of the lower floor on the bottom of the floor.

However, this conventional ceiling system is made of a metal and the caring channel (3) and embar (4) supported by the hanging fixture 10 and the hanging fixture 10 will not be able to buffer the vibration and noise generated in the upper layer There was a problem.

The present invention has been invented to solve the above problems, the object of the upper side of the building by fixing the carrying channel is installed to support the gypsum board forming the ceiling surface of the building using a moon mechanism equipped with a buffer member An object of the present invention is to provide an interlayer noise reduction device capable of effectively reducing vibration and noise transmitted through a floor.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The interlocking noise reduction device of the present invention is in contact with the bottom surface of the upper layer made of concrete, the struts respectively installed at the bottom edge of the bottom surface, and the bottom surface of the carrying channel coupled to the center of the strut to damp vibration and noise. It includes a damper, a support member for supporting the bottom of the embar coupled to the lower end of the support, and the ceiling surface made of a gypsum board fixed by the carrying channel and the embar.

Referring to the present invention having such characteristics in detail as follows.

2 is a perspective view showing the moon apparatus according to the present invention, Figure 3 is a perspective view showing a state in which the moon apparatus according to the invention is installed, Figure 4 is a cross-sectional view showing a state in which the moon apparatus according to the invention is installed.

As referred to herein, the present invention is to block the vibration wave from the vibration source by using rubber as a cushioning material for the vibration source that generates noise, thereby simplifying installation and construction.

According to the anti-vibration rubber design technique, the present invention provides a method of calculating a load applied to a rubber damper, calculating a stress caused by the rubber damper, and determining a shape of the rubber damper to facilitate mounting. Through the step of determining the steel cover to accommodate the design of the cushioning member, an example will be described as follows.

First, when the damper is constructed using the anti-vibration rubber, the amount of deformation due to the load applied to the rubber should be within 10 to 15%. For this purpose, the self-weight of the gypsum board and the embar of the ceiling system of FIG. Calculated.

According to this result, the deflection of the rubber is about 6 [mm], which is less than 1% when 1 [mm] thick rubber is used, so the amount of deflection is not a concern in this lightweight system.

The following is the calculation of vibration wave blocking when anti-vibration rubber is used. The wave energy reflectance is shown in Equation 1.

[Equation 1]

Tr = {(Z2-Z1) / (Z1 + Z2)} 2

From here

Tr: reflectance

Z1: Rubber Impedance

Z2: Impedance of Iron

The reflectance according to Equation 1 is Tr = 99.8%, and the vibration wave coming through the moon is almost blocked.

FIG. 2 is a perspective view showing the structure of the moon according to the present invention, in which a support 11 is attached to the bottom of the bottom surface 1 of the upper layer, and a damper on which a carrying channel 3 is seated at the center of the support 11. 12 is provided, the support member 13 for supporting the embar (4) is provided at the lower end of the support (11), the damper 12 and the support member 13 to absorb vibration and noise It is made of rubber material.

Therefore, with reference to Figures 3 and 4 showing the installation state of the moon structure of the present invention will be described in detail.

First, the upper end of the support 11 is connected to the bottom of the bottom 1 edge of the upper layer, and the carrying channel 3 is seated on the upper surface of the damper 12 installed at the center of the support 11. An embar 4 is mounted on the support member 13 installed at the lower end of the support 11, and a gypsum board forming a lower ceiling surface 2 is attached to the bottom of the carrying channel 3 and the embar 4. It is.

According to the present invention configured as described above, when vibration and noise are transmitted to the bottom surface 1 of the upper layer, the vibration and noise are buffered by the damper 12 and the support member 13 through the support 11, and at the same time, the support 11 is provided. Since the transmission to the bottom surface 1 of the upper layer through the damper 12 and the support member 13, the vibration is not transmitted to the carrying channel 3 and the embar (4) respectively.

On the other hand, since vibration and noise are not transmitted to the carrying channel 3 and the embar 4, vibration and noise are applied to the lower ceiling surface 2 attached to the bottom of the carrying channel 3 and the embar 4. Because it is not transmitted, it is possible to effectively block the noise between floors.

As such, the present invention reduces most of the vibration waves (more than 90%) transmitted from the upper floor of the lightweight ceiling system attaching gypsum board to the ceiling, thereby suppressing secondary vibration of the lower floor ceiling, thereby dramatically reducing noise. There is a unique effect that can be reduced.

Claims (3)

The bottom surface (1) of the upper layer made of concrete, the struts (11) respectively provided at the bottom edge of the bottom surface (1), and the bottom surface of the carrying channel (3) coupled to the central portion of the struts (11) A damper 12 for damping vibration and noise, a support member 13 for supporting a bottom surface of the embar 4 coupled to the lower end of the support 11, and a carrying channel 3 and an embar 4. A floor apparatus for reducing noise between floors, characterized in that it comprises a ceiling surface (2) made of gypsum board fixed by. The method of claim 1, wherein the damper (12) and the support member (13) is installed on the support (11) interlayer noise reduction moon mechanism characterized in that the rubber material capable of cushioning the impact force. The method of claim 1, wherein the damper (12) and the support member (13) installed in the support (11) is characterized in that the interlayer noise reduction moon mechanism characterized in that the circular shape.

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