KR200419985Y1 - sound insulation wall for central control room - Google Patents

Abstract

The present invention is a sound insulation wall for noise reduction in the central control room located inside the power plant, etc., the concrete wall is installed toward the direction of the noise, vibration of the turbine; Damping material for reducing the noise and vibration passed through the concrete wall; A board installed after the damping material; A polyester sound absorbing material installed next to the board to reduce resonance of noise and vibrations past the board; A corrugated sound insulation panel layer for reducing permeation of low frequency sound provided next to the sound absorbing material; A gypsum board installed next to the corrugated sound insulation panel; A damping material installed next to the gypsum board; Gypsum board installed next to the damping material; Sound absorbing material containing a flame-retardant component that absorbs the noise reduced through the process and the noise generated in the central control room; relates to a sound insulation wall for reducing the internal noise of the central control room.

In the implementation of the present invention it is possible to minimize the thickness of the sound insulation wall by effectively reducing vibration and noise by using the damping material and the corrugated sound insulation panel layer.

Sound insulation wall, damping material, sound absorption material, board, corrugated sound insulation panel

Description

Sound insulation wall for central control room

1 is a side view of an embodiment of the present invention.

2 is a plan view according to an embodiment of the present invention.

Figure 3 is a partial side view according to another embodiment of the present invention.

Figure 4 is a partial side view according to another embodiment of the present invention.

5 is a partial side view according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10; internal noise reduction sound insulation wall 20: sound insulation wall top

30: Sound insulation wall interruption 40: Lower sound insulation wall

100,120: damping material

200: Board 250: Gypsum board

300: sound absorption material 350: polyester sound absorption material

400: concrete wall

500: corrugated sound insulation panel layer

600: Runner 650: Stud

The present invention relates to a sound insulating wall for reducing noise in a central control room or the like generated by a turbine or the like of a power plant. More particularly, the present invention provides a sound insulation wall for noise reduction in a central control room located inside a power plant, such as: a concrete wall installed toward a direction of generating noise and vibration of a turbine; Damping material for reducing the noise and vibration passed through the concrete wall; A board installed after the damping material; A polyester sound absorbing material installed next to the board to reduce resonance of noise and vibrations past the board; A corrugated sound insulation panel layer for reducing permeation of low frequency sound provided next to the sound absorbing material; A gypsum board installed next to the corrugated sound insulation panel; A damping material installed next to the gypsum board; Gypsum board installed next to the damping material; Sound absorbing material containing a flame-retardant component that absorbs the noise reduced through the process and the noise generated in the central control room; relates to a sound insulation wall for reducing the internal noise of the central control room.

In addition to the heat blocking function, the wall blocks or absorbs sound generated inside and outside the room. Especially, the plate-like material used for the exterior finishing surface absorbs the vibration energy generated in the whole plate by the negative pressure. It converts into heat. In addition, when sound waves enter a porous material such as a heat insulating material or a sound absorbing material or a breathable material such as a fibrous material, the sound is absorbed by thermal energy by viscous friction generated by air vibrations inside the material. By the way, the above-mentioned sound absorption of the porous material has a great effect in the high frequency range, that is, the region of high frequency, but a considerable amount is transmitted as it is in the low frequency sound range.

On the other hand, the sound insulation performance of the wall is a transmittance indicating the degree of transmission energy to the incident energy of the sound is used, the greater the surface density of the plate or the higher the frequency of sound, the better the sound insulation performance. However, if the natural frequency of the plate coincides with the sound frequency, resonance oscillation occurs between the plate and the sound wave, and the sound is transmitted rapidly. That is, even at low frequencies, there was a limit to blocking low frequency sound.

In order to improve the sound insulation effect, an air layer was developed between the wall of the noise generating room and the wall of the sound receiving room, but there was a problem that the vibration transmitted in the process of fixing the finishing wall and the studs of the wall was not effectively controlled.

In particular, the central control room of the power plant is the place to control the power generation process throughout the power plant. However, noises and vibrations of turbines and the like during the power generation process are transmitted to the central control room, causing stress to the central control room workers and the like, and causing the failure of the central control system such as computers and controllers.

The present invention aims to solve the above problems by effectively disposing the damping material, sound absorbing material and asymmetric corrugated sound insulation panel inside the sound insulation wall to increase the sound insulation effect and at the same time significantly reduce the thickness of the wall.

The present invention is a sound insulation wall for noise reduction in the central control room located inside the power plant, etc., the concrete wall is installed toward the direction of the noise, vibration of the turbine; Damping material for reducing the noise and vibration passed through the concrete wall; A board installed after the damping material; A polyester sound absorbing material installed next to the board to reduce resonance of noise and vibrations past the board; A corrugated sound insulation panel layer for reducing permeation of low frequency sound provided next to the sound absorbing material; A gypsum board installed next to the corrugated sound insulation panel; A damping material installed next to the gypsum board; Gypsum board installed next to the damping material; Characterized in that it comprises a; sound absorbing material containing a flame retardant component that absorbs the noise reduced through the above process and the noise generated in the central control room.

In addition, the present invention is characterized in that it further comprises a runner which is respectively installed at the upper end and the lower end of the polyester sound-absorbing material between the board and the asymmetric corrugated sound insulation panel.

In addition, the present invention is characterized in that it further comprises a stud installed from the upper end to the lower end of the polyester sound-absorbing material between the board and the corrugated sound insulation panel.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the accompanying drawings. 1 is a side view of an embodiment of the present invention, Figure 2 is a plan view according to an embodiment of the present invention, Figure 3 is a partial side view according to another embodiment of the present invention, Figure 4 is another embodiment of the present invention Figure 5 is a partial side view according to another embodiment of the present invention.

The structural feature of the present invention is to minimize the noise and vibration by inserting the damping material (100, 120) between the wall and the wall first,

When the damping material (100, 120) is coupled enough to be able to act integrally between the concrete wall 400 and the board 200 or between the gypsum board 250 and the gypsum board 250, as in the configuration of the present invention, It converts vibration energy acting from the outside into thermal energy by viscous friction to dampen the impact.

In addition, the damping material (100, 120) can be carried out using a damping sheet or the like, such a damping sheet is a material that promotes vibration damping by bonding or heat-sealed to the vibration surface as described above, in particular asymmetrical between the finish surface and the finish surface Secondly, vibrations (sound waves) transmitted to the studs in the corrugated sound insulation channel and the asymmetric corrugated sound insulation channel are additionally reduced, and the damping material is preferably a viscoelastic material.

In general, factors affecting the sound insulation performance of a building include weight, uniformity, and stiffness. In terms of weight, when the weight per unit area is doubled, the sound insulation volume theoretically increases by about 6 dB, but actually increases by about 4 to 5 dB. The effect of sound insulation depends on the uniformity and completeness of the structure. The transmission loss of low frequency noise is mainly determined by the stiffness. When the stiffness is doubled, the transmission loss increases by about 6dB. Therefore, the present invention is configured to significantly reduce the thickness of the wall by using the characteristics of the damping material (100,120).

Board 200 to be used in the implementation of the present invention is preferably a good sound-absorbing and good rigid wood board. The reason is that one of the features of the configuration of the present invention is to insert the damping material (100, 120) between the board (or wall) and the board close to them to serve to restrain the damping material (100, 120) board This is because the damping material receives shear stress due to the restraining force of the board when the wall vibrates, thereby maximizing resistance to the vibration (damping force) and effectively blocking the vibration with a minimum thickness. Therefore, unlike the general board, it is preferable to select and implement the board 200 having excellent rigidity. At this time, the rigidity of the board can have a proper rigidity according to the implementation conditions of the present invention.

 The gypsum board 250 refers to a mixture of sawdust, fiber, pearlite, etc., using calcined gypsum as the main raw material, and in some cases, a foamed agent is added and kneaded to form a paste state between two sheets to harden into a plate.

In addition, the gypsum board 250, there is a flat board, it is used in the wall or ceiling to act as a fire-retardant, the las board is used as the inner material of the wall. In addition, sound-absorbing boards are sound-absorbing, and decorative plaster boards with printed or plastic coating on the surface are used for interior walls. In the implementation of the present invention, the gypsum board 250 is configured to be installed by selecting the food according to the installation condition of the sound insulation wall.

 The corrugated sound insulation panel layer 500 used in the practice of the present invention is carried out using an asymmetric corrugated sound insulation panel. In some cases, the two asymmetric corrugated sound insulation panels may be connected to each other to form a symmetrical structure.

The corrugated sound insulation channel layer 500 according to the present invention is preferably composed of a stud fixing part fixed to the stud, a first bent part for forming a space, a corrugated part and a second bent part in contact with the first finishing surface. do. In particular, since the second bent portion is shorter than the first bent portion, the structure is open in the inner space of the air layer, so that the negative pressure (vibration) transmitted to the corrugated plate portion is elastically hinged and compressed and damped around the stud fixing part.

This asymmetrical structure also prevents sound from resonating inside the air layer. This is a technique related to the invention (published patent 10-2005-0069677) filed and published by the applicant, detailed description thereof will be omitted.

Finally, the sound absorbing material 300 used in the present invention was installed to reduce the noise and vibration generated inside the central control room, in addition to reducing the noise or vibration generated in the turbine inside the power plant. That is, the sound absorbing material 300 is used for the interior finishing of the wall as a material such as glass surface, rock surface to absorb the sound generated in the noise space. In this case, the sound absorbing material 300 is used as the sound absorbing material 350, but more preferably flame retardant, that is, by using a sound absorbing material containing a flame retardant component was configured to increase the sound absorbing effect.

In addition, the runner 600 is installed on each of the upper and lower ends of the polyester sound absorbing material.

In order to support the wall of the polyester sound absorbing material, a stud 650 is provided from the upper end to the lower end of the polyester sound absorbing material.

The specific construction sequence of the present invention is as follows.

1. First, the concrete wall 400 is installed primarily from a power generation room including a turbine that becomes a source of vibration and noise.

2. Then, 4mm damping material 100 and 12mm board 200 are installed in order. At this time, it is important that the damping material 100 and the concrete wall 400 and the board 200 are installed to be in close contact with each other. If the damping material is tightly installed so that the damping material is integrated between the concrete wall and the board, the damping material 100 and 120 and the board are integrated in the vibration energy transmitted through the concrete wall. This is because the damping material receives shear stress due to the restraint force of the board when the wall vibrates and maximizes the resistance (damping force) to the vibration, thereby effectively blocking the vibration with the minimum thickness. As a result, the vibration energy is converted into thermal energy, thereby reducing noise and vibration, thereby significantly reducing the thickness of the wall compared with the conventional sound insulation wall.

3. After the installation of the board 200, the polyester sound absorbing material 350 is installed to a thickness of 50mm. At this time, the stud 650 is installed over the upper and lower ends of the polyester sound absorbing material 350 to support the polyester sound absorbing material 350.

4. And after the installation of the polyester sound-absorbing material 350 is installed a corrugated sound insulation panel layer 500 to reduce resonance and noise.

5. Then install the gypsum board 250 excellent sound absorption again to a thickness of 9mm.

6. And damping material 120 is installed to a thickness of 2mm to weaken the weakened vibration again. Then install gypsum board with a thickness of 9mm.

7. And the sound-absorbing material 300 containing a flame retardant component is installed and finished with a thickness of 25mm.

Effects distinguished from the prior art generated by the implementation of the present invention by the above configuration is as follows.

In constructing the sound insulation wall, it is possible to minimize the thickness of the sound insulation wall by effectively reducing vibration and noise by using a damping material and an asymmetric corrugated sound insulation panel.

Claims (6)

In the sound insulation wall for noise reduction inside the central control room located inside the power plant, Concrete wall installed toward the direction of the noise, vibration of the turbine; Damping material for reducing the noise and vibration passed through the concrete wall; A board installed after the damping material; A polyester sound absorbing material installed next to the board to reduce resonance of noise and vibrations past the board; A corrugated sound insulation panel layer for reducing permeation of low frequency sound provided next to the sound absorbing material; A board installed next to the corrugated sound insulation panel layer; A damping material installed next to the gypsum board; A board installed after the damping material; Sound absorbing material for absorbing the noise generated by the process and the noise generated in the central control room; Sound insulation wall for noise reduction inside the central control room, characterized in that comprising a. In claim 1, And a runner installed at each of the upper end and the lower end of the polyester sound absorbing material between the board and the corrugated sound insulation panel layer. In claim 2, And a stud installed from the upper end to the lower end of the polyester sound absorbing material between the board and the corrugated sound insulation panel layer. The method according to any one of claims 1 to 3, And the corrugated sound insulation panel layer is asymmetric corrugated sound insulation panel layer. In claim 4, The board is soundproof walls for noise reduction inside the central control room, characterized in that the gypsum board. In claim 4, The sound absorbing material is a sound insulation wall for reducing noise in the central control room, characterized in that the flame-retardant treatment using a flame retardant.

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