KR200421015Y1 - sound proof construction - Google Patents

Abstract

The present invention relates to a method of forming an interlayer noise prevention layer for reducing the generation intensity of noise transmitted from the upper floor to the lower floor through the floor of a multi-family house and suppressing the transmission, and a soundproof plate used therein.

When children run on the floor of a multi-unit house, a solid vibration of the floor vibrates.

The solid vibration vibrates the air in contact with the bottom of the floor slab to generate gas vibration, which is the noise that rings the occupants' ears down.

The method of reducing the inter-layer noise is roughly divided into the method of reducing the intensity and duration of the occurrence of the noise for the same impact, and blocking the path of the noise transmission.

In the present invention, as a method of reducing the generation intensity of the noise and blocking the transmission of the solid vibration in the horizontal direction, the bottom upper layer is composed of a plurality of dividers.

In order to block the solid vibrations generated from the divider down, a dustproof plate made of soft material is placed under the divider.

A hollow portion penetrating up and down is formed in the dustproof plate so that heat emitted from the hot water pipe is transferred to the partition plate through the convection of air.

In order to prevent the gas vibration from being transmitted in the horizontal direction in the layer made of the anti-vibration plate, the respective hollow portions are independently connected to each other.

If the surface of the floor is made of a soft material, the solid vibration due to the impact is significantly reduced, but this material is easily worn and dirty, and it is difficult to transfer the heat emitted from the hot water pipe to the surface. It is also one of the objectives of the present invention to reduce the transmission.

Vibration is significantly reduced in strength as it passes from solid to gas via solid.

In addition, the strength decreases significantly in the process of passing through contact surfaces of solids having different densities.

In the present invention, by using this phenomenon, the floor surface layer of the multi-family house is composed of a plurality of partition plates made of hard materials, and divided and spaced apart to reduce the solid vibration transmitted in the horizontal direction.

In addition, a dustproof plate made of a soft material is laid under the divider to reduce the solid vibration transmitted to the bottom.

In the conventional floor structure, the whole floor of the room where the hot water pipe mortar layer on the floor is partitioned into a wall is made into a single plate. There is a lot of energy transmitted.

In addition, the hot water pipe mortar layer, which acts like a diaphragm of the folk instrument 꽹 Gakri against the impact, is formed integrally, and when the impact is applied, the amplitude of the vibration is large and the duration is long, thereby increasing the intensity of noise transmitted to the lower floor.

The smaller the impacted diaphragm, the smaller the amplitude of the vibration and the shorter the duration, so that the floor surface of the MDU is also divided into smaller pieces, which is advantageous to suppress the generation and propagation of noise.

The soundproof plate is made of an integral part of the partition plate and the anti-vibration plate as a design of the article, and is designed to simplify the construction of the interlayer noise prevention layer.

Sound insulation board, floor noise prevention, vibration, solid vibration, sound insulation, noise, sound insulation. Sound Insulation,

Description

Soundproof construction and sound insulation plate

1 is a plan view of a floor with an interlayer noise prevention layer of the present invention

Figure 2 is a-a 'cross-sectional view of the floor with the interlayer noise protection layer

Figure 3 is a-a 'cross-sectional view of the floor with the interlaminar noise prevention layer

Fig. 4 is a sectional view in the b-b 'direction of the floor with an interlayer noise protection layer.

5 is a cross-sectional view in the d-d direction of the interlayer noise preventing layer

Figure 6 is a cross-sectional view in the c-c 'direction of the interlayer noise prevention layer

Figure 7 is a conventional bottom cross section using a foamed resin plate

Figure 8 is a conventional bottom cross section not using a foamed resin plate

Figure 9 is a cross-sectional view of the floor with the interlayer noise prevention layer of the present invention consisting of the partition plate 20 and the dustproof plate 30

Figure 10 is a cross-sectional view of the floor with an interlayer noise prevention layer using the sound insulation plate 40 'of the present invention

11 is a cross-sectional view of the floor with an interlayer noise prevention layer using the soundproof plate 40 '' of the present invention.

12 is a plan view of the sound insulation plate 40 'of the present invention

Figure 13 is a front view of the sound insulation plate 40 'of the present invention

14 is a cross-sectional view in the e-e 'direction of the sound insulation plate 40' of the present invention.

Figure 15 is a cross-sectional view in the e-e 'direction of the sound insulation plate 40' of the present invention

Figure 16 is a bottom view of the sound insulation plate 40 'of the present invention

Figure 17 is a cross-sectional view in the f-f 'direction of the sound insulation plate 40' of the present invention

Fig. 18 is a sectional view in h-h 'direction of the sound insulation board 40' of the present invention.

Fig. 19 is a sectional view in the g-g 'direction of the sound insulation plate 40' of the present invention.

20 is a plan view of the sound insulation plate 40 '' of the present invention

Figure 21 is a front view of the sound insulation plate (40 '') of the present invention

Fig. 22 is a sectional view taken along the line i-i 'of the soundproof plate 40' 'of the present invention.

Fig. 23 is a sectional view taken along the line i-i 'of the soundproof plate 40' 'of the present invention.

24 is a bottom view of the soundproof plate 40 '' of the present invention

25 is a cross-sectional view in the j-j 'direction of the sound insulation board 40' 'of the present invention.

Fig. 26 is a sectional view taken along the line l-l 'of the soundproof plate 40' 'of the present invention.

Fig. 27 is a sectional view in k-k 'direction of the sound insulation plate 40' 'of the present invention.

* Explanation of Signs of Major Parts of Drawings *

10: floor plate 12: hot water pipe mortar

13: hot water piping 14: lightweight foam concrete

16: floor slab 18: foamed resin board

20: divider 20 ': divider

20 '': Partition plate 22 ': Joining part

22 '': coupling part 30: dustproof plate

32: hollow part 40 ': soundproof plate

40 '': Soundproofing Plate

The most widely used floor construction method for reducing the inter-floor noise of the multi-unit house is the form shown in Figure 7, the first step is to lay the foamed resin plate 18 on the floor slab 16, and the lightweight foam concrete 14 thereon Is to pour.

And install the hot water pipe 13 for heating on the lightweight foam concrete (14) and attach the jangpan 10 on the hardened by pouring the hot water pipe mortar (12) so that the hot water pipe is buried.

The foamed resin board 18 is for insulation and sound insulation, but focuses on sound insulation and varies in material and shape depending on the production company, and most of them have registered a patent or utility model.

Lightweight foam concrete 14 is focused on heat insulation, but the sound insulation effect increases as the thickness of the floor increases.

As shown in FIG. 8, the foamed resin plate 18 may be omitted, and the construction may be sometimes performed by increasing the thickness of the lightweight foamed concrete 14.

Placing layers made of materials of low density, such as foamed resin plates, is due to their excellent effect of suppressing the transmission of solid vibrations.

The problem with the conventional method is that the lightweight foamed concrete 14 and the hot water pipe mortar 12 are made of a material having a higher density than the foamed resin plate on the foamed resin plate 18 which is low in density and easily stretched according to the change of load. There is a wide plate made of).

The dense, wide-area plates on the low-density foamed resin board act as diaphragms, which easily vibrate when subjected to impact, resulting in solid vibrations with large amplitudes and long durations.

In addition, when vibration is generated due to impact on the floor surface, solid vibration is spread over the entire floor made of an integral plate, and then solid vibration is transmitted to the lower layer, so that the area where vibration is transmitted is large.

Solid vibrations passing through the floor reach the lower floor and cause gas vibration by vibrating the air in contact with the floor slab, which is interlayer noise.

The technical problem to be achieved in the present invention is to weaken the amplitude of the solid vibration and to reduce the duration of vibration, and to prevent the solid vibration from spreading in the horizontal direction of the floor. It reduces the area where noise is transmitted to the lower floor and puts a dustproof layer between the upper floor and the slab to reduce the transmission of solid vibration generated from the upper floor of the apartment house to the lower floor.

In addition, it is also a technical problem of the present invention to ensure that the heat emitted from the hot water pipe is properly transferred to the surface of the floor while achieving the above object.

The core of the present invention is to reduce the amplitude of solid vibration generated when an impact is applied to the floor surface of an apartment house, to shorten the duration of the generated solid vibration, to suppress the horizontal transmission of the generated solid vibration, It is a method of forming an interlayer noise prevention layer that suppresses the transmission of solid vibration in the direction and does not prevent the heat emitted from the hot water pipes from being transferred to the surface of the floor.

As shown in FIGS. 1 to 6, the method for forming the interlayer noise preventing layer is made of a dustproof plate 30 having a hollow part 32 formed on the hot water pipe mortar 12 and a plurality of partition plates 20 thereon. To complete.

The dustproof plate 30 is made of a soft material such as foamed resin, rubber, soft urethane resin, and the hollow part 32 is formed independently without being connected to each other.

The role of the dustproof plate 30 is to suppress the transmission of the solid vibration generated when the impact on the partition plate 20 to the bottom slab 16 of the lower.

Since the hollow part 32 is formed in the dustproof plate 30, the heat radiated from the hot water pipe 13 heats the air in the hollow part 32 and generates convection to transfer the heat to the partition plate 20 so that the heating is performed. It becomes possible.

Since the hollow portions 32 are separated from each other and formed independently, the air of the hollow portions does not communicate with each other, so that gas vibration is prevented from spreading horizontally in the layer made of the anti-vibration plate 30.

The partition plate 20 is made of a hard, dense, heat-transmitting material such as metal, stone, and concrete, and covers a plurality of small partition plates 20 at narrow intervals to complete the interlayer noise prevention layer.

If the surface of the floor is not divided into a plurality of independent dividers 20 and is composed of an integral plate made of hot water pipe mortar 12 as shown in Figs. Vibration spreads throughout the floor in the horizontal direction, which is transmitted to the lower floor in a large area, thereby increasing the noise transmitted.

The partition plate 20 is difficult to be made of a flammable and soft material such as a fiber and rubber synthetic resin in order to be protected from abrasion, breakage, fire and pollution, and is preferably made of a nonflammable and hard material such as metal and stone. .

The above description is devised about the composition method of the interlayer noise preventing layer, and the content of the devised about the soundproof plate for carrying out the above method is as described below.

The soundproof plate 40 'of the present invention has a dustproof plate 30 having a hollow portion 32 and a partition plate 20' having a coupling portion 22 ', as shown in FIGS. 12 to 19. Are combined.

Coupling portion 22 'formed in the divider plate 20' is inserted into the hollow portion 32 of the dustproof plate 30 to combine the divider plate and the dustproof plate.

Another soundproof plate 40 '' of the present invention is a partition plate formed with a dustproof plate 30 having a hollow portion 32 and a coupling portion 22 '', as shown in FIGS. 20 to 27. 20 '') are combined.

The dustproof plate 30 is inserted into the coupling part 22 ″ formed along the outer side of the divider plate 20 ″ so that the divider plate 20 ″ and the dustproof plate 30 are coupled to each other.

When the soundproof plate 40 'and the soundproof plate 40' 'described above are laid on the top of the hot water pipe mortar 12 to complete the interlayer noise prevention layer, the solid vibration generated by the impact is limited to one soundproof plate and the other soundproof plate in the horizontal direction. Not delivered

In addition, the sound insulation board is made of small area, so when the impact is applied, the amplitude of vibration is small and the duration of vibration is short.

The solid vibration in the downward direction is weakened while passing through the vibration damping plate 30 made of the soft material, and the hollow portions 32 are formed separately from each other, so that the gas vibration is spread in the horizontal direction in the layer made of the vibration damping plate 30. Is also suppressed.

In the method of forming an inter-floor floor noise prevention layer of the present invention, a dustproof plate 30 is installed on the top of the hot water pipe mortar 12 to prevent solid vibrations from being transferred to the bottom, and the partition plate divides the floor into several pieces on the top of the dustproof plate. (20) is completed, and compared with the previous method of making a layered noise prevention layer by laying a foamed resin board under the hot water pipe mortar layer, the amplitude of the solid vibration generated when the same magnitude of impact is applied becomes smaller and the solid vibration The duration is shortened, and the generated solid vibration is limited to one soundproof plate and does not diffuse in the horizontal direction, thereby reducing the interlayer noise transmitted to the lower floor.

In addition, it is an advantage of the present invention to effectively reduce the generation and transmission of solid vibration compared to the conventional method, but does not interfere with the transfer of heat emitted from the hot water pipe to the floor surface of the house.

The soundproof plate 40 'and the soundproof plate 40' 'of the present invention have the effect of simplifying the method by making the partition plate and the vibrationproof plate integrally.

Claims (3)

delete The partition plate 20 'is made of a hard material and the coupling portion 22' is formed, and the dustproof plate 30 is made of a soft material and formed with independent hollow portions 32. In the soundproof plate (40 ') is installed on the hot water pipe mortar (12) to block the noise and vibration generated from the bottom of the upper floor to be transmitted to the lower floor. Hollow parts 32 independent of each other are formed on the dustproof plate 30 so that heat generated from the hot water pipe mortar 12 can be transferred to the upper partition plate 20 ', and the dustproof plate 30 and the partition plate 20 are formed. Soundproof plate, characterized in that the coupling portion (22 ') is inserted into the hollow portion of the dustproof plate (20') is formed in the lower portion of the partition plate (20 ') to be coupled to the'. The partition plate 20 ", which is made of a hard material and has a joining portion 22 ", and a dustproof plate 30, which is made of soft material and formed with independent hollow portions 32, is located at the bottom of the apartment house. In the soundproof plate (40 ") is installed on the hot water pipe mortar (12) to block the noise and vibration generated from the bottom of the upper floor to be transmitted to the lower floor. Hollow parts 32 independent of each other are formed on the dustproof plate 30 so that heat generated from the hot water pipe mortar 12 can be transferred to the upper partition plate 20 ″, and the dustproof plate 30 can be inserted therein. Soundproof plate, characterized in that the engaging portion (22 ") is formed on the outer lower portion of the partition plate (20").

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