KR20090009663U - Sound insulation ceiling system of apartment - Google Patents

Abstract

In recent apartments, about 200 mm of air is formed on the ceiling using wooden frames or lightweight steel frames to install sprinklers, system air conditioners and air conditioning equipment. However, when the air layer is formed on the ceiling, since the air is a medium for compressing and expanding, the ceiling plate and the air layer form a system having elasticity and inertia and have a unique vibration frequency. At this time, when the impact sound is generated in the upper layer generation, a resonance phenomenon occurs due to the difference in natural frequencies between the ceiling plate and the air layer, and the floor shock sound blocking performance is deteriorated.

In particular, heavy impact sound is known to have higher emissivity of the impact sound through the ceiling than the wall surface, so it is necessary to take countermeasures.

The present invention relates to a ceiling system that can improve the floor impact sound blocking performance by preventing the low frequency resonance occurring in the air layer of the ceiling structure, and the floor impact sound in the low frequency region by constructing a ceiling plate having an opening formed at the edge of the ceiling. It is to prevent amplification.

Floor impact sound, sound insulation ceiling system, ceiling panel, resonance phenomenon

Description

Sound insulation ceiling system of apartment

The present invention relates to a sound insulation ceiling system of a multi-family house, and more particularly, to a sound insulation ceiling system of a multi-family house for reducing the weight impact sound in the upper floor of the multi-family house.

A method used to reduce floor impact sound delivered to the lower floor generation due to the floor impact of the upper floor generation of multi-family houses. There is a floor method.

 However, recently, the floating floor method is known to have a limit in reducing the floor impact sound. Thus, a new method such as a double floor has been introduced. There are disadvantages inferior to this floating floor method.

Another method is to reduce the floor impact sound by installing a hanger between the upper slab and the ceiling frame of the lower floor. However, it is known that the dust hanger is difficult to apply to the wooden ceiling structure and has a low impact sound blocking performance. .

In addition, there is a disadvantage in that a work for installing a wooden ceiling frame is not easy and a separate cushioning material must be constructed to alleviate the impact.

Recently, due to the revision of the fire law, sprinklers were required to be installed on all floors in apartment houses with 11 or more floors. Since January 2008, the revised indoor noise standard has been enforced. The noise level is also a standard, and the contractor must supply the ventilation system and the system air conditioner in consideration of the situation where the occupants are always closed.

Therefore, in order to install sprinklers, ventilation systems and system air conditioners, a space of about 200 mm should be formed on the ceiling. However, when a space for installing the above-mentioned devices on the ceiling is formed, the floor shock sound of the upper layer is transmitted to the air layer by the air layer accommodated in the space. Accordingly, a low frequency resonance phenomenon occurs due to an air spring effect as the upper floor impact sound, and thus the blocking performance of the floor shock sound is deteriorated.

In particular, the heavy impact sound is known to have a higher emissivity of the impact sound through the ceiling than the wall surface, so it is necessary to take countermeasures.

The present invention provides a sound insulation ceiling system of a multi-family house that improves the blocking performance of the floor impact sound by reducing the low frequency resonance caused by the air spring effect according to the floor impact sound of the upper layer when forming an air layer on the ceiling.

Soundproof ceiling system of the multi-unit house of the present invention for achieving the above object is a plurality of anchors (10) which are fixed by drilling a hole in the ceiling (1) and having a length of 200 mm or less; Fixing parts 20 fixed to the anchors 10 by sliding coupling; Coupling portions 30 respectively coupled to the fixing portions 20; The edge portion 41 is fixed to each of the coupling parts 30 and spaced apart from the ceiling 1 to form a space 2, and the edge part 41 has a wall surface 3 so as to prevent resonance of the space 2 due to the floor impact sound. A ceiling plate 40 formed with an opening 42 spaced apart from each other to allow the air received in the space 2 to communicate with the lower air; Characterized in that comprises a.

In addition, the width of the opening 42 is characterized in that 20 ~ 100 mm.

In addition, the anchor 10 and the adjacent fixing part 20 or coupling part 30 are further provided with a connecting rod 50 connecting them to each other so as to prevent shaking of the ceiling plate 40. .

"자형으로 되며, 상기 고정부(20)는 상기 결합 부(30)가 슬라이딩 결합되도록 측면에 고정홈(21)이 형성된 것을 특징으로 한다. In addition, the coupling portion 30 is "

"To be shaped, the fixing portion 20 is characterized in that the fixing groove 21 is formed on the side so that the coupling portion 30 is slidingly coupled.

"자형으로 되어 상기 천장판(40)의 이음부분을 서로 연결하며 각각의 천장판(40) 상부에 수용된 공기가 서로 소통되도록 측면에 일정간격으로 다수의 통공(61)이 형성된 이음부재(60)가 더 구비된 것을 특징으로 한다. together, "

"The shape of the joint member 60 is formed to connect the joints of the ceiling plate 40 with each other and the plurality of through-holes 61 are formed at regular intervals on the side so that the air received in the upper portion of each ceiling plate 40 is communicated with each other. Characterized in that provided.

The sound insulation ceiling system according to the present invention is expected to greatly improve the blocking performance of the heavy impact sound, especially among the floor impact sound sources, and will be improved by 2 to 6 dB (heavy shock sound) depending on the size of the edge portion formed.

In addition, there is an advantage that the worker's workability is easier than the conventional wooden ceiling frame, and the weight shock sound blocking performance can be improved without the construction of a separate cushioning material is excellent in economic efficiency.

Hereinafter, the sound insulation ceiling system of a multi-unit house of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a sound insulation ceiling system of a multi-unit house of the present invention, Figure 2 is a view of the molding is installed on the wall for the wallpaper finish, Figure 3 is a connection rod is installed to prevent shaking from side to side when installing the ceiling structure 4 is a view showing a seam portion connecting the ceiling panels to each other.

As shown in FIG. 1, the sound insulation ceiling system according to the present invention includes a plurality of anchors 10 fixed to the ceiling 1; Fixing parts 20 fixed to the anchors 10, respectively; Coupling portions 30 respectively coupled to the fixing portions 20; The edge portion 41 is fixed to each of the coupling parts 30 and spaced apart from the ceiling 1 to form a space 2, and the edge part 41 has a wall surface 3 so as to prevent resonance of the space 2 due to the floor impact sound. A ceiling plate 40 formed with an opening 42 spaced apart from each other to allow the air received in the space 2 to communicate with the lower air; It is made, including.

The anchor 10 is fixed by drilling a hole in the ceiling (1) has a length of less than 200 mm and are arranged at regular intervals and a plurality of. The fixing portion 20 is fixed to the lower portion of the anchor 10 by sliding coupling, and the coupling portion 30 which serves to fix the ceiling plate 40 is coupled to the fixing portion 20.

"자형으로 되며, 상기 고정부(20)는 상기 결합부(30)와 슬라이딩 결합될 수 있도록 측면에 고정홈(21)이 형성된 것이 바람직하다. At this time, as shown in Figure 1 and 2, the coupling portion 30 is "

"It becomes a shape, it is preferable that the fixing portion 20 is formed with a fixing groove 21 on the side to be slidingly coupled with the coupling portion 30.

The ceiling plate 40 is fixed to each of the coupling portion 30, such as Takamot and spaced apart from the ceiling (1) to form a space (2), the air received in the space (2) generated by the floor impact sound of the upper layer The edge part 41 is spaced apart from the wall surface 3 to prevent resonance due to the opening part 42 in which the air received in the space 2 and the lower air communicate.

When the impact noise is generated at the bottom of the upper layer, the air layer inside the ceiling structure in the lower layer slab is not acted as an air spring while exiting through the formed opening, thereby reducing the low frequency resonance phenomenon.

As described above, the sound insulation ceiling system according to the present invention is smoothly communicated with the air received in the space 2 and the lower part of the ceiling plate 40 by the opening portion 42, so that the resonance generated by the air spring effect by the upper floor floor impact sound. This is to prevent the ceiling noise is blocked.

At this time, the width of the opening 42 is preferably 20 ~ 100 mm. If the width is too wide, it hurts the aesthetics of the ceiling. If the width is too narrow, the ceiling noise blocking effect is reduced by resonance.

In addition, in order to prevent exposure to the concrete surface of the slab ceiling surface through the opening 42 by the edge portion 41 of the ceiling plate 40, gypsum board 62 or wood is pre-installed on the slab ceiling surface.

In FIG. 2, the molding 4 installed on the wall surface 3 is a structure for finishing the wallpaper. When the wallpaper is finished, it is impossible to do the papering by placing the hand in the opening 42 formed between the wall surface 3 and the edge part 41 so that the walling molding is installed to finish the papering. In addition, the cap 41 is covered on the edge 41 of the ceiling plate 40 to prevent damage.

In addition, the present invention, as shown in Figure 3 when the installation of the ceiling structure so that the ceiling plate 40 is prevented from swinging left and right the anchor 10 and the adjacent fixing portion 20 or coupling portion 30 therebetween. It is preferable that the connection rod 50 is further provided to connect to each other.

"자형으로 되어 상기 천장판(40)의 이음부분을 서로 연결하며 각각의 천장판(40) 상부에 수용된 공기가 서로 소통되도록 측면에 일정간격으로 다수의 통공(61)이 형성된 이음부재(60)로 상기 천장판(40)이 서로 이음된 것을 나타낸다. 이에 따라 천장판(40) 상부의 공간(2)에 수용된 공기층이 천장판(40) 하부의 공기와 통기성을 유지할 수 있게 되어 상부층 바닥충격음에 의한 공진현상을 방지할 수 있게 된다. 상기 이음부재(60)는 천장판(40)에 나사못 등으로 고정한다. In Figure 4 shows the joint portion of the ceiling plate 40 jointed with each other, "

"As the shape of the joint member 60 is connected to each other and connecting the joint portions of the ceiling plate 40 and the plurality of through-holes 61 are formed at a predetermined interval on the side so that the air received in each of the upper ceiling plate 40 is communicated with the This indicates that the ceiling plates 40 are connected to each other, so that the air layer accommodated in the space 2 above the ceiling plates 40 can maintain air permeability with the air below the ceiling plates 40, thereby preventing resonance from the floor impact sound of the upper floors. The joint member 60 is fixed to the ceiling plate 40 with screws or the like.

      An Example is given to the following and this invention is demonstrated concretely.

[Examples and Comparative Examples;

After installing a plurality of anchors 10 on the ceiling 1, the ceiling plate 40 is constructed so that the space between the ceiling 1 and the ceiling plate 40 is 200 mm, and an opening is formed at the edge of the existing ceiling where the 200 mm air layer is formed. The bottom shock sound blocking performance before and after forming (42) was compared.

The floor impact sound level was measured according to KS F 2810 standard after installing a standard impact source on the floor to measure the impact sound, and using the microphone installed in the sound receiving chamber, the impact sound level was measured. The results are shown in [Table 1]. It was.

In addition, in order to evaluate the measured floor impact sound level, the inverse A value obtained by quantifying the sound pressure level (dB) of each measurement band frequency band specified in the KS F 2863 standard was calculated, and the results are also shown in [Table 1]. .

The performance criteria for the floor shock sound blocking performance announced by the Ministry of Construction and Transportation are classified into 1 to 4 grades with a reverse A value of 50 or less, and the standards are shown in [Table 2].

TABLE 1

TABLE 2

In the case of the comparative example without openings, the floor impact sound blocking performance grade is level 3, but in the example in which the openings are formed in the size of 20 mm and 50 mm in the rim, respectively, the performance grade is 2 and 1, respectively, and the weight impact sound is significantly reduced. It can be seen.

Therefore, the sound insulation ceiling system according to the present invention is that the opening formed in the ceiling panel edge facilitates the air communication inside the ceiling, which shows that the low sound pressure level in the same frequency region by preventing the low frequency resonance caused by the air spring effect Can be.

1 is a view showing a sound insulation ceiling system of a multi-unit house of the present invention.

Figure 2 is a view of the molding installed on the wall for the wallpaper finish.

Figure 3 is a connection rod is installed to prevent shaking from side to side when the ceiling structure construction.

4 is a view showing a seam portion of the ceiling plate jointed with each other.

<Explanation of symbols for main parts of drawing>

1: ceiling 2: space

3: wall surface 4: molding

10: anchor 20: fixing part

21: fixing groove 30: coupling portion

40: ceiling plate 41: rim

42: opening 43: cap

50: connecting rod 60: joint member

61: through hole 62: gypsum board

Claims (5)

A plurality of anchors 10 fixed to the ceiling 1 and having a predetermined length and arranged at regular intervals; Fixing parts 20 fixed to the anchors 10, respectively; Coupling portions 30 respectively coupled to the fixing portions 20; The edge portion 41 is fixed to each of the coupling parts 30 and spaced apart from the ceiling 1 to form a space 2, and the edge part 41 has a wall surface 3 so as to prevent resonance of the space 2 due to the floor impact sound. A ceiling plate 40 formed with an opening 42 spaced apart from each other to allow the air received in the space 2 to communicate with the lower air; Soundproof ceiling system of a multi-family housing, comprising a. The method of claim 1, Sound insulation ceiling system of the apartment house, characterized in that the width of the opening 42 is 20 ~ 100 mm. The method of claim 2, To prevent the shaking of the ceiling plate 40, the anchor 10 and the adjacent fixing portion 20 or coupling portion 30 is further provided with a joint rod 50 is connected to each other therebetween Soundproof ceiling system. The method of claim 2, The coupling part 30 is "

"To be shaped, the fixing part 20 is a soundproof ceiling system of a multi-family house, characterized in that the fixing groove 21 is formed on the side so that the coupling portion 30 is slidingly coupled. The method according to any one of claims 1 to 4, "

"The shape of the joint member 60 is formed to connect the joints of the ceiling plate 40 with each other and the plurality of through-holes 61 are formed at regular intervals on the side so that the air received in the upper portion of each ceiling plate 40 is communicated with each other. Soundproof ceiling system of an apartment house, characterized in that provided.

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