JP3964532B2 - Sound insulation wall structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of a sound insulating wall used as a partition wall in a building such as a house.
[0002]
[Prior art]
For example, a partition wall constituted by using a gypsum board as a surface material is widely used as being excellent not only in fireproofing properties but also in sound insulation properties.
[0003]
Gypsum board can improve the sound insulation performance especially in the high frequency band by increasing its wall thickness. On the other hand, increasing the wall thickness of gypsum board increases the wall thickness of the partition wall and narrows the room. There is a weak point that does. In addition, the sound insulation performance in the low and medium frequency bands is not so improved as in the high frequency band.
[0004]
Therefore, conventionally, a partition wall using a gypsum board that further incorporates a sound insulation sheet has been provided. For example, as shown in FIG. 3, a 12.5 mm thick gypsum board 53 is attached to one surface of a 64 mm thick wooden partition staggered cross panel 52 using a screw 56 and an adhesive, and the staggered cross panel 52 On the other side, a flexible sound insulation sheet 54 having a thickness of 2.4 mm and a surface density of 7.2 kg / m ² and having a high surface density and elasticity is stopped by a tucker 58 and further 12.5 mm from the outside thereof. A sound insulation partition wall 51 having a structure in which a thick gypsum board 53 is fixed to a staggered cross panel 52 with screws 56 is provided. In addition, 55 is glass wool and is based on 20 kg / m < ³ > goods, and thickness is 50 mm.
[0005]
In the sound insulation partition wall 51, the sound insulation sheet 54 has a large surface density, so that the sound insulation performance can be improved, and the sound insulation sheet 54 is thin and has a large surface density as described above. There will be no increase in the wall thickness.
[0006]
[Problems to be solved by the invention]
By the way, as is well known, the gypsum board 53 has a problem that the sound insulation performance falls in a high frequency band due to its physical properties. Therefore, even if the sound insulation performance in the low / medium frequency band can be improved by using the sound insulation sheet 54, the sound insulation performance of the wall 51 in the case where the drop in the high frequency band by the gypsum board 53 is viewed as a whole. Will be low.
[0007]
The present invention is based on the technical background as described above, while using a sound insulation sheet having high specific gravity and elasticity to improve the sound insulation performance in the low / medium frequency band and the high frequency band, Providing a sound insulation wall structure that improves the sound insulation performance in the band and improves the sound insulation performance when viewed as a whole, and can achieve this without increasing the wall thickness. The task is to do.
[0008]
[Means for Solving the Problems]
As a result of accumulating theoretical considerations and experiments in the above-mentioned problems, the present inventors have laminated and joined the gypsum board and the sound insulation sheet having high surface density and elasticity as a single body, and thereby the meat on the gypsum board. The present inventors have found that the same vibration damping effect as when the thickness is increased and the weight is increased, and the present invention has been completed. Laminating and joining a gypsum board and a sound insulation sheet as described above as a single unit is because the sound insulation sheet is of high surface density, so construction considerations are given priority. This is a periodic configuration. Conventionally, as described above, the sound insulation sheet 54 is fixed to the staggered cross panel 52 with the tacker 58, and the gypsum board 53 is fixed to the staggered cross panel 52 with the screw 56 from the outside. The gypsum board 53 and the sound insulation sheet 54 are not laminated and joined as a single body.
[0009]
That is, in the structure of the sound insulation wall provided with the sound insulation sheet having the specific gravity higher than the gypsum board and having elasticity on the back side of the gypsum board,
The problem is solved by the structure of the sound insulation wall, wherein the gypsum board and the sound insulation sheet are laminated and joined as a single body.
[0010]
In this sound insulation wall structure, it is needless to say that the sound insulation performance is improved by the action of the sound insulation sheet itself by adopting the sound insulation sheet having high specific gravity and elasticity. In addition, in the present invention, the gypsum board and the sound insulation sheet are laminated and joined as an integral member. As a result, the same vibration damping effect as that obtained by increasing the thickness and increasing the weight of the gypsum-based boards is developed, and this reduces the sound insulation performance in the high frequency band of the gypsum-based boards. It is improved and the evaluation of the sound insulation performance as a whole is ranked up. Of course, because the thickness of the gypsum board is not increased, the wall thickness is not increased.
[0011]
The sound insulation sheet is designed to have a loss coefficient of 0.2 or more, preferably 1.0 or more, in order to ensure good sound insulation performance in the low and medium frequency bands. Needless to say, the loss coefficient is a value of E ₂ / E _{1 in} the complex Young's modulus: E = E ₁ + jE ₂ .
[0012]
The sound insulating sheet is preferably a sheet having a predetermined thickness with a surface density of 2.4 mm to a thickness of 5 to 10 kg / m ² . When the surface density is less than 5 kg / m ² , it is difficult to obtain sufficient sound insulation performance. Further, it tends to occur a trouble in handling and handling of sound insulation sheet itself after integration of the gypsum board such a large and weight large exceeded 10 kg / m ^2.
[0013]
Note that the phrase “surface density with respect to thickness of 2.4 mm is 5 to 10 kg / m ² ” does not limit that the thickness of the sound insulating sheet is 2.4 mm, and the thickness of the sound insulating sheet is not limited. This means that the surface density when designed to 2.4 mm is 5 to 10 kg / m ² , and the sound insulating sheet may have a thickness of 2.4 mm or more. It may be 2.4 mm or less. Further, in the present invention, the term “gypsum board” includes not only gypsum board but also various boards included in the classification as gypsum board, as well as other than gypsum board. Needless to say, the concept includes various boards that cause a drop in sound insulation performance in a high frequency band due to their physical properties.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment when the present invention is applied to a partition wall used in a house or the like will be described based on the drawings.
[0015]
In the partition wall 1 shown in FIG. 1, the same thing is used about the staggered crosspiece panel 2, the gypsum board 3 and 3, the sound insulation sheet 4, and the glass wool 5 conventionally. That is, the thickness of the staggered cross panel 2 is 64 mm, the thickness of each of the gypsum boards 3 and 3 is 12.5 mm, the glass wool 5 is 20 kg / m ³ , and the thickness is 50 mm. The sound insulation sheet 4 is made of a flexible sheet having a thickness of 2.4 mm and a surface density of 7.2 kg / m ² . In addition, the specific example about the raw material of the sound insulation sheet 4 is the same as that of the conventional material shown in FIG. 3, but, for example, iron oxide powder is filled as a bituminous bituminous material as a filler, and further, rubber by SBS, It contains a resin made of petroleum resin, and a polyester nonwoven fabric is provided on the surface. One gypsum board 3 is attached to the surface of the staggered cross panel 2 with screws 6 as in the prior art.
[0016]
The other gypsum board 3 and the sound insulation sheet 4 are laminated and joined with an adhesive 7 or a double-sided tape (not shown), and are configured as a single body. In the case of using the adhesive 7, for example, the gypsum board 3 can be placed flat, a wood bond is applied to the entire upper surface, and the sound insulating sheet 4 is overlaid and bonded thereto. This bonding operation may be performed at a factory or at a construction site. In the case of using a double-sided tape, it is possible to use a double-sided tape with a wide area as much as possible, stick this to a sound-insulating sheet or gypsum board, and paste the sound-insulating sheet and gypsum board together. In this case, the double-sided tape may be applied in advance at a factory, and the construction may be performed such that only the sound insulation sheet and the gypsum board are bonded together at the construction site. You may make it perform everything including the pasting of in a factory.
[0017]
The gypsum board 3 and the sound insulation sheet 4 which are laminated and bonded as a single body as described above are attached to the staggered cross panel 2 with screws 6 with the sound insulation sheet 4 inside. The sound insulation partition wall 1 is formed as described above.
[0018]
For the sound insulation partition wall 1 of the present invention described above and the conventional sound insulation partition wall 51 shown in FIG. 3, an example sample and a comparative sample having an area of 8.840 m ² were prepared, and the dry bulb temperature was 14 ° C. and the relative humidity was. The sound transmission loss test was conducted under an environmental condition of 32.7%. The result is shown in FIG. In the figure, white circles are the results of the comparative example, and black circles are the results of the example.
[0019]
From this result, it can be seen that the example can exhibit the same high sound insulation performance as the comparative example in the low and medium frequency bands. And in the high frequency band that causes a drop in the sound insulation performance, a drop is seen in both the example and the comparative example, but in the case of the example, the sound transmission loss of the drop part shows a higher value than that of the comparative example. It can be seen that the sound insulation performance is improved.
[0020]
Incidentally, in the figure, dotted lines indicated by D-35 and D-40 represent evaluation of the sound insulation performance of the wall. In the comparative example, although the level is D-40 in the low / medium frequency band, there is a drop in the sound insulation performance in the high frequency band, so only the evaluation of the line D-35 can be obtained as a whole. On the other hand, in the embodiment, a high level of sound insulation performance of D-40 equivalent to that of the comparative example can be exhibited in the low and medium frequency bands, and the line of the sound insulation performance drop in the high frequency band is D-40. As a result, the evaluation of the D-40 line as a whole can be obtained.
[0021]
In addition, although the said embodiment demonstrated the case where this invention was applied to the partition wall, you may apply to another wall. In addition, the sound insulation sheet is not limited to the above-described form, and various sound insulation sheets having higher specific gravity and elasticity than gypsum boards may be used. Further, the bonding between the gypsum board and the sound insulating sheet is not limited to the adhesive or the double-sided tape. What is necessary is just what laminated gypsum board and the said sound-insulation sheet | seat were unitedly joined.
[0022]
【The invention's effect】
Depending on the above, the structure of the sound insulation wall according to the present invention is the structure of the sound insulation wall in which a sound insulation sheet having a higher specific gravity and elasticity than the gypsum board is provided on the back side of the gypsum board. Since the sound insulation sheet is laminated and joined as a single piece, the sound insulation sheet itself improves the sound insulation performance in the low / medium frequency band and the high frequency band, and the thickness of the gypsum board is increased. It is possible to develop the same vibration damping effect as increasing the weight, improving the deterioration of the sound insulation performance in the high frequency band of gypsum boards, and evaluating the sound insulation performance as a whole Can be raised. Moreover, this can be realized without increasing the wall thickness.
[Brief description of the drawings]
FIG. 1 shows a sound insulation wall according to an embodiment, in which FIG. (A) is a cross-sectional view and FIG. (B) is an enlarged cross-sectional view.
FIG. 2 is a graph showing a test result of a sound transmission loss test.
3A and 3B show a conventional sound insulation wall, in which FIG. 1A is a cross-sectional view and FIG. 3B is an enlarged cross-sectional view.
[Explanation of symbols]
1 ... Sound insulation partition wall 3 ... Gypsum board (gypsum boards)
4 ... Sound insulation sheet 7 ... Adhesive

Claims (2)

On the back side of the non-flexible gypsum boards which are not fiber-reinforced, said at higher specific gravity than gypsum board, provided with a sound insulating sheet having elasticity, staggered bars panels these gypsum boards and sound insulation sheet and sound insulation sheet inside In the structure of the sound insulation partition wall attached to
A structure of a sound insulation partition wall, wherein the gypsum board and the sound insulation sheet are laminated and joined as a single body. On the back side of the non-flexible gypsum boards that are not fiber-reinforced, surface density with respect to the thickness 2.4mm is provided with a flexible sound insulating sheet having a predetermined thickness ratio of 5 to 10 kg / m ^2, and these gypsum boards In the structure of the sound insulation partition wall attached to the staggered cross panel with the sound insulation sheet facing inside ,
A structure of a sound insulation partition wall, wherein the gypsum board and the sound insulation sheet are laminated and joined as a single body.

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