KR20110019918A - A noise reducing pipe - Google Patents

Abstract

PURPOSE: A soundproof pipe is provided to ensure high fire-resistance as well as sound insulation performance because a glass wool sheet is arranged between the pipe body and a sound insulator. CONSTITUTION: A soundproof pipe(10) comprises a pipe body(11), a sound insulator(13) which covers the periphery of the pipe body, a sound absorbing layer(12) which is formed of a gap between the pipe body and the sound insulator, and a glass wool sheet which is arranged in the sound absorbing layer and covers the periphery of the pipe body. The density of the glass wool sheet is 70kg/m or less, and the length of staple fiber is 45mm or less.

Description

Soundproof pipe {a noise reducing pipe}

The present invention relates to a soundproof pipe, and more particularly, to a sound absorbing material capable of improving sound absorption while using glass wool excellent in fire resistance.

Conventionally, the soundproof pipe used as a supply / drain pipe is provided with a tubular body, the sound absorption material which coat | covers the outer peripheral surface, and the sound insulation material which coat | covers the outer peripheral surface of this sound absorption material, and a foamed synthetic resin etc. are used as a sound absorption material, for example.

The soundproof pipe using the foamed synthetic resin as the sound absorbing material is excellent in sound absorption, but the fire resistance is inferior from the foam shape and the properties of the material.

In the case of soundproof pipes that require fire resistance, glass wool is applied as a sound absorbing material. When glass wool is applied as a sound absorbing material, the fire resistance can be improved, but the sound absorbing property is significantly lower than that of a foamed synthetic resin as a sound absorbing material.

That is, conventionally, the sound insulation pipe which comprised the sound absorption material with the glass wool had a problem that a sufficient sound insulation performance cannot be exhibited unless the thickness of a sound absorption layer or the thickness of a sound insulation layer is increased.

The present invention has been made in view of the above-mentioned deficiency of the conventional soundproof pipe, and its object is to provide a soundproof pipe which can improve sound absorption while using glass wool having excellent fire resistance as a sound absorbing material covering the outer circumferential surface of the tube. It is to do it.

In the soundproof pipe of the present invention for achieving the above object is provided with a sound insulating material covering the tube and the periphery of the tube, the gap between the outer peripheral surface of the tube and the inner peripheral surface of the sound insulating material constitute a sound absorbing layer, The glass wool sheet, which is a sound absorbing material, is disposed on the sound absorbing layer so as to cover the outer circumferential surface of the tubular body, and the density of the glass wool sheet disposed on the sound absorbing layer is 70 kg / m 3 or less, and at the same time, the glass wool sheet constituting the glass wool sheet. It is characterized by setting to 45 mm or less.

In the sound insulation pipe of this invention, a coating film is coat | covered around the sound insulation material, and an outer surface can be protected.

According to the present invention, even when a glass wool sheet having excellent fire resistance is disposed as a sound absorbing material in the gap between the tube body and the sound insulating material, sufficient sound insulation performance can be exhibited, so that a soundproof pipe capable of satisfying both fire resistance and sound absorption at the same time can be obtained. do.

Hereinafter, the specific technical details of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a partial cutaway perspective view of one embodiment of the present invention.

In the soundproof pipe 10 of the present invention as shown in FIG. 1, the sound insulation material 13 is coated on the outer circumference of the pipe body 11, and the sound absorbing material 12 of the glass wool sheet is disposed between the pipe body 11 and the sound insulation material 13. Is placed.

The sound insulation pipe 10 of the present invention absorbs the noise generated by the flow of the fluid passing through the inside of the tube body 11 in the sound absorbing material 12, and blocks the propagation to the outside through the sound insulating material 13.

In the soundproof pipe 10 of the present invention, the tubular body 11 is formed of various hard materials or soft materials such as synthetic resins such as polyvinyl chloride and polyethylene, and metals.

The sound insulation material 13 comprises the sound insulation layer which is an outer layer of a sound absorption layer, and exhibits the function which isolates the noise which permeates a sound absorption layer.

As the sound insulation material constituting the sound insulation material 13, a high specific gravity and a high surface density of a metal thin film or a polymer material (synthetic resin, rubber type) are used, and the mass per unit area of the sound insulation material 13, i. It is preferable that surface density is higher than 1.5 kg / m <2>.

Among the materials of the sound insulating material 13, synthetic resins may be vinyl chloride-based resins, polyolefin-based elastomers, or the like. The rubber types include acrylonitrile-butadiene rubber (NBR), styrene-butadiene rubber (SBR), and butyl rubber (IIR). ) Can be used.

In addition, when the polymer material is applied as a sound insulation material, the filler is filled with fillers such as barium sulfate, calcium carbonate, talc, magnesium oxide, alumina, titanium oxide, barite, iron, zinc oxide, and graphite to improve sound insulation performance. It is preferable to mix | blend thermally expandable graphite in order to provide fire resistance.

The sound absorbing material 12 exhibits a function of damping vibration energy such as noise incident thereto, and the glass wool sheet used as the sound absorbing material 12 in the soundproof pipe 10 of the present invention is adapted to the outer circumferential shape of the tubular body 11. It is deformed and is arrange | positioned between the outer peripheral surface of the tubular body 11, and the inner peripheral surface of the sound insulation material 13. As shown in FIG.

The glass wool sheet has a function of converting vibration energy into thermal energy by viscous friction of air in continuous bubbles contained therein, and attenuates vibration energy incident on the sound absorbing layer.

2 is a schematic cross-sectional view of the glass wool sheet disposed on the sound absorbing layer.

The glass wool sheet used as the sound absorbing material 12 in the sound insulation pipe 10 of the present invention is formed in a sheet state from an aggregate of glass short fibers (glass wool), and the short glass fibers constituting the glass wool sheet are non-combustible materials. Therefore, the sound absorbing material 12 will have fire resistance.

The density of the glass wool sheet used as the sound absorbing material 12 in the sound insulation pipe 10 of this invention is 70 kg / m <3> or less, and the fiber length of the short glass fiber which comprises a glass wool sheet is 45 mm or less.

When the density of the glass wool sheet exceeds 70 kg / m 3, the amount (ratio) of the continuous bubbles contained in the glass wool sheet becomes insufficient, so that the sound absorption performance is not sufficiently exhibited, and the fiber length of the short glass fiber is 45 mm. If exceeded, the shape of the continuous bubble contained in a glass wool sheet is simplified, and sound absorption performance is not fully exhibited.

That is, the glass wool sheet formed from the aggregate of the glass short fibers having the density and the fiber length described above contains a sufficient amount of continuous bubbles, and the shape of the continuous bubbles becomes complicated, so that sound absorption performance is sufficiently exhibited.

The density of the glass wool sheet is preferably 60 kg / m 3 or less, more preferably 50 kg / m 3 or less, and the lower limit of the density of the glass wool sheet is preferably 5 kg / m 3 or more from the standpoint of securing sheet shape retention and productivity. Do.

The fiber length of the short glass fibers is preferably 40 mm or less, more preferably 35 mm or less, and the lower limit of the fiber length is preferably 5 mm or more from the viewpoint of securing the shape retention and productivity of the sheet.

The average fiber diameter of the short glass fibers is preferably 8 microns or less from the viewpoint of miniaturizing the continuous bubbles contained in the glass wool sheet, and the lower limit of the average fiber diameter is 0.1 micron from the viewpoint of securing the shape retention and productivity of the sheet. It is preferable that it is above.

The thickness of the glass wool sheet is preferably 20 mm or less, more preferably 10 mm or less, from the viewpoint of avoiding excessive increase in the outer diameter of the soundproof tube 11.

In the illustrated embodiment, the covering film 14 is coated around the outer circumference of the sound insulation material 13.

The coating film 14 serves to stably connect the sound insulating material 13 to the tube body 11 and to protect the sound insulating material 13 and the sound absorbing material 12.

The covering film 14 is composed of a heat shrinkable shrink film made of polypropylene, polyethylene, polyester, or the like.

When manufacturing the sound insulation pipe 10 of this invention, the glass wool sheet which is the sound absorption material 12 is wound up to the pipe | tube 11, and the glass wool sheet is bonded by a tape, and the sound insulation material 13 is carried out around the glass wool sheet. Finally, the sound insulating material 13 is coated with a covering film 14.

In the above-mentioned case, when the heat-shrinkable film is used, the coating film 14 is coated using shrinkage force by heating of the heat-shrinkable film.

In the soundproof pipe 10 of the present invention configured as described above, when noise generated in the fluid passing through the inside of the tube 11 enters the sound absorbing layer, the density of 70 kg / m 3 or less disposed as the sound absorbing material 12 in the sound absorbing layer The glass wool sheet having a fiber length of 45 mm or less of short glass fibers is absorbed by converting vibration energy incident on the sound absorbing layer 14 into thermal energy.

Conventionally, glass wool satisfies fire resistance, but when used as a sound absorbing material, there is a problem that sound absorption performance comparable to that of a foamed synthetic resin as a sound absorbing material is difficult to be exhibited.

That is, in the case of the sound insulation pipe which used glass wool as a sound absorption material, it was necessary to thicken a sound absorption material and a sound insulation material in order to exhibit sufficient sound insulation performance.

However, in the sound insulation pipe 10 of this invention, since the sound absorption performance comparable to the sound absorption material of foamed synthetic resin is exhibited by setting the density of a glass wool sheet and the fiber length of short glass fiber, the thickness of the sound absorption material 12 and the sound insulation material 13 It is possible to configure a thin.

The present invention described above is not limited to the above description, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be obvious to you.

1 is a partially cutaway perspective view of one embodiment of the present invention

2 is a schematic cross-sectional view of a glass wool sheet disposed on a sound absorbing layer.

<Explanation of Signs of Major Parts of Drawings>

10: soundproof pipe 11: pipe

12: sound absorbing material 13: sound insulating material

Claims (2)

A sound insulation material is provided which covers a pipe body and a circumference of the pipe body, wherein a gap between the outer circumferential surface of the pipe body and the inner circumferential surface of the sound insulation material is composed of a sound absorbing layer. The soundproof pipe which arrange | positioned so that it may coat | cover and the density of the glass wool sheet arrange | positioned at a sound absorption layer may be 70 kg / m <3> or less, and the fiber length of the glass short fiber which comprises a glass wool sheet shall be 45 mm or less. The sound insulation pipe of Claim 1 in which the coating film was coat | covered around the said sound insulation material.

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