KR20100062468A - Ventilation silencer using resonance and expansion of sound wave - Google Patents

Abstract

PURPOSE: A muffler using resonance and expansion of sound wave for ventilation is provided to achieve winding effect due to repetitive expansion and resonance with including a plurality of resonance chambers and expansion rooms. CONSTITUTION: A muffler using resonance and expansion of sound wave for ventilation comprise: a cylindrical outer pipe(1) wherein a plurality of resonator chambers and expansion chambers are formed in the inside; a plurality of partitions(2) which is installed in the inside of the outer pipe and divides the inside of the outer pipe into a plurality of spaces and forms an air hole(21) wherein air and sound wave pass through; and a perforated tube(3) which is installed in the internal space of the muffler in the central part of the partitions which is divided by the partitions and includes resonant cavities(31).

Description

Ventilation Silencer Using Resonance and Expansion of Sound Wave

The present invention relates to a silencer that blocks the propagation of noise, and more particularly, to a silencer that blocks the transmission of noise through the ventilation passage in a multi-storey building that shares the ventilation passage.

Recently, with the improvement of living standards, the demand for a pleasant and quiet living environment is increasing. In particular, noise is a major cause of conflict between neighbors and is becoming a major condition for creating a pleasant living environment.

In the case of shared residential buildings such as apartments, townhouses, multi-purpose buildings, and officetels, households with the same structure are multi-layered. Toilets and kitchens are directly connected by common ventilation piping. This ventilation pipe becomes a noise transmission path, causing generational noise transmission problems.

In fact, the bathrooms in the apartments are very vivid with the noises of the living room, such as the peeing, the sound of the bathtub, the conversation and the sound of music. In particular, since most toilets also serve as bathrooms and require high privacy, the transmission of noise between floors must be reliably blocked.

In large office buildings, centralized air conditioning and air circulation ducts for heating and cooling are connected to each floor. Duct silencers are mainly used to block the inflow of fan noise into the room. This duct silencer has a structure in which a sound absorbing material such as glass wool is attached to a part of the duct through which air flows, and the sound is absorbed by the sound absorbing material in the process of propagating noise along the duct. These duct silencers are large in size, can absorb sound absorbing materials that have a bad effect on the human body, and also absorb moisture in the porous sound absorbing materials, and mold or bacteria inhabit them, which is a hygienic problem. Not suitable for use

And the muffler of the car is also a kind of silencer, which has a very complicated structure, through which the combustion gas and the engine explosion noise are emitted to the outside. These mufflers do not have very large noise reductions, but pressure losses are very large and expensive, and thus silencers of this type cannot be installed in the air vents of the apartment bathroom.

Industrial silencers used in power plants, etc., pass through a wide passage (section A1) and then suddenly enter a narrow passage (section A2). Silencer using the principle of reduction The reduction of sound energy is determined by the expansion ratio (m = A1 / A2), which is the rate at which the cross-sectional area changes, and in general, the larger the expansion ratio, the greater the sound energy. This type of silencer is usually made by installing a connector with a larger or smaller cross-sectional area than the original passage in a passage through which sound waves pass, or by installing a separator plate with a small hole in the passage. Since the muffler is mainly installed inside the ceiling of the bathroom or inside the exhaust bit of the apartment, it is recommended to use a connector with a high expansion ratio. I can not chihal and proper ventilation so that the pressure loss increase is not a problem if you happen to narrow the passageway.

As mentioned above, despite the generation of noise transmission between generations transmitted along the ventilation duct in a multi-family house, there is no suitable measure at present. In addition, the muffler used in the multi-family house requires hygiene problems, installation space constraints, cost constraints, and perfect noise blocking performance for privacy protection. Therefore, the muffler used in other fields cannot be simply applied.

The toilets and kitchens in the common residential buildings such as apartments, townhouses, multi-purpose buildings, and officetels are connected by common ventilation pits. This ventilation pit becomes a passage for noise, causing inter-layer noise problems. In order to solve this interlayer noise problem, various methods have been taken.

The most commonly used conventional technique is to use a flexible duct. Flexible ducts are glass ducts wrapped in aluminum foil to reduce noise on the same principle as sound-absorbing silencers. Flexible duct has the advantage of showing excellent sound absorption performance in the mid and high frequency range due to the nature of glass wool. However, the ability to attenuate in the low frequency range is poor. In addition, glass wool may cause scattering problems, making it difficult to apply to residential ventilation holes.

Recently, an expansion silencer for a ventilation port has been commercialized and applied. This is a muffler obtained by the expansion of the rapid cross section has the advantage that can be seen evenly in all frequency ranges. However, there is a disadvantage that a transmission loss becomes '0' at a series of frequencies corresponding to integer multiples of a fundamental frequency. In addition, when the noise of a specific frequency band is a problem, there is a problem that there is no way to deal with it.

The problem to be solved in the present invention in response to the problems described above is to develop a silencer having excellent performance for noise reduction in a specific frequency band while having even noise characteristics in all frequency ranges.

In order to solve the above problems, the muffler of the present invention is designed to have a resonance chamber capable of obtaining a resonance effect and an expansion chamber capable of obtaining an expansion effect therein.

The muffler has a plurality of resonance chambers and expansion chambers composed of perforated tubes and separator plates inside the outer tube of a certain length. The other hole is a pipe which is assembled inside the silencer body, and is a pipe having a plurality of small holes drilled in the wall of the pipe. The separation plate is inserted into the outer tube of the silencer, and is a plate having a hole in which the perforated tube is coupled to a central portion thereof. If one perforating tube is placed one by one inside the outer tube of the silencer separated by a separator plate, the inside of the silencer is formed by alternating the resonance chamber and the expansion chamber.

By varying the size of the holes in the other tubes, each of the resonance chambers has different resonance frequencies, and the sound of the different frequencies is greatly attenuated. In the expansion chamber, noise is lost by the expansion of sound waves.

Therefore, the silencer of the present invention has a resonance effect in the resonance chamber, the expansion effect occurs in the expansion chamber, the noise is reduced, and thus has the characteristics of a composite silencer.

The muffler is designed so that the noise passing through the entrance tube passes through the first resonance chamber and causes resonance. Here, noise is primarily reduced by resonance. The noise passing through the first resonance chamber expands rapidly as it enters the expansion chamber, the next space. The expansion chamber is a space where the noise is extinguished by the interference of the normal traveling wave of the noise and the reflected wave in the cross section. The noise passing through the expansion chamber is continuously attenuated by passing through the resonance chamber and the expansion chamber sequentially.

As described above, the muffler has a plurality of resonance chambers and expansion chambers therein, thereby obtaining a sound attenuation effect by repetitive resonance and expansion. Therefore, it is possible to obtain an excellent attenuation effect on a specific frequency which is a characteristic of the resonance type silencer, and to a wide frequency range which is a characteristic of the inflatable type silencer.

The overall shape of the ventilator silencer of the present invention is a cylindrical shape having an entrance and exit, as shown in Figure 1, the inside of the cylindrical outer tube (1) is divided into a plurality of spaces by the separating plate (2), the interior It is a shape in which the perforated pipes 3 are coupled one by one to the space.

The outer tube 1 is coupled to the inlet tube 12 and the outlet tube 13 at both ends of the body tube (11). The outer tube may be made of a metal plate such as a galvanized steel sheet, but it is convenient to form a hard synthetic resin material such as PVC, PE, or PP by extrusion or the like. And it is convenient to manufacture the body tube 11, the inlet tube 12 and the outlet tube 13 separately to combine them. The diameter of the inlet or outlet of the inlet tube 12 and outlet tube 13 is made smaller than the diameter of the body tube.

Separation plate 2 is a size of the plate that can be mounted without a gap inside the outer tube (1), the air hole (21) is coupled to the other perforated tube (3) in the center and is a passage through which air and sound waves pass ) Is open. This divider divides the interior of the silencer into several separate spaces. A plurality of separators are used in one silencer. If the air holes 21 of each separator are different in size, the expansion ratios of sound waves passing through each separator are different from each other to reduce the sound of all frequencies. Can be.

The other hole 3 is a tube in which a plurality of small resonance holes 31 are drilled in a wall of a cylinder of a predetermined length. This perforated tube is coupled to both ends of the air inlets 21 of the separation plates 2 or the inlet tube 12 and the outlet tube 13 of the outer tube 1. The other hole is installed one by one in the interior space of the silencer partitioned by the separator (2).

When the perforated tube 3 is combined as described above, a resonance chamber is formed between the perforated tube 3 and the outer tube 1. In addition, in the portion where the other hole is not installed inside the outer tube, an expansion chamber is formed in which both ends are partitioned by the separator plate 2 having the air holes 21 formed therein.

For convenience in manufacturing, the separator 2 and the other hole 3 can be integrally manufactured as shown in FIG. 2. Such a manufacturing method is particularly useful when the material of the separating plate and the other tube is made of a hard synthetic resin such as plastics, and can be integrally formed by a method such as injection. In this case, the shape of the coupling to both ends of the outer tube is as shown in (a), the shape of the coupling to the middle of the outer tube is to be as shown in (b).

The silencer having the internal structure as described above becomes a resonance chamber at the part where the other hole 3 is installed inside the silencer, and the resonance hole 31 is the entrance of the resonator and the wall thickness of the other hole 3 is the neck of the resonator. And the Helmholtz resonator where the space between the outer tube 1 and the other hole 3 becomes a resonance tube.

In the Helmholtz resonator, the sound wave incident at the entrance of the resonator vibrates the air filled in the resonator cylinder by the resonance inside the resonator cylinder, and the energy of the sound wave is converted into the vibration energy of the air and is lost. Reduce. The noise reduction characteristic graph by the resonance is shown in Figure 3, the sound of the frequency near the resonant frequency determined by the size of the resonator inlet size, the length of the neck of the resonator, and the volume of the resonance cylinder is greatly reduced, Sounds of frequencies that differ from the resonance frequencies are hardly reduced.

Like the silencer of the present invention, if a plurality of resonance chambers are provided inside the silencer and the diameters and thicknesses of the punching holes 3 used in the respective resonance chambers and the size of the resonance holes 31 are different, The resonant frequencies are different, and the sound of various frequency components is greatly reduced. In particular, the noise of the frequency can be intensively reduced by matching the frequency of the noise with the resonance frequency.

In addition, the silencer of the present invention is an expansion chamber in which both ends are separated by the separator plate 2 in the other hole is not installed inside the silencer. In such an expansion chamber, sound waves are reduced by complex causes such as reflection and interference when passing through a site where the cross-sectional area of the inlet and outlet changes rapidly.

As shown in Fig. 4, the noise reduction characteristics of the expansion chamber are periodically displayed according to the frequency. Is determined. The cycle becomes short when the expansion chamber is long, and becomes long when the expansion chamber is short.

In the silencer of the present invention, when the lengths of the expansion chambers are different from each other, the periods of the attenuation are shifted from each other, so that a low noise reduction interval is eliminated, and thus a silencer having a high attenuation amount for sound of all frequencies is obtained.

As the silencer of the present invention passes through a plurality of resonance chambers and expansion chambers sequentially, the sound of different frequencies is sequentially reduced by resonance and expansion, so that the sound of all frequencies is reduced to a certain degree at the exit. Spills.

The silencer of the present invention has the same effect as the silencer having a circular cross section as well as a silencer having various cross sections, such as a square, as shown in FIG. It is convenient to install inside.

The silencer of the present invention, as shown in Figure 5, by attaching the sound absorbing material (4) to the inner wall of the resonance chamber and the expansion chamber can further obtain the noise reduction effect by the sound absorption, and the pest infiltration into the inlet and outlet A big net (not shown) may be further provided to prevent it.

It is applied to toilets or bathrooms in common residential buildings such as apartments, townhouses, multi-purpose buildings, officetels, etc. and is used to block the noise level between floors.

1 is an overall configuration diagram of a silencer according to the present invention.

2 is a shape in which the separating plate and the other hole is integrally manufactured.

3 is a graph of noise reduction characteristics for each frequency in a resonance chamber.

Figure 4 is a graph of noise reduction characteristics for each frequency in the expansion chamber.

Fig. 5 is a configuration diagram of a rectangular quadrangular silencer.

6 is a configuration diagram of a silencer having a sound absorbing material attached to the inside of the silencer.

※ Important Component Number

1: outer tube, 11: body tube, 12: inlet tube, 13: outlet tube,

2: separation plate, 21: air hole,

3: other hole, 31: resonance hole.

Claims (5)

A cylindrical outer tube 1 having an inlet and outlet; The interior of the outer tube (1) is provided with a plurality of to divide the interior of the outer tube into a plurality of spaces, the air hole 21 is coupled to the other perforated tube (3) in the center is a passage through which air and sound waves pass Separation plate 2, which is perforated; In addition, as installed one by one in the silencer inner space partitioned by the separation plate 2, the inlet pipe 12 or the outlet pipe (12) of the outer tube (1) of the air holes (21) of the separation plate (2) 13, the other end is coupled, and the other hole tube (3) having a tubular shape in which a plurality of resonance holes 31 are drilled in a wall of a cylindrical length; Consists of, characterized in that the plurality of resonance chamber and expansion chamber formed in the interior of the outer tube (1), ventilation silencer. The method of claim 1, Each of the separation plates 2 is a separation plate having a different installation spacing and a different size of the air hole 21; The perforated pipes 3 are perforated pipes different from each other in at least one of each length, the size and spacing of the resonance hole 31, and the thickness of the perforated pipes, Ventilation silencer, characterized in that the frequency-dependent attenuation characteristics of the sound in the resonance chamber and the expansion chamber formed a plurality of inside the outer tube (1) different from each other. The method of claim 1, The separation plate (2) and the perforated pipe (3), characterized in that the production is molded integrally with a hard synthetic resin material, ventilation silencer. The said silencer for ventilation of any one of Claims 1-3, The outer tube (1) is an outer tube whose cross section is a communication type or a rounded rectangle; The separating plate (2) is a separating plate having the same shape as the inner cross-sectional shape of the outer tube; Ventilator silencer, characterized in that the outer shape of the silencer is cylindrical or square corner shape. The muffler according to any one of claims 1 to 3, wherein Sound absorbing material (4) attached to the inner wall of the outer tube (1); And a big net attached to the inlet and the outlet of the outer tube; Ventilation silencer, characterized in that further provided any one or more of.

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