KR100916809B1 - Muffler with variavle valve - Google Patents

Abstract

A variable valve attachable muffler is provided to cut down on the manufacturing cost drastically and to simplify the inner structure of housing because a variable valve is directly installed in the opening of the first baffle. A variable valve attachable muffler comprises a housing(10), an inlet pipe(21), one or more outlet pipes(22), and a variable valve(30). The inside of the housing is partitioned off into first and second muffling chambers(11,12) and a resonator chamber(13) by first and second baffles(17,18). The inlet pipe passes through the first and second baffles. The inlet pipe includes one or more first through-holes(23) and one or more second through-holes(25). One or more first through-holes are formed in the nearby outer circumference with the first muffling chamber. One or more second through-holes are formed in the nearby outer circumference with the second muffling chamber. One or more outlet pipes pass through the first and the second baffles. The outlet pipe ejects the exhaust to the outside. The variable valve is installed in an opening(17a) of the first baffle to open and close it according to the exhaust pressure.

Description

Variable Valve Silencer {MUFFLER WITH VARIAVLE VALVE}

The present invention relates to a variable valve-attached silencer, and more particularly, to a variable valve-attached silencer that can significantly reduce manufacturing costs while improving noise performance.

The vehicle muffler is a device for reducing the explosion sound caused by the rapid expansion of the exhaust gas by lowering the pressure and temperature before discharging the high-temperature, high-pressure exhaust gas from the engine to the atmosphere outside the vehicle.

Silencer is an inflatable sound that diffuses from a thin tube to a wide space according to the principle of operation, and resonates and steel wool cancels each other by spreading it from a large hole in a thin tube to a large resonance chamber. Absorption type which absorbs a metal into a thread form, and the partition type which mixed the previous three methods are mentioned.

In addition, the silencer can reduce exhaust noise by increasing the resistance of the silencer in order to increase the noise effect, but the resistance applied to the exhaust stroke, that is, the back pressure increases, which lowers the engine output, and conversely, to reduce the back pressure. If the resistance is small, the problem that the exhaust noise is increased.

In order to solve this problem, there is disclosed a variable valve-attached silencer that can satisfy exhaust noise and back pressure at the same time. Such a variable valve type silencer is characterized in that any one of the pipes mounted inside the silencer is equipped with a variable valve whose opening degree is variable according to the pressure of the exhaust gas.

Such a variable valve is closed because of the low pressure of the exhaust gas in the low speed region, thereby reducing the low frequency noise, and does not affect the output of the engine because the pressure of the exhaust gas is low even in the closed state of the variable valve. In addition, as the pressure of the exhaust gas increases in the high speed region, the variable valve is gradually opened to reduce the high frequency noise and reduce the resistance of the exhaust gas, and thus does not affect the engine output. As such, the variable valve-type silencer has an advantage of satisfying exhaust noise and back pressure at the same time.

However, the conventional variable valve-attached silencer is equipped with a plurality of baffles, a plurality of chambers, one or more bypass pipes, inlet pipes, etc., which not only makes the structure of the silencer very complicated, but also increases the manufacturing cost. there was.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and aims to provide a variable valve-mounted silencer that can simplify the construction of the silencer and further reduce the manufacturing cost thereof. There is this.

In addition, the present invention can improve the high-frequency noise reduction effect due to the opening of the variable valve in the opening or closing operation of the variable valve, the variable valve side is variable as the heat-resistant buffer seat is installed in the circumferential direction (in the entire circumferential direction) It is an object of the present invention to provide a variable valve-attached silencer that can greatly improve the low-frequency noise reduction effect of closing the valve.

Variable valve-attached silencer of the present invention for achieving the above object,

A housing in which the interior is divided into first and second noise chambers and resonance chambers by first and second baffles;

An inlet pipe installed through the first and second baffles and having at least one first communication hole on an outer circumferential surface adjacent to the first noise chamber, and having at least one second communication hole on an outer circumferential surface adjacent to the second noise chamber;

At least one outlet pipe installed through the first and second baffles and discharging exhaust gas to the outside; And

And a variable valve installed in the opening of the first baffle to open and close according to the exhaust pressure.

The outlet pipe is composed of two, one end is in communication with the first noise chamber, the other end is characterized in that the communication with the outside of the housing.

One end of the inlet pipe communicates with the outside of the housing, and the other end communicates with the resonance chamber.

One side of the outlet pipe is provided with a water removal pipe, the water removal pipe is characterized in that adjacent to the bottom surface of the housing.

The variable valve has an opening in communication with the opening of the first baffle, the inner circumferential surface of the opening is a bracket having a heat-resistant buffer seat in the circumferential direction;

A valve body pivotably mounted to the bracket via a shaft; And

A coil spring is configured to deflect the valve body toward the bracket, one end of which is supported by the bracket, and the other end of which includes an elastic member that is supported by the valve body.

The present invention as described above has an advantage that by simplifying the configuration inside the silencer, it is possible to compact the silencer and to significantly reduce its manufacturing cost.

In addition, the present invention can significantly improve the high frequency noise reduction effect of opening the variable valve and the low frequency noise reduction effect of closing the variable valve during opening or closing operation of the variable valve.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 1 illustrate a variable valve-attached silencer according to an embodiment of the present invention.

As shown, the variable valve-attached silencer of the present invention includes a housing 10. The interior of the housing 10 is partitioned into a first noise chamber 11, a second noise chamber 12 and a resonance chamber 13 by first and second baffles 17, 18.

The first baffle 17 is located at the front side of the housing 10 to partition the first and second noise chambers 11, 12, and the second baffle 18 is the second noise chamber 12 and the resonance chamber ( 13 is located at the rear side of the housing 10 to partition it.

The first baffle 17 has an opening 17a, and the opening 17a may be provided with a variable valve 30 that can be opened and closed in response to the pressure of the exhaust gas that varies depending on the low speed or high speed driving section. As described above, the present invention does not provide a separate bypass pipe through which exhaust gas bypasses (bypasses) in response to fluctuations in the pressure of the exhaust gas. By directly installing the variable valve 30 in the opening 17a of the first baffle 17, the manufacturing cost can be greatly reduced and the internal structure of the housing 10 can be greatly simplified.

The variable valve 30 includes a bracket 31 fixed to the opening 17a of the first baffle 17, a valve body 32 pivotally installed on the bracket 31 via a shaft 34, and the valve body. And an elastic member 33 for biasing the 31 to the bracket 31.

The bracket 31 has an opening 31a, which is provided such that the opening 31a communicates with the opening 17a of the first baffle 17. On the upper inner circumferential surface of the opening 31a, a heat resistant shock absorbing sheet 35 is installed in the circumferential direction (in the entire circumferential direction) for improving the noise performance of the low speed section. The heat resistant shock absorbing sheet 35 is made of a material such as a wire mesh. Can be done.

The valve body 32 can open and close the opening 31a of the bracket 31, and in particular, the exhaust gas pressure increases in a high speed or accelerated operation section, so that some of the exhaust gas communicates with the second inlet pipe 21. When passing through the ball 25, the valve body 32 can be opened.

The elastic member 33 is configured in the form of a coil spring, one end 33a of the elastic member 33 is supported on the bracket 31 side, and the other end 33b of the elastic member 33 is the valve body 32 side. Is supported. As a result, the elastic member 33 deflects the valve body 32 toward the opening 31a of the bracket 31 so that the opening 31a of the bracket 31 is kept closed by the valve body 32. When the pressure of the exhaust gas overcomes the spring force of the elastic member 33, the valve body 32 pivots in the opposite direction to the bracket 31 such that the valve body 32 opens 31a of the bracket 31. Open).

By such a configuration, when the valve body 32 closes the opening 31a of the bracket 31, not only the sealing property is reliably ensured by the heat resistant buffer seat 35, but also the occurrence of impact sound during sudden closing operation is prevented. The low frequency noise of the exhaust gas flowing to the outlet pipe 22 through the first communication hole 23 of the inlet pipe 21 can be reliably blocked.

In addition, when the exhaust gas having passed through the second communication hole 23 of the inlet pipe 21 opens the valve body 32, the outlet pipe 22 through the second communication hole 23 of the inlet pipe 21. The high frequency noise of the exhaust gas flowing to) can be reliably cut off.

The inlet pipe 21 is installed through one end of the housing 10, the first baffle 17, and the second baffle 18 so as to introduce exhaust gas into the housing 10. In particular, the one end opening 21a of the inlet pipe 21 faces the outside of the housing 10, and the other end opening 21b of the inlet pipe 21 is provided to communicate with the resonance chamber 13.

The inlet pipe 21 has one or more first communication holes 23 on the outer circumferential surface communicating with the first noise chamber 11, and the exhaust gas is discharged through the first communication holes 23. Can be supplied to the opening 22a once.

Further, the inlet pipe 21 has one or more second communication holes 25 on the outer circumferential surface communicating with the second noise chamber 12, and when the exhaust gas pressure is increased in the acceleration or high speed driving section, the exhaust gas is the second gas. The variable valve 30 may be opened by passing through the communication hole 25.

In particular, the resonance chamber 13 directly communicates only with the other end opening 21b of the inlet pipe 21, and the second baffle 18 partitioning the resonance chamber 13 allows exhaust gas in the resonance chamber 13 to flow. It does not have a structure such as a through hole or pipe that can be used. Therefore, the resonance chamber 13 does not directly communicate with the first and second noise chambers 11 and 12, that is, the resonance chamber 13 is configured in a substantially sealed structure to the other noise chambers (11, 12) do. Accordingly, the inside of the resonance chamber 13 maintains a state where the exhaust gas is supplied through the inlet pipe 21 at the initial stage of operation and completely filled, and the resonance chamber 13 removes noise of a specific frequency through this. Only performs functions. That is, since the exhaust gas does not flow in the resonance chamber 13 when the exhaust gas is completely filled in the resonance chamber 13 during operation, the resonance chamber 13 is configured to remove only noise of a specific frequency.

The outlet pipe 22 is installed to penetrate the other end of the housing 10, the first baffle 17, and the second baffle 18 so as to lead the exhaust gas to the outside of the housing 10. In particular, one end of the outlet pipe 22 communicates with the first noise chamber 11, and the other end of the outlet pipe 22 is installed to communicate with the outside of the housing 10.

Meanwhile, in the present embodiment, two outlet pipes 22 may be installed to increase the efficiency of the exhaust gas, but the present invention is not limited thereto, and the outlet pipes 22 may be variously set to one or more.

In addition, the outer pipe 22 is provided with an outer pipe 26 on the outer circumferential surface of the predetermined section, and in particular, an outer pipe 26 is installed to cover the outer circumferential surface of the section adjacent to the second noise chamber 12. A sound absorbing material 27 is provided between the outer pipe 26 and the outlet pipe 22, and a plurality of micropores 22c communicating with the sound absorbing material 27 are formed on the outer circumferential surface of the outlet pipe 22. As a result, various noises or noises generated while the exhaust gas is discharged through the outlet pipe 22 can be absorbed.

On the other hand, when the engine of the vehicle stops, the hot exhaust gas is cooled in the housing 10, whereby moisture in the exhaust gas condenses and remains on the bottom surface of the housing 10. In order to remove the water, one side outer circumferential surface of the outlet pipe 22 is installed to communicate with the water removal pipe 29, the lower opening of the water removal pipe 29 is installed adjacent to the bottom surface of the housing 10 do. As a result, moisture formed by condensation of the exhaust gas in the housing 10 may be discharged to the outside together with the exhaust gas discharged after being collected toward the outlet pipe 22 by a capillary action.

In addition, the first and second baffles 17 and 18 may have at least one water communication through hole (not shown) in a portion adjacent to the bottom of the housing 10, and the water may be moistened by the through hole (not shown). Alternatively, the liquid oil component may be collected toward the drainage pipe 29.

1 is a plan sectional view showing a silencer according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along the line A-A of FIG. 1.

3 is a cross-sectional view taken along line B-B of FIG. 1.

4 is a cross-sectional view taken along the line C-C of FIG.

5 is a perspective view illustrating a variable valve applied to the silencer of the present invention.

6 is a plan view illustrating the variable valve of FIG. 5.

Brief description of symbols for the main parts of the drawings

10: housing 11: first noise chamber

12: second noise room 13: resonance room

17: first baffle 18: second baffle

21: Inlet Pipe 22: Outlet Pipe

30: variable valve

Claims (5)

delete delete delete A housing in which the interior is divided into first and second noise chambers and resonance chambers by first and second baffles; An inlet pipe installed through the first and second baffles and having at least one first communication hole on an outer circumferential surface adjacent to the first noise chamber, and having at least one second communication hole on an outer circumferential surface adjacent to the second noise chamber; At least one outlet pipe installed through the first and second baffles, one end of which communicates with the first noise chamber, and the other end of which communicates with the outside of the housing; And And a variable valve installed at the opening of the first baffle to open and close according to the exhaust pressure. One opening of the inlet pipe communicates with the outside of the housing, the resonance chamber communicates directly with the other opening of the inlet pipe only, and the resonance chamber is closed to the first and second noise chambers by the second baffle. The resonance chamber maintains a state filled with exhaust gas therein, The variable valve, A bracket having an opening in communication with the opening of the first baffle, the inner circumferential surface of the opening having a heat resistant cushioning sheet circumferentially (in the circumferential direction); A valve body pivotably mounted to the bracket via a shaft; And And a coil spring configured to deflect the valve body toward the bracket, one end of which is supported by the bracket, and the other end of which is composed of an elastic member that is supported by the valve body. delete

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