DE19619173C1 - Pulsating-gas silencer with variable damping characteristics - Google Patents

Abstract

The silencer is particularly for an engine exhaust, having a housing (1) with inlet and outlet pipes (2,3) and containing intermediate pipes (4,5) and/or partitions (6,7). These form a first long gas passage (A) of reduced cross-section and a second (B) short one of large cross-section. A closing plug (12) working against a seat (11) is moved by an actuator (13) dependent on gas pressure. A nozzle (10) is mounted in the inlet pipe or one directly connected to it, and generates a vacuum to operate the actuator. The nozzle can be of the Venturi or Laval type, and the actuator can consist of a folding bellows or a membrane capsule, while the plug can be a plate valve. The end of one of the pipes (2,4,5) can form the valve seat, while both seat and plug can be upstream of the nozzle. Two or more nozzles, actuators and/or plugs can be provided, and one nozzle can control two or more actuators, which can have different characteristics.

Description

The invention relates to variable silencers Damping characteristic for pulsating gases, in particular Exhaust gases from internal combustion engines, according to the preamble of Claim 1.

A very simple construction of a silencer with switchable damping characteristic is described in the DE magazine "MTZ Motortechnische Zeitschrift", 53 (1992), P. 356 ff.

It is a silencer with two Tailpipes. There is a rotary flap in one of the tailpipes used to close the tailpipe can. To actuate the valve flap is an actuator Vacuum can provided, which is by means of a solenoid valve, Vacuum accumulator and check valve from negative pressure in the Intake tract of an internal combustion engine is actuated. The Solenoid valve is operated by a control device, which evaluates the engine speed and the throttle valve position. This silencer construction is very complex and at the same time limited in their effectiveness, since when closed Rotary flap increases gas noise.

From US 2 072 372 a silencer for Internal combustion engines known, its damping characteristics can also be changed using the rotary flap. The The rotary flap is actuated using Thrust crank gearbox through a diaphragm box as an actuator. As The control pressure becomes that in the inlet pipe of the silencer Exhaust gas overpressure formed on the pressure side of the membrane headed.

A silencer with switchable Damping characteristics are also shown in DE-U 89 08 244. Here  actuates the arising in the inlet pipe of the muffler Exhaust gas pressure a bellows as an actuator, which has a Piston rod moves a conical valve plate. Of the Valve plate works together with a valve seat that is in the outlet pipe of the silencer is integrated.

Another silencer with switchable Damping characteristics are the subject of DE-U 94 05 771. Here a valve disc is used as the closing element, which is placed on the end of a gas-carrying pipe or is lifted off the pipe end. A membrane box is used as an actuator provided, the membrane moves a piston rod on the the valve plate is mounted. The control pressure is about a pressure line integrated into the piston rod on the Pressure side of the membrane passed.

While the design effort to change the Damping characteristics of silencers in particular the latter construction is minimal and the Damping characteristics on practically any Use case can be adapted are the Printing properties not yet satisfactory. This results from the fact that some pressure drop is needed to to control the overpressure box used as an actuator. Also the Control of the actuator described at the beginning by the derived from the intake tract of the internal combustion engine Vacuum is unsatisfactory because of the effort for that Solenoid valve, the vacuum accumulator, the check valve and the sensors for engine speed and throttle valve position is significant.

The present invention is therefore based on the object specify a silencer of the type mentioned at the beginning, that works without externally generated control pressure, only one has little design effort and only little  Pressure loss produced.

This problem is solved by a silencer with the Features of claim 1.

Also in the present invention, to change the Damping characteristic uses a closing element, which works together with a locking seat, the Closing element is moved by an actuator Vacuum is moved. Within the scope of the invention However, negative pressure generated by the gas flow itself through a nozzle, preferably a Venturi or Laval nozzle, is led. These nozzles generate with increasing Gas flow a quadratic negative pressure, the can also move large locking elements. You have yourself also a sound absorbing effect. The gas flow can be a Venturi or Laval nozzle practically without resulting Flow through pressure loss.

According to an advantageous embodiment of the invention the actuator is a bellows. This is made entirely of metal and can therefore also handle the high temperatures in one Exhaust silencers exposed to internal combustion engines will.

Alternatively, the actuator can be designed as a membrane box be.

The closing element is preferably a valve disk executes a lifting movement. Such a valve disk can also be attached directly to the bellows.

The end of one of the tubes is preferably used as the locking seat of silencer use.  

According to a preferred embodiment of the invention sit Fluidically, the locking element and locking seat are seen in front of the nozzle. In this case, the mass flow through the Nozzle regulated, for example to an almost constant Value. This enables the gas flow rate to be in to control the nozzle in such a way that it has the best effect maintains the required supersonic speed.

According to a development of the invention, there are two or more Nozzles, actuators and or closing elements are provided. In order to it is possible to adjust the damping characteristics of the Silencer adjustable in several frequency ranges.

A nozzle preferably controls two or more actuators, wherein this prefers different properties, for example, have response values.

Based on the drawing, the invention in the form of Embodiments are explained in more detail. Show it each schematically and as a cut:

Fig. 1 shows a first embodiment of a silencer with a variable damping characteristic at low gas flow rate,

Fig. 2 shows the silencer of FIG. 1 with a large gas flow rate,

Fig. 3 shows a second embodiment of a silencer with a variable damping characteristic at low gas flow rate,

Fig. 4 shows the silencer of Fig. 3 with high gas flow and

Fig. 5 as a third embodiment, a silencer with multiple variable damping characteristics.

Fig. 1 shows a first embodiment of a silencer with a low gas throughput. A housing 1 with an inlet pipe 2 and an outlet pipe 3 can be seen . A non-perforated partition 6 and a perforated partition 7 can be seen inside the housing 1 . A short tube 4 with a large diameter and a short length penetrates the non-perforated partition 6 .

A venturi nozzle 10 is inserted into the inlet pipe 2 . Behind the nozzle 10 and in front of the non-perforated intermediate wall 6 , the inlet pipe 2 has a perforated surface through which the gas flow flows into the middle silencer chamber, in order then to enter the outlet pipe 3 after passing through the perforated intermediate wall.

A pressure line 14 branches off from the constriction of the nozzle 10 and is guided onto a bellows 13 as an actuator. The bellows 13, a valve plate 12 is fixed, which cooperates with a valve seat 11 at the end of the intermediate pipe 4, and this tube 4 closes. For this reason, the gas is forced to take the gas path A with a small cross section and a large length.

Fig. 2 shows the situation with high gas throughput. The negative pressure formed at the narrow point of the nozzle 10 has contracted the bellows 13 . The valve plate 12 is lifted off the valve seat 11 , the short intermediate tube 4 is open. The gas follows the gas path B through the short intermediate tube 4 and through the perforated intermediate wall 7 into the outlet tube 3 .

Fig. 3 shows a second embodiment of a silencer with a variable damping characteristic at low gas throughput. In this embodiment, the intermediate tube 4 has a small diameter. Essential is a second intermediate tube 5 with valve seat 11 and the closing element 12 , which are arranged upstream of the nozzle 10 in terms of flow technology.

When the valve 11 , 12 is closed, the gas follows the gas path A with a large length and a small cross section through the narrow intermediate tube 4 and the perforated intermediate wall 7 into the outlet tube 3 .

Fig. 4 shows the situation with high gas throughput. The negative pressure formed in the nozzle 10 has moved the bellows 13 , the valve plate 12 has lifted off the valve seat 11 and the gas follows the gas path B with a short length and a large cross section from the short intermediate pipe 5 directly into the outlet pipe 3 .

As soon as the gas path B is opened, the amount of gas flowing through the nozzle 10 is reduced. This also reduces the negative pressure formed at the constriction of the nozzle 10 . In this way, feedback is achieved which regulates the mass flow through the nozzle 10 . If the nozzle 10 is designed as a Laval nozzle, the gas speed can always be adjusted to supersonic speed, which brings about the optimal sound-damping effect.

Fig. 5 shows a third embodiment of a silencer with a variable damping characteristic. Here, a nozzle 10 controls two actuators 13 , 13 'with different response characteristics. The actuators 13 , 13 'therefore move the closing elements 12 12' connected to them one after the other, and the damping characteristic of the muffler is switched over in several stages.

Initial attempts with the present invention have shown that sufficient vacuum is formed in the nozzles to to be able to move even large locking elements. Especially the tests have confirmed that the pressure drops of this Silencers are significantly lower than that of the pressure controlled silencers. This also does not apply Need to have the vacuum available externally places, for example by tapping the intake tract an internal combustion engine. Finally, there is Possibility of a yourself on optimal damping values regulating system.

Claims (11)

1. Silencer with variable damping characteristics for pulsating gases, in particular exhaust gases from internal combustion engines, comprising

• - a housing ( 1 ),
• - inlet pipe ( 2 ) and outlet pipe ( 3 ),
• - intermediate tubes ( 4 , 5 ) and / or partitions ( 6 , 7 ) integrated in the housing ( 1 ),
• - Define the intermediate pipes ( 4 , 5 ) and / or partitions ( 6 , 7 )
• - A first gas path (A) with a reduced cross section and / or long flow path and
• a second gas path (B) with an enlarged cross section and / or a short flow path,
• - a locking seat ( 11 ),
• - a closing element ( 12 )
• - And an actuator ( 13 ) controlled by gas pressure, which moves the closing element ( 12 ), characterized by the features:
• - A nozzle ( 10 ) is installed in the inlet pipe ( 2 ) or in a pipe that is directly connected to this in terms of flow technology,
• - The resulting negative pressure at the nozzle constriction moves the actuator ( 13 ).

2. Silencer according to claim 1, characterized by the feature:

• - The nozzle ( 10 ) is a Venturi nozzle.

3. Silencer according to claim 1, characterized by the feature:

• - The nozzle ( 10 ) is a Laval nozzle.

4. Silencer according to claim 1, 2 or 3, characterized by the feature:

• - The actuator ( 13 ) is a bellows.

5. Silencer according to claim 1, 2 or 3, characterized by the feature:

• - The actuator ( 13 ) is a membrane box.

6. Silencer according to one of claims 1 to 5, characterized by the feature:

• - The closing element ( 12 ) is a valve disk.

7. Silencer according to one of claims 1 to 6, characterized by the feature:

• - The end of one of the tubes ( 2 , 4 , 5 ) is designed as a closing seat ( 11 ).

8. Silencer according to one of claims 1 to 7, characterized by the feature:

• - Closing element ( 12 ) and closing seat ( 11 ) are fluidically in front of the nozzle ( 10 ).

9. Silencer according to one of claims 1 to 8, characterized by the feature:

• - Two or more nozzles ( 10 ), actuators ( 13 ) and / or closing elements ( 11 , 12 ) are provided.

10. Silencer according to claim 9, characterized by the feature:

• - A nozzle ( 10 ) controls two or more actuators ( 13 ).

11. Silencer according to claim 10, characterized by the feature:

• - The actuators ( 13 ) have different properties.