DE10020041C2 - Bypass valve body for turbo Otto engine - Google Patents

Description

The invention relates to a bypass valve body for turbo gasoline Internal combustion engines for connecting the pressure side to the intake side of a Boost pressure pump, with a housing in which a valve rod by means of a Drive unit is displaceable, with a valve head on the valve rod a valve closing part is arranged.

Bypass valve bodies of this type are well known and are described, for example, in DE 196 39 146 C1 wrote. The connection function between the pressure side and the suction side of a boost pump Turbocharger is used for the transition from high load to overrun Internal combustion engine required to produce a so-called "pump effect" Turbocharger against the closed throttle valve of the internal combustion engine and an excessive brutal braking of the turbo speed, if necessary to prevent thermodynamic problems.

Bypass valve bodies of this type are subject to extreme conditions because of their installation location Flow conditions. The flow diameter can be up to 25 mm a differential pressure of more than 1 bar. The well-known Bypass valve bodies accordingly have a response that the today's requirements for direct, rapid actuation of the valve body no longer corresponds.

The object of the invention is therefore to create a bypass valve body procure, which avoids the disadvantage mentioned above and also on simple Is way and inexpensive to manufacture.  

This object is achieved in that the valve head and the valve rod each have at least one pressure compensation hole. That way ensures that the differential pressure between the pressure and suction side of the Boost pressure pump does not hinder the closing movement of the bypass valve body. Between the front and back of the valve closing part and the valve rod so there is pressure equalization. Due to the low valve closing forces an electrically operable drive system is possible as the drive unit use. In this way, a simple, inexpensive way direct response behavior can be realized. Control units with Vacuum storage for pneumatic valves to control them Valves are used, can then be omitted. This reduces the constructive effort in terms of costs and the necessary installation space considerably. It has proven to be particularly advantageous use electromagnetic drive.

In a particularly advantageous embodiment, the Housing and the valve head as a membrane with a circumferential sealing lip Valve closing body arranged. It has proven useful to Alignment problems and thus sealing problems compensate for that connection between the valve rod and the valve head as a cardanic ball joint is executed.

An embodiment of the invention is shown and will be described below described.

The drawing shows:

Fig. 1 is a schematic representation of a turbo Otto engine, and

Fig. 2 is a sectional view of the bypass valve body according to the invention.

Fig. 1 shows the schematic representation of a turbo Otto engine. Ambient air is drawn in via a suction line 1 and compressed by the compressor 2 , which is driven by an exhaust-gas-side turbine 3 , and subsequently fed to the combustion chamber 4 of the internal combustion engine. The exhaust gas is then discharged from the combustion chamber 4 via the exhaust pipe 5 and the turbine 3 . The intake air to be supplied to the combustion chamber 4 is regulated by a throttle valve 6 . In order to prevent a pump effect of the turbocharger rotating against the closed throttle valve 6 in a rapidly closing throttle valve, for example triggered by sudden braking, a bypass line 7 , which has a bypass valve body 8 , is provided in a known manner. Compressed intake air can be returned to the area of intake line 1 upstream of compressor 2 via this bypass line 7 .

Fig. 2 shows the bypass valve body 8 according to the invention in section. In the present example, the bypass valve body 8 is flanged directly to the housing 9 of the boost pressure pump 2 by means of screws 10 . The bypass valve body 8 normally separates the pressure side 11 from the suction side 12 of the boost pressure pump 2 . If the engine is suddenly braked, for example due to a traffic situation, and the throttle valve 6 is closed, the pressure side 11 is connected to the intake side 12 , so that no so-called "pump effect" of the turbocharger against the closed throttle valve 6 can occur.

For this purpose, the bypass valve body 8 has a valve head 13 with a valve closing part 14 , the valve head 13 in the present case being connected to a valve rod 16 by a cardanic ball joint 15 . The valve rod 16 is moved in a known manner by an electromagnetic drive 17 , the valve rod 16 forming an anchor element for the magnetic winding 18 . A core element 19 forms the anchor counterpart. The power supply is ensured by an electrical connector 20 .

The valve closing part 14 is designed in the present case as a membrane 25 with a circumferential sealing lip 21 . The valve head 13 and the valve rod 16 have pressure compensation bores 22 , 23 , 26 in order to keep the closing or opening force of the bypass valve body as low as possible. In the present case, theoretically only the force of a spring 24 and the usual frictional forces have to be overcome as the opening force. In this way, a bypass valve body was created which has a particularly quick response when driving.

It should be noted that the bypass valve body is also on can be arranged elsewhere in the engine compartment, the connection to Pressure or suction side of the boost pressure pump, for example also via Hose elements can be made.

Claims (5)

1.Bypass valve body for turbo Otto engine for connecting the pressure side to the intake side of a boost pressure pump, with a housing in which a valve rod can be displaced by means of a drive unit, a valve head with a valve closing part being arranged on the valve rod, characterized in that the bypass valve body is a Has membrane ( 25 ), which is in wish connection with the pressure side and the suction side of the boost pressure pump and that the valve head ( 13 ) and the valve rod ( 16 ) have pressure compensation bores ( 22 , 23 , 26 ). 2. Bypass valve body according to claim 1, characterized in that the drive unit ( 17 ) is an electrically actuated drive system. 3. Bypass valve body according to claim 2, characterized in that the electrically actuable drive system ( 17 ) is an electromagnetic drive. 4. Bypass valve body according to one of the preceding claims, characterized in that between the housing ( 9 ) and the valve head ( 13 ) a membrane ( 14 ) with a circumferential sealing lip ( 21 ) is arranged as a valve closing part. 5. Bypass valve body according to one of the preceding claims, characterized in that a connection between the valve rod ( 14 ) and the valve head ( 13 ) is designed as a cardanic ball joint ( 15 ).