DE102008061070A1 - Hydraulic system for motor vehicle, has damping device with damping volumes that are arranged in row in type of Helmholtz-resonators over row connection channel, where volumes are connected to pressure line over joint connection channel - Google Patents

Abstract

The system (1) has a hydraulic pressure line (2), and a damping device (5) with two damping volumes (11, 12) that are arranged in a row in a type of Helmholtz-resonators over a row connection channel (16). The volumes are connected to the pressure line over a joint connection channel (14), and the damping device has a damping housing (6) with cavities (8, 9) that are connected with one another through the channel (16). The pressure line is a part of a hydraulic section that connects a master cylinder with a slave cylinder, where the channel (14) runs through a joint connection piece (15).

Description

The The invention relates to a hydraulic system, in particular for motor vehicles, with a hydraulic pressure line and with a damping device.

task The invention is a hydraulic system with a hydraulic pressure line and with a damping device to create, which is simple and good damping properties having.

The The object is with a hydraulic system, in particular for motor vehicles, with a hydraulic pressure line and with a damping device, characterized solved, that the damping device several, in particular two, damping volumes includes, in the type of Helmholtz resonators over a Series connection channel connected in series and via a connection connecting channel are connected to the hydraulic pressure line. The damping volumes in the way of Helmholtz resonators absorb the maximum energy each in a narrow range around its own resonant frequency around. On the Cross section and the length the connection channels as well as the size of the damping volumes can several different resonance frequencies of the damping device be specifically influenced or adjusted. With the Damping device according to the invention Is it possible, Vibration energy in several different frequency ranges to absorb or to dampen.

One preferred embodiment of the hydraulic system is characterized in that the damping device a damping housing with several, in particular two, cavities for each one of the damping volumes includes. about the stiffness of the damping housing can the resonant frequency of the damping device be easily influenced or adjusted in a simple way. The damping housing can also have areas with different stiffness, the different cavities assigned.

One Another preferred embodiment of the hydraulic system is characterized in that two cavities the series connection channel communicate with each other. The Cavities include for example, the shape of closed circular cylinders, the only at the connecting channels openings exhibit.

One Another preferred embodiment of the hydraulic system is characterized in that the series connection channel passing through a series connection branch extending from one of the damping volumes in an adjacent damping volume extends. The series connection pipe has essentially the Shape of a straight circular cylinder jacket.

One Another preferred embodiment of the hydraulic system is characterized in that the connection connecting channel passes through a connection fitting extending from one of the damping volumes extends into the hydraulic pressure line or opens into the hydraulic pressure line. Of the Connection channel has essentially the shape of a straight circular cylinder jacket.

One Another preferred embodiment the hydraulic system is characterized in that the damping housing substantially has the shape of a straight circular cylinder, which in several cavities is divided. The cavities again preferably also have the shape of straight circular cylinders.

One Another preferred embodiment of the hydraulic system is characterized in that the hydraulic pressure line Part of a hydraulic track is that with a master cylinder a slave cylinder connects and arranged in a pump is. The master cylinder is preferably by means of a pedal actuated, for example, a clutch pedal. The slave cylinder acts for Example with a release system a coupling device together. The pump is preferably used In addition, the force applied to the pedal actuating force amplified by to transfer the master cylinder to the slave cylinder.

Further Advantages, features and details of the invention will become apparent in the following description, with reference to FIGS Drawing an embodiment is described in detail. Show it:

1 an embodiment of a hydraulic system according to the invention and

2 a spring-damper model to the hydraulic system in 1 ,

In the enclosed 1 is a section of a hydraulic system 1 with a hydraulic pressure line 2 shown in longitudinal section. The hydraulic pressure line 2 is part of a hydraulic line that connects a master cylinder to a slave cylinder. The master cylinder can be actuated via a clutch pedal. About a in the hydraulic route possibly existing pump (not shown), the actuating force is increasingly transmitted from the master cylinder to the slave cylinder, which in turn serves to actuate a (also not shown) Kupplungsausrücksystem a coupling device.

To the hydraulic line 2 is a damping device according to the invention 5 with a damping housing 6 connected. In the damping housing 6 are two cavities 8th . 9 formed, each for receiving a damping volume 11 . 12 serve.

The damping volume 11 is via a connection channel 14 that goes through a spigot 15 extends through, with the hydraulic pressure line 2 in connection. The two damping volumes 11 . 12 stand by a series connection channel 16 communicating with each other through a series connection pipe 17 extends through.

In the operation of a motor vehicle, excited by the internal combustion engine and transmitted by the clutch release system to the clutch pedal, undesirable vibrations can occur on the clutch pedal. Alternatively or additionally, unwanted noise may occur in the vehicle when the clutch is actuated. By the damping device according to the invention 5 Both the unwanted noise and the unwanted vibration can be reduced by reducing the energy of vibrations in the hydraulic pressure line 2 is absorbed.

Through the two damping volumes 11 . 12 In a simple way, vibrations in different frequency ranges can be absorbed or damped. The adjustment of the different frequency ranges can be done, for example, by the length and the cross-section of the connection connecting channel 15 and / or the series connection channel 16 be varied. In addition, the size of the damping volumes 11 . 12 over the cavities 8th . 9 in the damper housing 6 be varied.

In 2 is a spring-damper model of the hydraulic system 1 shown. In the spring-damper model, the mass of hydraulic medium in the port connecting channel with 21 designated. The stiffness of the damping housing in the cavity 8th is by a Fe the 22 indicated. The mass of hydraulic fluid in the series connection channel 16 is with 24 designated. The stiffness of the damping housing 6 in the cavity 9 is by a spring 25 indicated. The crowd 21 , the feather 22 , the crowd 24 and the spring 25 are connected in series. LIST OF REFERENCE NUMBERS 1 hydraulic system 2 Hydraulic pressure line 5 attenuator 6 damping housing 8th cavity 9 cavity 11 damping volume 12 damping volume 14 Port connection channel 15 spigot 16 Linking channel 17 Series connecting pieces 21 Dimensions 22 feather 24 Dimensions 25 feather

Claims (7)

Hydraulic system, in particular for motor vehicles, with a hydraulic pressure line ( 2 ) and with a damping device ( 5 ), characterized in that the damping device ( 5 ) several, in particular two, damping volumes ( 11 . 12 ), which in the form of Helmholtz resonators via a series connection channel ( 16 ) in series and via a connection connecting channel ( 14 ) to the hydraulic pressure line ( 2 ) are connected. Hydraulic system according to claim 1, characterized in that the damping device ( 5 ) a damping housing ( 6 ) with a plurality, in particular two, cavities ( 8th . 9 ) for one of the attenuation volumes ( 11 . 12 ). Hydraulic system according to claim 2, characterized in that two cavities ( 8th . 9 ) through the series connection channel ( 16 ) communicate with each other. Hydraulic system according to claim 2 or 3, characterized in that the series connection channel ( 16 ) through a series connection ( 17 ), which differs from one of the damping volumes ( 11 ) into an adjacent damping volume ( 12 ). Hydraulic system according to one of claims 2 to 4, characterized in that the connection connecting channel ( 14 ) through a connection fitting ( 15 ), which differs from one of the damping volumes ( 11 ) in the hydraulic pressure line ( 2 ) extends or in the hydraulic pressure line ( 2 ) opens. Hydraulic system according to one of claims 2 to 5, characterized in that the damping housing ( 6 ) has substantially the shape of a right circular cylinder, which is divided into a plurality of cavities. Hydraulic system according to one of the preceding claims, characterized in that the hydraulic pressure line ( 2 ) Is part of a hydraulic path that connects a master cylinder with a slave cylinder and in which possibly a pump is arranged.