DE19500998C1 - Hydraulic master and slave system for clutch operation in motor vehicle engine - Google Patents

Abstract

The system has several displacement units. One (3) of the units has a ventilation aperture (4), and is located lower than the another displacement unit (1). The hydraulic line (2) connecting the units is formed in steps. Each step has one section, which rises slightly in the direction of relief, and another section, connected to the top end, which falls slightly in the relief direction. The volume of the falling section is smaller than that of the rising section, and considerably smaller than the volume which is displaced during a master-sided displacement stroke.

Description

The invention relates to a hydraulic encoder and receiver system stem with displacement units on the encoder and receiver side and at least one hydraulic line arranged in between and with a vent arranged on a displacement unit tung.

Such systems are used, for example, in motor vehicles used to actuate the clutch in the drive train is provided between the motor and drive wheels. It is a hydraulic reservoir is typically arranged on the transmitter, on the one hand, when the encoder is not actuated, a vent tion of the hydraulic system and on the other hand Ensure hydraulic fluid continues to flow into the hydraulic system is achieved. However, to ensure the Ent ventilation so far necessary that the encoder vertically higher than the recipient is arranged.

DE-OS 26 15 986 is for actuating the clutch serving hydraulic transmitter and receiver system known, wel ches both a donor side and a recipient side  Has ventilation option so that the air is always in Upward direction can emerge from the system.

The object of the invention is now without significant construction tive changes to the system a new way of arranging the To allow ventilation.

This object is achieved in that the Displacement unit with ventilation vertical  arranged lower than the other displacement unit and the hydraulic line is stepped like this is that the stairs are each one in Direction for venting slightly rising pipe part as well one at the higher end, towards have line part falling for ventilation, its Volume less than the volume of the rising pipe partial and significantly smaller than that of an encoder Displacement is displaced volume.

In a particularly expedient embodiment of the invention it is provided that the volume of the rising Line part larger than that of an encoder side displacement is displaced volume.

As soon as any air bubbles are present in the system due to an actuation of the encoder in the area of a lower end of a rising in the direction of the vent Line part have arrived, they migrate due to their Buoyancy in the hydraulic medium automatically increases End of the respective line section, d. H. the distance the air bubbles from the vent is reduced with the consequence that the air bubbles in the course of several donors actuations can vent. This The process is already after very few donor operations completed when all previously specified dimension solutions of the line parts are fulfilled.

Otherwise, the preferred features of the Invention on the claims and the following he refined an advantageous embodiment, which is described with reference to the drawing.

The only figure shows a schematic section image of a hydraulic transmitter and receiver system according to the invention.

A trained as a piston-cylinder unit hydrau lic receiver 1 is connected via a hydraulic line 2 with a vertically lower hydraulic encoder 3 , which is also designed as a piston-cylinder unit.

In the unactuated state of the transmitter 3 , its piston 3 'assumes a position shifted to the left in the drawing, in which an opening 4 branching up from the cylinder of the transmitter 3 is released, which leads to a hydraulic reservoir 5 . In the example shown, this hydraulic reservoir 5 is arranged vertically at least in regions above the slave 1 and is otherwise open to the atmosphere.

When the encoder 3 is actuated, the piston 3 'passes over the opening 4 and blocks it, so that with a further stroke of the piston 3 ' hydraulic medium is displaced from the encoder 3 in the direction of the slave 1 , the piston 1 'then accordingly - in the Drawing to the right - is moved. In the subsequent return stroke of the piston 3 'then the piston 1 ' of the slave 1 moves back into the position shown.

The peculiarity of the illustrated embodiment is that the hydraulic line 2 is formed several times in stages - as a cascade - each stage has a slightly rising line in the direction of the sensor 3 and a line at its higher end, falling steeply in the direction of the sensor 3 Has line part, the volume of which is less than the volume of the adjacent rising line part and significantly less than the hydraulic volume displaced during a sensor actuation, while the volume of each rising line part is greater than the hydraulic volume displaced during a sensor actuation.

If, according to a preferred embodiment, the hydraulic line 2 has a substantially identical cross section everywhere, this is equivalent to the fact that the rising line parts should be significantly longer than the falling line parts.

At the slave 1 and the encoder 3 , the hydraulic line 2 connects with a rising line part in the direction of the encoder 3 .

The specified design of the hydraulic line 2 offers the possibility that air bubbles possibly occurring on the slave 1 or in the hydraulic line 2 in the course of fewer transmitter operations in the area of the opening 4 on the cylinder of the transmitter 3 and from there via the hydraulic reservoir 5 to the atmosphere can be changed.

If, for example, an air bubble has formed in the slave 1 , this will sooner or later be carried away when the transmitter is actuated by the hydraulic medium, which first flows into the slave 1 and then flows back into the hydraulic line 2 , ie the air bubble gets into the slave side End of the to the slave 1 at closing, in the direction of the sensor 3 slightly rising line part. Due to their buoyancy in the hydraulic medium, the bubble migrates, in particular during an operating phase without any further timer operation, automatically at the higher end of this ascending pipe member so that they are virtually in a subsequent encoder operation or in the course of the return stroke of the piston 3 'of the encoder 3 always up in the area of the lower end of the next lower line part is entrained, which rises slightly in the direction of the sensor 3 . In the case of multiple sensor operations that follow one another with short breaks, any air bubbles move from step to step in the cascade of stairs and as a result reach the area of the ventilation opening 4 .

The invention thus offers the advantage that previous hydraulic transmitter and receiver systems can be used practically unchanged even when the vent 4 is provided on a vertically deep displacement unit of the system. It is only necessary to design the hydraulic line 2 as a cascade of stairs in the manner shown.

Claims (5)

1. Hydraulic transmitter and receiver system with transmitter and receiver-side displacement units and at least one hydraulic line arranged between them and with a ventilation unit arranged on a ventilation, characterized in that the displacement unit ( 3 ) with the ventilation (opening 4 ) vertically lower than the other Displacer unit ( 1 ) arranged and the hydraulic line ( 2 ) is designed so that the stairs step each have a slightly increasing in the direction of ventilation line portion and a subsequent to its higher end, in the direction of ventilation from falling line part, the volume is smaller than the volume of the rising line part and significantly smaller than the volume displaced in the case of a displacement stroke on the encoder side. 2. Hydraulic transmitter and receiver system according to claim 1, characterized, that the slightly rising pipe parts each have a volume larger than that at is a displaced volume on the encoder side.   3. Hydraulic transmitter and receiver system according to claim 1 or 2, characterized in that the hydraulic line ( 2 ) on the transmitter ( 3 ) and / or the slave ( 1 ) each connects with an increasing line part in the direction of ventilation. 4. Hydraulic transmitter and receiver system according to one of claims 1 to 3, characterized, that the falling line parts are steeper and shorter designed as the rising line parts or are arranged. 5. Hydraulic sensor and receiver system according to one of claims 1 to 4, characterized in that the hydraulic line ( 2 ) has a substantially same cross-section in wesent union.