Motors: expansible chamber type – Working member position feedback to motive fluid control – Follower type
Patent
1989-01-31
1992-04-28
Look, Edward K.
Motors: expansible chamber type
Working member position feedback to motive fluid control
Follower type
13762524, 180149, 180143, F15B 910, B62D 506
Patent
active
051077523
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention is concerned with a rotary slide valve for hydraulic auxiliary power steering mechanisms of motor vehicles.
Auxiliary power steering mechanisms are designed so that the valve's characteristic curve (working pressure-operating power characteristic curve) has a flat, gradual ascent in a relatively large angle of rotation range of the rotary slide valve, and then rises steeply to a maximum value as the operating power further increases. So the driver must turn the steering wheel through a relatively large angle of rotation, when parking and maneuvering, for example, until a greater intensification of power is reached. The two rotary slide valve elements elastically connected with each other by the torsion bar rotate against each other within this angle of rotation. Depending upon the cross-section and length of the torsion bar, the driver must apply more or less a large amount of operating power until the rotary slide valve triggers the desired intensification of power. Such a valve characteristic curve, with initially flat ascent through the angle of rotation, makes straight-line travel characteristics possible at higher speeds since the auxiliary power portion remains small and the response within the elastic area of the torsion bar permits a good steering touch. However, the fact that the operating power is relatively high in the slow-travel range is a disadvantage of the characteristic curve characteristic that is synchronized with an exact steering behavior at high speeds.
A rotary slide valve that accomplishes the controlling of pressure so that the opposing demands for lower operating power in the slow-travel range and high operating power at fast speeds can be satisfied is already known from EP 01 71 247 A2. This known rotary slide valve is a structural part of a rack-and-pinion steering mechanism in which the rotary slide member connected with the steering shaft is connected with the pinion engaging with the steering rack by the torsion bar. The valve sleeve surrounding the rotary slide member is likewise coupled with the pinion in the direction of rotation with a steering play, but guided axially and displaceable on the rotary slide member. One face of the valve sleeve rests against a spring in the housing while a surge or pressure chamber is attached to its other face. This surge chamber lies between the radial return drilled holes or bores in the rotary slide member and the return connection leading to a container. An electro-magnetically activated adjustment throttle is installed in the return connection that controls the return cross-section as a function of the speed of travel. In rapid travel, the adjustment throttle is wide open, so that the oil can flow unhindered to the return connection. Therefore the valve sleeve remains on the rotary slide member in its initial position, determined by the spring, so that the guide grooves and the guiding edges of the rotary slide valve corresponding thereto are available for regulating the pressure along their entire length. This means a characteristic curve path with a gradual increase of pressure over a relatively large angle of rotation range and the further steep increase of pressure only toward the end of the relative rotation of the two parts of the rotary slide member to each other.
At slow speed (i.e. during parking), the cross-sectional area of the aperture at the adjustment throttle is narrowed down sharply. As a result, a differential pressure builds up in the surge chamber of the valve sleeve that moves it into final position against the spring resistance. The effective guiding edge length of the rotary slide valve is shortened, so that the original characteristic curve of the rotary slide valve is changed. The torsion angle between the two rotary slide elements needed for regulating the pressure is smaller since the building up of pressure in the active pressure chamber of the working cylinder takes place much faster. This is a result of the reduced regulating cross-section. Since the torsion bar co
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patent: 4561516 (1985-12-01), Bishop et al.
patent: 4756330 (1988-07-01), Tischer
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patent: 4784235 (1988-11-01), Ijiri et al.
patent: 4830130 (1989-05-01), Miyoshi
patent: 4858712 (1989-08-01), Neff
Elser Dieter
Hetzel Helmut
Kogel Walter
Look Edward K.
Ryznic John
Zahnradfabrik Friedrichshafen AG
Zalkind Albert M.
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