Fluid-pressure and analogous brake systems – Speed-controlled – Having a valve system responsive to a wheel lock signal
Patent
1995-11-27
1997-12-16
Graham, Matthew C.
Fluid-pressure and analogous brake systems
Speed-controlled
Having a valve system responsive to a wheel lock signal
417363, F04B 3900, F16F 1502, B60T 836
Patent
active
056976780
DESCRIPTION:
BRIEF SUMMARY
PRIOR ART
The invention relates to a hydraulic unit which is supported in such a way as to damp vibration of a slip-controlled brake system.
Such a vibration-damping support system for a hydraulic unit in a vehicle has already been disclosed (DE-C-39 41 401). In this support system, the housing of the hydraulic unit is provided on opposite end faces with three horizontally extending studs, each of which engages in a rubber shaped part seated in a cap-shaped component connected to the body of the vehicle. During slip control, vibrations of the hydraulic unit, particularly those excited by the reciprocating-piston pump, are not fully damped since the rubber shaped parts are subjected essentially to compressive stress.
ADVANTAGES OF THE INVENTION
In contrast, the hydraulic unit is supported in accordance with the invention in such a way as to damp vibration has the advantage that the . . . rubber spring elements are subjected primarily to shear during the operation of the pump, i.e. in a manner in which the lower spring rate--as compared with compressive or tensile stress--characteristic of rubber is exploited. This improves the effectiveness with which the transmission of structure-borne noise from the hydraulic unit to the vehicle body is isolated.
The development of the invention specified herein increases the degree of assembly of the hydraulic unit and facilitates installation in the vehicle. In addition, incorrect mounting of the rubber spring elements is avoided.
BRIEF DESCRIPTION OF THE DRAWINGS
An exemplary embodiment of the invention is illustrated in simplified form in the drawing and explained in greater detail in the following description. FIG. 1 shows an end view of a hydraulic unit with the arrangement of rubber spring elements and FIG. 2 shows a side view of the hydraulic unit in the direction of arrow II in FIG. 1.
DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENT
The hydraulic unit 10 illustrated in FIGS. 1 and 2 of the drawing is part of a slip-controlled brake system (not shown) of a vehicle, especially a passenger vehicle. The hydraulic unit 10 has a housing 11 with the approximate shape of a cuboid standing on an edge. An electric drive motor 13 is attached to a vertical end face 12 of the housing 11. The motor 13 serves to drive in rotation an eccentric shaft 15 arranged with its longitudinal axis 14 horizontal. Engaging on said shaft on both sides are respective reciprocating pistons 16 and 17 of reciprocating-piston pumps 18 and 19. The horizontally extending longitudinal axes 20 of the reciprocating-piston pumps 18 and 19 arranged in the housing 11 of the hydraulic unit 10 intersect the longitudinal axis 14 of the eccentric shaft 15 at right angles. The center of gravity 21 of the hydraulic unit 10 is at a distance above the longitudinal axis 20, within the housing 11, in a vertical plane 22 passing through the shaft longitudinal axis 14. The hydraulic unit 10 is accordingly excited into torsional vibrations in the direction of the double arrow 23 indicated in FIG. 1 about the center of gravity 21 by the reciprocating pistons 16 and 17, which are driven in translation.
A twin angle bracket 26 formed from sheet metal is fastened to the motor-side end face 12 of the housing 11. A single angle bracket 28 made of sheet metal is bolted to the opposite end face 27 of the housing 11 (FIG. 2). As shown, the twin angle bracket 26 and the single angle bracket 28 can be connected to one another by a link 29. A holder 30 designed as a sheet-metal shaped part is furthermore illustrated at a distance underneath the hydraulic unit 10. This holder is designed (in a manner not shown) to be fastened to the vehicle. Two rubber spring elements 31 and 32 are arranged between the double angle bracket 26 and the holder 30, and one rubber spring element 33 is arranged between the single angle bracket 28 and the holder 30. At their ends 34 and 35, the rubber-spring elements 31 to 33, which are designed as rubber-metal springs in the form of disk springs, are screwed to the twin angle bracket 26 and
REFERENCES:
patent: 4636673 (1987-01-01), McDonald
Graham Matthew C.
Greigg Edwin E.
Greigg Ronald E.
Robert & Bosch GmbH
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