ROLL STABILIZATION SYSTEM FOR A MOTOR VEHICLE
20180229577 ยท 2018-08-16
Inventors
- Michael Triebel (Oberschwarzach, DE)
- Achim THOMAE (Bergrheinfeld, DE)
- Helmut BAALMANN (Bergrheinfeld, DE)
- Stefan Rappelt (Sulzheim, DE)
- Ernst Oswald (Gerolzhofen, DE)
Cpc classification
B60G2204/122
PERFORMING OPERATIONS; TRANSPORTING
B60G21/0555
PERFORMING OPERATIONS; TRANSPORTING
B60R16/033
PERFORMING OPERATIONS; TRANSPORTING
B60G2204/20
PERFORMING OPERATIONS; TRANSPORTING
International classification
B60R16/033
PERFORMING OPERATIONS; TRANSPORTING
Abstract
A roll stabilization system (1) for a motor vehicle which has a DC voltage converter (6) associated with an electric roll stabilizer (2). By way of the DC voltage converter, a feed voltage can be transformed into a supply voltage for the roll stabilizer (2). To produce as compact a structure as possible, the DC voltage converter (6) is integrated in the electric roll stabilizer (2).
Claims
1-9. (canceled)
10. A roll stabilization system (1) for a motor vehicle, the roll stabilization system comprising: an electric roll stabilizer (2); a DC voltage converter (6) being associated with the electric roll stabilizer (2) such that by the DC voltage converter (6) a feed voltage can be transformed into a supply voltage for the roll stabilizer (2); and the DC voltage converter (6) being integrated in the electric roll stabilizer (2).
11. The roll stabilization system (1) according to claim 10, wherein the DC voltage converter (6) is integrated in a control device (8) of the electric roll stabilizer (2).
12. The roil stabilization system (1) according to claim 11, wherein the control device (8) is integrated in a swivel motor (3) of the electric roll stabilizer (2).
13. The roll stabilization system (1) according to claim 11, wherein cables (10) leading from the control device (8) to a swivel motor (3) run through a conduit whose outer layer is provided with metal spirals.
14. The roll stabilization system (1) according to claim 10, wherein the DC voltage converter (6) comprises a control unit (9) by which the feed voltage can be determined and which only initiates a transformation of the feed voltage if the feed voltage differs from the supply voltage.
15. The roll stabilization system (1) according to claim 10, wherein the DC voltage converter (6) is designed as either a transforming converter or as a converter with a storage throttle.
16. The roll stabilization system (1) according to claim 10, wherein the supply voltage is between 40 to 48 volts.
17. A control device (8) in combination with a motor vehicle roll stabilization system (1) comprising, an electric roll stabilizer (2) with which is associated a DC voltage converter (6), such that by means of the DC voltage converter (6) a feed voltage can be transformed into a supply voltage for the roll stabilizer (2), the DC voltage converter (6) is integrated in the control device (8) which is integrated in the electric roll stabilizer (2), the feed voltage on an input side of the DC voltage converter (6) is transformed by the DC voltage converter into the supply voltage on the output side.
18. The control device in combination with the motor vehicle roll stabilization system (1) according to claim 17, wherein the control device is provided with a code.
19. A roll stabilization system for a motor vehicle, the roll stabilization system comprising: an electric roll stabilizer being connected, via a lead, to a vehicle electrical system; a swivel motor being integrated in the roll stabilizer and comprising electronic components and a control device, the swivel motor being powered by a supply voltage and the control device regulating the supply voltage transmitted to the swivel motor; a DC voltage converter having a control unit integrated in the roll stabilizer, the DC voltage converter being connected to the lead and for receiving a feed voltage, via the lead, from the vehicle electrical system, and the control unit of the DC voltage converter determining a value of the feed voltage and initiating transformation of the feed voltage by DC voltage converter into the supply voltage only if the value of the feed voltage is different from a value of the supply voltage; and the DC voltage converter being connected, via cables, to the electronic components of the swivel motor to transmit the supply voltage from the DC voltage converter to the electronic components for powering the swivel motor which produces a restoring torque in the roll stabilization system.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0020] The sole FIGURE shows a schematic representation of part of a motor vehicle comprising a roll stabilization system designed in accordance with a preferred embodiment of the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0021] This roll stabilization system 1 comprises an electric roll stabilizer 2 which, in a manner whose principle is familiar to those with knowledge of the subjectand is therefore not explained in detail hereconsists of stabilizer parts and an intermediate electromechanical swivel motor 3 between them.
[0022] The swivel motor 3 is supplied with electric current from inside the vehicle, by way of a vehicle electrical system 4 and a generator provided in itnot shown furtherthe vehicle electrical system 4 preferably being a 12-volt electrical system. However, since control tasks of the swivel motor 3 in the course of active roll stabilization have to be carried out in exceptionally short times and consequently the swivel motor 3 has to deliver high power outputs in order to produce the requisite restoring torques, with the feed voltage of 12 volts very large electric currents would have to be supplied to the swivel motor 3 to enable it to deliver such powers. For that reason a DC voltage converter 6 is connected upstream from electronic components 5 of the swivel motor 3, by means of which the feed voltage of 12 volts is transformed into a supply voltage, for example of 48 volts. The DC voltage converter 6 is connected to the vehicle electrical system 4 by a lead 7, and on its output side is connected to the components 5 of the swivel motor 3.
[0023] A special feature here is that the DC voltage converter 6 is integrated into a control device 8 of the roll stabilizer 2, which in turn is accommodated in the swivel motor 3. In addition, the DC voltage converter 6 is equipped with a control unit 9 which determines the feed voltage in the lead 7 and initiates a transformation only if the feed voltage differs from the desired supply voltage. In the present case, therefore, the voltage is transformed from 12 volts to 48 volts. However, if in the vehicle electrical system 4 a higher voltage is already present, in the best case even already 48 volts, then if necessary a transformation is completely dispensed with. In the present case the DC voltage converter 6 is also designed as a converter with a storage throttle.
[0024] Starting from the DC voltage converter 6, a current supply to the swivel motor 3 is then regulated with the help of the control device 8 so that the cables 10 leading to the components 5 can be made with a smaller diameter since the current is smaller. Moreover, for protection the cables 10 are run through a conduitnot shown herewhose outer layer is provided with metal spirals.
[0025] By virtue of the design of a roll stabilization system according to the invention, an electric roll stabilizer with a compact structure can be produced.
INDEXES
[0026] 1 Roll stabilization system [0027] 2 Electric roll stabilizer [0028] 3 Swivel motor [0029] 4 Vehicle electrical system [0030] 5 Components [0031] 6 DC voltage converter [0032] 7 Lead [0033] 8 Control device [0034] 9 Control unit [0035] 10 Cables