Motor vehicles – Power – Electric
Reexamination Certificate
2002-03-14
2004-06-22
Fischmann, Bryan (Department: 3618)
Motor vehicles
Power
Electric
C475S149000, C074S390000
Reexamination Certificate
active
06752227
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a final drive of a vehicle wheel.
BACKGROUND OF THE INVENTION
Final drives for driving a vehicle wheel are mainly used in low-platform buses where each driven wheel of the vehicle has its own drive motor. To obtain a sufficient rear width it is needed to keep as low as possible the axial expansion of the final drive.
DE 197 09 579 A1 has disclosed an electric single final drive having several motors in which the several motors are not disposed coaxially to the wheel axle. Via a first reduction gear drive and a second reduction gear, the output of the motors acts upon the drive wheel. A wheel bearing is situated between the first reduction step and the second reduction step, the same as a brake disk which is additionally located within the extension of the wheel rim of a twin-tire drive wheel. With the wheel bearing being disposed between and separating both reduction gears there occurs, due to the displacement action of the reduction gear chiefly in helical-cut toothed wheels, a shift of the oil level. This disadvantageously affects the lubrication of a reduction step. In order to more compactly design the final drive in its axial extension and make it possible to deliver the required torque, several electrical drive motors have to be used.
The problem on which this invention is based is to provide a final drive for driving a vehicle wheel. The final drive is compactly designed along the axis of the final drive and the brake is situated in a wheel rim, only one drive motor is used for each final drive, the reduction gear is sufficiently lubricated and that stands out by a good degree of efficiency.
SUMMARY OF THE INVENTION
According to the invention the final drive can be decelerated via a brake located within the axial extension of a wheel rim. It is possible that the wheel rim accommodates a single tire and the brake is placed between the drive motor and the reduction steps. With the reduction steps being disposed directly adjacent, all the moving parts of the toothing can be lubricated by lubricant which is located within a space common with the reduction steps. By virtue of the arrangement of the reduction gear upon the outer side of the wheel, heat can satisfactorily radiate to the environment, resulting in a uniform temperature level. Since the drive motor is not situated coaxially with the rotational axis of the wheel, an installation space between the wheel rim and drive motor results and the brake and the actuation mechanism can be placed therein. The wheel bearing is preferably disposed for absorbing the wheel forces radially above the first reduction gear so that the axial installation space needed by the wheel bearing is available for the drive motor. Thereby the drive motor can be designed with a maximum active length preferably similar or equal to the diameter of the air gap without the total length of the final drive being enlarged thus increasing the degree of efficiency of the drive motor. By the wheel bearing being situated in a radial direction outside the first reduction step but being located in the radial extension area of the first reduction step, it is possible to connect the wheel hub, one part of the second reduction step and the bearing flange with the wheel bearing to form a compact unit. This compact unit does not need to be separated even when disassembling the wheel drive such that during assembly after servicing, the wheel bearing does not need to be readjusted. The second reduction step is preferably designed as a planetary gear wherein the planet carrier of the planetary gear forms the output, the ring gear is connected with the hub carrier which carries the wheel bearing and the inner central wheel forms the input. It is also possible to design the ring gear as an output. In this case the inner central wheel is driven by the first reduction step which is preferably designed so that the ring gear forms the output and an input pinion forms the input, which is in intermeshing connection with the ring gear and at least two intermediate wheels, and the carrier which holds the intermediate wheel is non-rotatably retained. By the input pinion being in intermeshing connection directly with the ring gear, the drive motor which drives the input pinion can be situated at a maximum distance from the wheel axle with the result of a sufficient installation space for the brake and the actuation mechanism of the brake. With the input pinion having an intermeshing connection with the ring gear and with at least two intermediate wheels, torque is distributed from the input pinion at multiple locations with the consequence of an increase in the service life of the input pinion and the first reduction step can be more compactly designed by reducing the diameter of the wheel bearing. With the housing of the drive motor transmitting the wheel forces and the mounting pad of the drive motor being located in the area of the load active line on a hub carrier, the hub carrier carries the wheel bearing where the wheel forces are introduced. The connecting elements of the supporting parts which absorb the wheel forces can be designed more compactly , since no additional torque load from a distance to the load active line acts upon the mounting pad and the connecting elements thereof. Hereby the radial extension of the mounting pad of the drive motor housing can be compactly designed on the bearing flange such that a sealing element can be placed between the bearing flange, situated to be non-rotatable and a wheel hub rotating at wheel rotational speed which has less peripheral velocities to overcome due to the small radial extension. The housing of the drive motor can either be fixed to an axle bridge or have supporting places on which fastening elements can be situated for fastening the final drive to the vehicle body. Since the drive motor is located on the inner side of the wheel, the energy can be favorably supplied. Fins are preferably situated upon the wheel hub such that upon rotation of the wheel hub the medium surrounding the wheel hub is circulated so that the brake and the final drive are cooled. A coolant preferably flows through the housing of the drive motor thus cooling the drive motor and the remaining final drive is also cooled via the mounting pad of the drive motor.
A directly adjacent arrangement of the reduction steps and a brake situated between the reduction steps and the drive motor but within the axial and radial extension of a wheel rim create a final drive for driving a vehicle wheel which stands out by a compact construction, where a drive motor with an optimum degree of efficiency can be used and the reduction steps are sufficiently lubricated.
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U.S. patent Office Publication 2002/0023791—dated Feb. 2002.
Davis & Bujold PLLC
Fischmann Bryan
ZF Friedrichshafen AG
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