Mechanism for gradually and smoothly varying rotational speed be

Details Mechanism for gradually and smoothly varying rotational speed be Mechanism for gradually and smoothly varying rotational speed be

1994-08-24

1996-06-11

Herrmann, Allan D.

Friction gear transmission systems or components

Stepless ratio change

Intermediate idler between driving and driven gears

F16H 1520

Patent

active

055251196

DESCRIPTION:

BRIEF SUMMARY
BACKGROUND OF THE INVENTION

1. Field of the Invention
The present invention relates to a mechanism for gradually and smoothly varying the rotational speed between a driving member and a driven member.
2. Description of the Related Art
It is sometimes necessary not to interconnect the driving shaft directly to the movement transmission members. This is all the more true when there is an internal combustion engine which cannot be started when engaged since it provides an appreciable torque only from a certain rotational speed.
The maximum driving torque available from a given engine is approximately constant, while the resistance to be overcome to ensure movement can vary continuously. In a motor-car, the propelling power must be equal to the repelling power so that it can move at a determined speed. The repelling torque varying continuously with the profile of the road, it would be desirable that the drive ratio between the rotational speeds of the engine and of the propeller shaft be responsive to the profile fluctuations, which amounts to having continuous gear shifting.
To vary the drive ratio, the following are generally used : gear boxes having various compound trains which can be activated at will, gearboxes having epicycloidal trains, torque converters as well as driving belt propeller means.
The use of these systems requires one to frequently modify the drive ratio according to the changes of the repelling power, which causes the engine speed to be varied and entails a specific consumption more significant than with a constant speed.
The mechanism according to the invention allows to overcome such drawbacks by enabling the speed changes in a continuous and progressive way, while enabling the engine to run at a constant speed.


BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 represents the mechanism according to a preferred embodiment the present invention.
FIG. 2 shows the speed-varying mechanism according to a preferred embodiment of the present invention.


DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The mechanism represented in FIG. 1 comprises a truncated cone (3) attached to a shaft (2) rotationally driven by a driving member (1), and a truncated cone (5) mounted on a shaft (6) attached to the movement transmission members. The truncated cones (3, 5), the generatrices of which form concave conic frustums, are mounted in an opposite configuration so that the narrow end of one can correspond to the wide end of the other one. The transmission of the rotational movement from the truncated cone (3) to the truncated cone (5) is effected by a roller (4). Roller (4) is composed of two inverted truncated cones sharing the same axle (a), the generatrices of which form convex conic frustums.
Adhesion of roller (4) on truncated cones (3, 5) is ensured by the force transmitted by a pressure member (7). Roller (4) can move laterally by means of a varying system (8) enabling it to slide the length of truncated cones (3, 5).
At the beginning of the start-up phase, roller (4) has one of its frustums in contact with the smallest diameter of the driving truncated cone (3) while the other one is in contact with the largest diameter of the driven truncated cone (5); such a configuration corresponds with the lowest ratio. Pressure member (7) must provide a pressure force sufficient to obtain an adhesion between roller (4) and truncated cones (3, 5) that is at least equal to the driving torque.
The adhesion is enhanced by use of materials having a high friction coefficient on the surface of truncated cones (3, 5) and roller (4).
The use of truncated cones requires converging vertices for each position of roller (4). This is achieved by giving the frustums of each truncated cones (3, 5) and roller (4) a particular radius of curvature.
The use of concave or convex shapes enables the vertex of truncated cones (3, 5) to be moved along their respective axles while achieving a perfect convergence of the vertices for each position occupied by roller (4).
When it is desired to increase the rotational speed of the driven s

REFERENCES:
patent: 776455 (1904-11-01), Christie
patent: 1844239 (1932-02-01), Boehme et al.
patent: 3158041 (1964-11-01), Rae
patent: 3286537 (1966-11-01), Riley
patent: 4183253 (1980-01-01), Borello

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