The invention relates to a continuously variable transmission (10). The continuously variable transmission (10) comprises an outer rotary part (14), an inner rotary part (13) which is arranged in the outer rotary part (14) such that the inner and/or the outer rotary part (13, 14) are rotatable relative to one another, several coupling mechanisms (18) for coupling the inner and outer rotary part (13, 14) with one another, an adjustment device for eccentric adjustment of the inner and outer rotary part (13, 14) relative to one another and at least one first lubricant guiding device (220) for guiding at least some of a lubricant from the shell surface of the inner rotary part (13) to a region of a coupling mechanism (18) lying radially further outwards with respect to the rotational axis of the inner rotary part (13)

The invention relates to a continuously variable transmission (10). The continuously variable transmission (10) comprises an outer rotary part (14), an inner rotary part (13) which is arranged in the outer rotary part (14) such that the inner and/or the outer rotary part (13, 14) are rotatable relative to one another, several coupling mechanisms (18) for coupling the inner and outer rotary part (13, 14) with one another, an adjustment device for eccentric adjustment of the inner and outer rotary part (13, 14) relative to one another and at least one first lubricant guiding device (220) for guiding at least some of a lubricant from the shell surface of the inner rotary part (13) to a region of a coupling mechanism (18) lying radially further outwards with respect to the rotational axis of the inner rotary part (13)

The present disclosure is an all gear infinitely variable transmission that is non-dependent on friction. It can be used in high torque applications, offering a steady and uniform output for a steady and uniform input. Since it allows a co-axial input and output, by using a planetary gear system the output can be made continuous from forward to reverse. It uses a “scotch-yoke” mechanism to convert rotational motion to a linear reciprocating motion. The linear distance of this reciprocating motion—“stroke” is changed by altering the crankpin location of the scotch-yoke mechanism. This reciprocating motion is converted to a rocking motion by using a “rack and pinion” and later converted to a unidirectional motion via a One-Way-Bearing. A set of non-circular gears are used to achieve a steady and uniform output. It employs a very simple mechanism to change the ratio between the input and output of the transmission.

This invention is an all gear continuously variable transmission that is non-dependent on friction. It can me be used in high torque applications. It offers a steady and uniform output for a steady and uniform input. It allows a co-axial input and output thereby by using a planetary gear system the output can be made continuous from forward to reverse. This uses a “scotch-yoke” mechanism to convert rotational motion to a linear reciprocating motion. The linear distance of this reciprocating motion-“stroke” is changed by altering the crankpin location of the scotch-yoke mechanism. This reciprocating motion is converted to a rocking motion by using a “rack and pinion” and later converted to a unidirectional motion via a One-Way-Bearing. A set of non-circular gears are used to achieve a steady and uniform output. It employs a very simple mechanism to change the ratio between the input and output of the transmission.

A variable speed ratio transmission comprises a support structure, an input member, an output member and a plurality of planet wheels which are supported rotatably on the support structure and which receive the movement from the input member. Each of the planet wheels comprises a connecting rod which is rotatably connected thereto in the region of a first end thereof and which supports at an opposite end thereof a unidirectional connection wheel which entrains in rotation the output member. The transmission further comprises a variation device for the spacing between the pivot axis of the connecting rods and a respective rotation axis of the planet wheels.

A variable speed ratio transmission comprises a support structure, an input member, an output member and a plurality of planet wheels which are supported rotatably on the support structure and which receive the movement from the input member. Each of the planet wheels comprises a connecting rod which is rotatably connected thereto in the region of a first end thereof and which supports at an opposite end thereof a unidirectional connection wheel which entrains in rotation the output member. The transmission further comprises a variation device for the spacing between the pivot axis of the connecting rods and a respective rotation axis of the planet wheels.

This invention is an all gear infinitely variable transmission that is non-dependent on friction. It can me be used in high torque applications. It offers a steady and uniform output for a steady and uniform input. It allows a co-axial input and output thereby by using a planetary gear system the output can be made continuous from for to reverse. This uses a scotch-yoke mechanism to convert rotational motion to a linear reciprocating motion. The linear distance of this reciprocating motionstroke is changed by altering the crankpin location of the scotch-yoke mechanism. This reciprocating motion is converted to a rocking motion by using a rack and pinion and later converted to a unidirectional motion via a One-Way-Bearing. A set of non-circular gears are used to achieve a steady and uniform output. It employs a very simple mechanism to change the ratio between the input and output of the transmission.

The invention relates to a continuously variable transmission (10). The continuously variable transmission (10) comprises an outer rotary part (14), an inner rotary part (13) which is arranged in the outer rotary part (14) such that the inner and/or the outer rotary part (13, 14) are rotatable relative to one another, several coupling mechanisms (18) for coupling the inner and outer rotary part (13, 14) with one another, an adjustment device for eccentric adjustment of the inner and outer rotary part (13, 14) relative to one another and at least one first lubricant guiding device (220) for guiding at least some of a lubricant from the shell surface of the inner rotary part (13) to a region of a coupling mechanism (18) lying radially further outwards with respect to the rotational axis of the inner rotary part (13).

The invention relates to a continuously variable transmission (10). The continuously variable transmission (10) comprises an outer rotary part (14), an inner rotary part (13) which is arranged in the outer rotary part (14) such that the inner and/or the outer rotary part (13, 14) are rotatable relative to one another, several coupling mechanisms (18) for coupling the inner and outer rotary part (13, 14) with one another, an adjustment device for eccentric adjustment of the inner and outer rotary part (13, 14) relative to one another and at least one first lubricant guiding device (220) for guiding at least some of a lubricant from the shell surface of the inner rotary part (13) to a region of a coupling mechanism (18) lying radially further outwards with respect to the rotational axis of the inner rotary part (13).

This invention is an all gear infinitely variable transmission that is non-dependent on friction. It can me be used in high torque applications. It offers a steady and uniform output for a steady and uniform input. It allows a co-axial input and output thereby by using a planetary gear system the output can be made continuous from forward to reverse. This uses a scotch-yoke mechanism to convert rotational motion to a linear reciprocating motion. The linear distance of this reciprocating motion-stroke is changed by altering the crankpin location of the scotch-yoke mechanism. This reciprocating motion is converted to a rocking motion by using a rack and pinion and later converted to a unidirectional motion via a One-Way-Bearing. A set of non-circular gears are used to achieve a steady and uniform output. It employs a very simple mechanism to change the ratio between the input and output of the transmission.