DE1284792B - Cam gear - Google Patents

Description

The invention relates to a cam gear for converting a reciprocating motion into a rotary motion in which the torque comes from a Wedge effect. and a centrifugal mass is required for comparison purposes, the reciprocating movement via a curved piece that participates in this movement is transmitted to a rotating body.

According to a known proposal, which is a transmission with the opposite mode of operation concerns is made of a shaft displaceable in the direction of its longitudinal axis, one exzehtrisüh to this arranged part Hillse with parallel sloping surfaceseii bildäildüiä Sleeve ends and two interconnected, appropriately bevelled side pieces a wedge drive is formed, in which the overmolding of the side pieces in the back and moving the middle piece formed by the sleeve and thus the Wave is implemented.

Another known proposal is the rotating movement a cam engaging in a recess of a double-acting piston implemented in the reciprocating piston movement, with the recess against has bulges directed towards the outer edge of the disc.

Finally, on an internal combustion engine with two oppositely cherish ligand cylinders to refer Direction proposal has become known, after which the piston motion transmitted through a spring biased against a provided on the rotary shaft elliptical cams applied pressure roller on the shaft and the power for successive between two piston strokes off - The winding working cycle of the piston, connected with the production of the full spring tension state, is covered by the living force of a flywheel, so that when the cam is horizontal and the pressure roller is applied to the top of the cam, the direction of thrust coincides with the direction of the straight line passing through the roller and rotary shaft axis and the The pressure roller advances on this straight line to the rotary shaft axis and erects the wedge cam in the vertical position, whereupon the flywheel continues the cam rotation on a work path for a further 90 ' .

On this basis, it is an object of the invention to provide a cam mechanism for converting a reciprocating motion into a Drehbewegüng to j establish, is shortened in the obtained from the wedge action torque even lower torque ratios and at the same time for the flywheel working paths arise.

To solve the problem, it is proposed according to the j invention that the curve piece is designed as a curve with two opposing tread wedges projecting towards the axis of a multi-ring rotating body, in the simplest case as a figure-of-eight curve enclosing a three-armed rotating body.

Run the arms of the curve in the shape of a standing one Eight enclosed rotating body over the two opposite, of the constrictions of the curve bounded tread wedges one after the other, if the curved piece is pushed back and forth between its two end positions, so means the fact that when the running surface wedge is advanced against the rotating body, the point of application the Sühubkraft shifted transversely to their direction and one at the facilities after The known proposals do not arise, but grow with the increasing shift path Torque component is added.

In the drawing, an embodiment of a cam mechanism according to the invention is shown in 3 figures. It shows F i g. 1 a milling device for developing the running surface curve, FIG . 2 and 3 in a schematic representation of the movement conditions in an engine.

With a milling machine, curve 1, F i g. 1., developed in the shape of an eight. When the crank 2 is rotated, the movement of an eccentric 3 is initiated and converted into the back and forth displacement of a slide 4, which carries gear wheels 5, 6 selected at a gear ratio of 1: 3 at both ends. The sliding movement of the slide is transmitted to the swivel arm 7 , which is also subject to the influence of the rotation of the gearwheels and which carries an end mill 8. The same is driven via the rotary shaft 9 . The milling cutter cuts out the section 10 delimited by the curve to be obtained from a workpiece with a flat plate. - The obtained curve 1, F ig # 1, the running surface of the rotary body g D, F i. 2, 3 enclosing curve piece 11 is based. The curved piece 11 , designed as a curve in the shape of a standing figure eight, is displaceable in the diameter direction relative to the rotating body axis 12 between two end positions. In the same direction the Kolbeiistange 13 drops of the piston cylinder unit 14, 15. The piston rod 13 is fixedly connected to the cam piece. 11 Its bearings are labeled 16 and 17. The constrictions of the figure eight curve stand out as the tread wedges 18 and 19 lying opposite one another. The dimension of Schlittenverschiebestreckp- is taken over on the curve piece. A triangular rotating body is selected according to the transmission ratio 1 # 3. The rollers forming the corners have a diameter that is equal to the effective cutter diameter. The rollers on the rotating body arms roll on the running surface when the cam piece 11 is moved back and forth.

During the working stroke of the piston 15, F i g. 2, the roller 22 is started by the wedge disk 23. The roller rolls on the inclined surface and initially into position 22 ', FIG. 3, further. The point of contact of the roller on the running surface of the cam piece moves downwards from the direction of the thrust force passing through the axis of the rotating body D. The result is an increasingly larger torque component. The same effect occurs when the roller on the rotating body arm 24, F i g. 3, the tread wedge 19, F i g. 2, rolled over.

When the piston 15 moves back and forth, the rotation of the rotating body D is 60 '.

Claims (2)

Claims: 1. Cam gear for converting a reciprocating movement into a rotary movement, in which the torque is obtained from a wedge effect and a flywheel is required for equalization, the reciprocating movement acting on a rotary body via a cam piece that participates in this movement is transmitted, characterized in that the curve piece (11) is designed as a curve with two opposing running surface wedges (18, 19) projecting towards the axis (12) of a multi-armed rotating body (D) . 2. Cam gear according to claim 1, characterized in that the cam piece (11) is designed as a figure-eight curve enclosing a three-armed rotating body.