SU472001A1 - The mechanism of radial feed circle grinding planetary machine - Google Patents

Description

one

There are known mechanisms for radial feed of an intra-grinding planetary machine, including an eccentric spindle sleeve, which is rotated from a handle with a graded lumbar through a worm gear, two pairs of gears with bevel gears, and gear cylindrical gears of external and internal gears.

However, in these mechanisms, when turning the knob with lnmba to the same angles, the feed will be uneven, since the value of the eccentricity varies unevenly and, therefore, it is not possible to set the divider division price.

The proposed mechanism differs from the known ones in that the rotational drive of the arrow is made in a vnde flat cam having a profile corresponding to a change in the sleeve eccentricity and rotating from the handle through gear wheels with such a gear ratio that the ratio of the kinematic chains from the spindle sleeve to the flat cam the arrows and from the spindle sleeve to the handle are 2: 1.

The drawing shows a diagram of the mechanism of the radial feed circle grinding machine.

Radial feed of grinding wheel 1 is carried out by changing eccentricity

due to the rotation of the liner 2 relative to the liner 3. A larger radial displacement of the grinding wheel will be achieved when the eccentricity changes from zero to maximum, i.e., at the rotation point of 180 2 (by zero-turn).

The rotation of the liner 2 relative to the liner 3 of the manual rotation of the flywheel 4 by the handle 5 n is transmitted through the screw pair 6, the bevel gear gears 7 and 8, the cylindrical gear gears 9 with external gearing and the cylindrical gear pair 10 with internal gear.

Simultaneously with the rotation of the piston 2 from the rotation of the flywheel 4, the flat cam 11 is rotated by the handle 5 through the kinematic chain of cylindrical 1x gears 12, 13 and 14.

The ratio of the transfer factors of the kinematic chains from gn 2 to flat cam 11 and from gn 2 to grip 5 is 2: 1, i.e. when turning the sleeve 2 half a turn, providing a change in eccentricity from zero to max, the cam 11 makes a full turn.

When the handwheel 4 is rotated by the handle 5, the nests 2 and the cam 11 are simultaneously rotated. The working surface of the cam 11 is in constant contact with the arrow 15 of the limb 16 planted on the shaft 17. The arrow is planted freely, the limb is rigid and has uniform divisions. The profile of the cam 11's working surface is built in accordance with the change in the eccentricity of the sleeve 2. Thus, when the cam 11 is rotated, the arrow 15 deviates from the fixed zero risks (from the position of the zero eccentricity) by an angle whose value is variable and always corresponds to a constant certain radial value. circle feeding 1. To feed a circle for this particular amount, it is necessary to turn the flywheel 4 at an angle such that the risk of limb 16, which at the moment coincides with the fixed zero risk, is consistent with rock 15.

This ensures a certain feed rate of the wheel 1 and reduces the auxiliary time.

four

Subject invention

The radial feed mechanism of an intra-grinding planetary machine, including an eccentric shpindle sleeve, which is rotated from the handle with a graduated limb and an arrow, for example, through a worm gear, two pairs of gears with bevel gears, and gear cylindrical gears of external and internal gearing, different that, in order to feed a circle by a certain amount, the rotational drive of the arrow is made in the form of a flat cam having

profile corresponding to the change in the eccentricity of the liner and rotating from the handle through a chain of gear wheels with such a gear ratio that the ratio of the gear ratios of the kinematic chains from the sleeve

The pin of the arrow to the flat cam and from the sleeve of the needle to the handle is 2: 1.

Eccentricity

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