SU430995A1 - DEVICE FOR GRINDING HOLES - Google Patents

Description

The invention relates to grinding articles, in particular holes in parts.

Devices for grinding holes with a circle of small diameter are known, in which the coordinates of the centers of the holes are maintained with the reference tables, and the size of the holes is obtained by changing the radius of the spindle's planetary motion.

A disadvantage of the known devices is the presence of collector devices necessary for supplying energy for rotation of the spindle.

The purpose of the invention is to simplify the design of the device by eliminating collector devices.

For this purpose, the mechanism for communicating the planet with the first movement is made in the form of a crank mechanism, the connecting rod of which with the spindle fixed on it is installed in the slider guides that move perpendicular to the axis of the connecting rod so that the axis of the connecting rod constantly remains parallel to itself.

To change the eccentricity of the spindle movement over a wide range, the mechanism for changing the eccentricity is made in the form of two mutually perpendicular rails connected through a gear wheel.

2

FIG. 1 shows the proposed device; in fig. 2 is a diagram of the mechanism for transmitting planetary spindle movement; in fig. 3 is a diagram of the mechanism for changing the magnitude of the eccentricity of the planetary motion AND and and Ndel.

The transmission mechanism of planetary motion consists of sliders / and 2, each of which can only move along its own axis. The guide slider 1 is made in slide 2.

The slider, on which the first rotational spindle 3 is fixed, is connected to the finger 4, rigidly mounted on the carriage 5, moving along the groove of the cpc disk 6 of the sleeve 6, mounted on the support 7 in the housing 7. And the sleeve 6 has a wheel-bushing 8 drive drive 1, disc envelope sleeve (drive mechapism is not shown in the drawing).

The mechanism for changing the eccentricity consists of a rail I fixed on the carriage 5, which is engaged with the rail 10 by means of a wheel //.

The rail 10 can rotate around the small pox 12, passing in the hole of the lead screw 13, kept from turning by key M. With the screw 13 by a threaded hub, the wheel 15 is engaged, which engages with the wheel 16 fixed on the shaft 17.

On the splines of the shaft 17, there is a worm gear 18, which engages with a screw 19, on the shaft of which a handwheel with a scale 20 is fixed. One-sided selection of gaps in the mechanism is produced by a spring 21.

The mechanism of the planetary movement of the spindle works as follows.

When finger 4 moves along a circular path, the slider / moves along its axis along the guides in the slider 2, and together with the slider 2 along the axis of the latter. Since the slider / with the high-speed clamp 3 fixed on it changes its position in space relative to the finger 4, the bearing 3 copies the movement of the finger 4 in size and direction.

When the handwheel 20 rotates, the worm towards 19 rotates the worm gear 18 and the gear wheel 16 associated with them by shaft 17, which rotates the gear wheel 15 with a helical hub. The gear wheel 15 moves along the axis a screw 13 kept from turning by a key 14. The screw 13 moves the rail 10 rotating around the axis 12. The rail 10 rotates the gear 11, which sits freely on the axis, and the carriage 5 moves with the rail 9 with

finger 4 along the groove of the crank diskgilse 6, creating the necessary magnitude of the eccentricity e.

Subject invention

Claims (2)

1. A device for grinding holes, comprising a spindle with a small diameter wheel, a mechanism for communicating the planetary movement and changing the eccentricity of the spindle, characterized in that, in order to simplify the design by eliminating collector devices, the mechanism for communicating the planetary movement is made in the form of a crank rod. the mechanism, the rod of which with the spindle fixed on it, is installed in the guides of the slide, moving perpendicular to the axis of the connecting rod so that when the crank is rotated, the axis always remains parallel to itself. 2. A device for grinding the holes according to claim 1, characterized in that, with a change in the eccentricity of the spindle movement in over a wide range, the eccentricity change mechanism is designed in the form of two mutually perpendicular rails connected through a gear wheel. 21 15 0 Fig 3