DE1477952B1 - Machine for cylindrical grinding of eyeglass lens frames - Google Patents

Description

The invention relates to a machine for cylindrical grinding Spectacle lens edges on a peripheral grinding wheel, over the surface of which the held between clamping bells of a support that can be tilted about a horizontal axis Spectacle lens by means of a drive during the grinding a reciprocating Moves around a vertical axis.

There are known spectacle lens grinding machines in which the Spectacle lens located on the plane of the grinding wheel in the course of rotation about its axis of rotation a movement from one grinding wheel edge to the opposite grinding wheel edge executes. This movement of the spectacle lens is intended to ensure even wear the grinding wheel can be achieved over its entire width, so that for this purpose when rotating the lens through 360 'z. B. an adjustment of the lens from one grinding wheel edge to the other is sufficient.

In the case of spectacle lens grinding machines for grinding double-conical or. Like. Facets on spectacle lens edges, it is known for the cut not more circular or irregular glass shapes use a cup grindstone against its flat one The front edge of the lens edge rests and the angle between to generate the facet Lens axis and the grinding surface is changed. Because to create a facet is, is the transition from an extreme grinding position to grinding one Facet in the other extreme position for grinding the other facet not continuously, rather, the spectacle lens is transferred from the one inclined position to the other when the first facet is created.

A vibrating linear movement in all directions of a workpiece is known to increase grinding performance in metalworking.

It is also known the front and back of eyeglass lenses to smooth and polish by vibratory grinding.

The invention aims to increase the grinding performance of the known Machines of the type mentioned at the beginning with simple means. The improvement should also be able to be provided on machines that are already in operation, there is no need to change an existing machine part. The improvement on the basis of the invention or the parts required for the improvement should easy to use and cheap to manufacture and attach to the spectacle lens grinding machine be.

To achieve the object, the invention provides a machine for round grinding of spectacle lens edges of the type mentioned before that for the purpose a rapid vibration movement around the approximately in the center plane of the grinding wheel lying vertical axis on the support an unbalance motor is provided. The amplitude the movement is limited on the one hand by the width of the grinding wheel, on the other hand an amplitude of at least approximately 1 mm will be chosen. To this minimum however, one is not restricted. In special cases and in adaptation to the type of The grinding wheel can also have amplitudes of a fraction of a millimeter. The frequency of the oscillating movement depends largely on the speed of rotation the grinding wheel, the rotational speed of the lens, the type of grinding wheel and the amplitude of the movement: the oscillating movement of the support with the help of the unbalance motor The edge of the lens can be varied in rapid succession around a vertical axis Find the support bracket with the circumference of the grinding wheel. The unbalance motor is thus a. more transverse to the rotating grinding action of the disc A grinding effect is created with a rapidly changing grinding angle. At acquaintances Machines with to and fro movement of the glass on the grinding wheel circumference is the angular position of the carrion changed only slowly. When the subject of the invention is the angle between the tangential plane on the grinding wheel and the lens plane at the point of contact of the spectacle lens with the grinding wheel circumference a fast subject to constant change. The grinding of the lens is done by constant Sanding of edge sections on the perimeter and not by sanding the width of the lens edge. In connection with the constant quick change of the grinding angle it is also possible to change the grinding wheel grains that are used more quickly hand in hand.

The unbalance motor is preferably arranged laterally next to the plane in which the swing axis of the support is located.

In a further embodiment of the invention, the plane of rotation of the unbalanced part is located of the lunatic motor roughly parallel to this plane.

In the drawing is an embodiment of the invention Machine shown, namely shows F i g. 1 is a plan view of the machine; F i g. 2 examples for the two possible extreme positions and the central position of one Spectacle lenses on the grinding wheel in plan view, FIG. 3 and 4 the geometric Relationships of the positions of the spectacle lens with respect to the grinding wheel.

Above the machine frame 1, the support 3 can be pivoted about a vertical axis 2 in the direction of the double arrow K and can be tilted about the horizontal axis F. The support has two half-shafts 4, 5, between the two clamping bells 4a, 5a of which the spectacle lens Bi can be clamped. Here, one of the two half-waves is adjustable in the direction of arrow D, and vice versa, and is acted upon by a spring.

Below the two half waves 4, 5 and in FIG. 1 covered by this is mounted a shaft that carries the grinding wheel Sch and rotates.

An unbalance motor 6, the unbalance part 7 of which can move in the direction of the double arrow P, is arranged on the support 3 laterally next to the plane E in which the axis 2, the spectacle lens Bi and the grinding wheel Sch are located. The oscillating pivoting movement of the unbalanced part 7 takes place approximately parallel to the plane E in which the grinding wheel Sch and the pivot axis 2 for the support -3 lie. The movement of the unbalanced part 7 causes a rapid oscillating movement of the support 3 about the axis 2, so that the spectacle lens also executes an oscillating movement in the direction of the arrow Z (FIG. 1).

From Fig. 2 the two possible extreme positions of the spectacle lens Bi in relation to the grinding wheel Sch can be seen schematically. Due to the oscillating movement of the support 3 according to angle Z, the lens moves alternately from the central position B to both sides into the positions B ' and B ", with a constant change of the contact angle between the lens circumference and the grinding wheel at the respective common point of contact.

As shown in FIG. 3, the point of contact between the spectacle lens Bi and the grinding wheel Sch moves in the direction of the arrow U on the grinding wheel circumference. In the middle position B of the spectacle lens on the grinding wheel, these two parts touch each other at point V, while in the two possible extreme positions B 'and B "of the spectacle lens the two contact points W are at the same level, but lower than the middle position V. The glass thus moves slightly up and down, similar to an inclined surface, while maintaining its vertical plane; this leads to an uninterrupted change of the bevel angle at the glass edge between a slightly conical shape of the edge in the two outer positions and a cylindrical shape of the edge in the In FIG. 4, this angle fluctuates between the variables -β on the one hand and -I- a on the other hand in the two extreme positions B 'and B "of the spectacle lens. From Fig. 4 it can be seen that as the lens moves over from position B ' to position B " and vice versa, the grinding angle on the lens circumference changes rapidly at the respective contact point the rotation of the grinding wheel, but also caused by the quick lateral adjustment.

Claims (3)

Claims: 1. Machine for cylindrical grinding of spectacle lens edges on a peripheral grinding wheel, over the surface of which between the clamping bells a support that can be tilted about a horizontal axis and is held by means of a spectacle lens of a drive a reciprocating movement about a vertical one during grinding Axis executes, characterized in that for the purpose of a rapid vibratory movement around the vertical axis (2) lying approximately in the center plane (E) of the grinding wheel an unbalance motor (6, 7) is provided on the support (3). 2. Machine according to claim 1, characterized in that the unbalance motor (6, 7) laterally next to the plane (E) is arranged. 3. Machine according to claim 2, characterized in that the Rotation plane of the unbalance part (7) of the unbalance motor (6) approximately parallel to the plane (E) lies.