DE2646128A1 - Drilling holes through glass spectacle lenses - using ball-head drill esp. of dental type and no lubricant to avoid chipping - Google Patents

Abstract

Holes are drilled through a glass spectacle lens esp. a lens made of silicate glass. The lens is drilled only from one side, using a known type of ball-head drill (pref. dental type) without splinters breaking away from the edge of the drilled hole, i.e. which would impair the lens. Drilling is pref. undertaken without using a coolant or lubricant. Used for the mfr. or spectacles which do not have a frame or rims rounds the lenses, where a nosepiece and possibly sidepieces are attached via the holes. The lens need not be drilled from both sides to avoid splintering.

Description

"Method for piercing a spectacle lens, in particular

of a silicate spectacle lens. The invention relates to a method for drilling through a spectacle lens, in particular a silicate spectacle lens.

In the case of frameless glasses and rimless glasses frames, if no other aids such as plastic threads inserted in the edge grooves of the spectacle lens Find application, the edge of the lens with two perpendicular to the lens plane provided bore through which parts of the frameless glasses on the one hand Nose clip, on the other hand parts of one of the two temples on the lens or at rimless spectacle frames connecting parts for connecting the spectacle lens with be held by the spectacle frame, which is open at the bottom.

The drilling of silicate glasses with the help of diamond or special steel drill bits is known, drilling with these triangular or octagonal drills two-sided, i.e. from the top and bottom of the one to be drilled Spectacle lenses are made in order to avoid the edge of the hole from blurring out. The drilling is used with the use of coolants and lubricants, e.g. drilling oil, turpentine or petroleum - especially turning the lens over for drilling from both sides, but also the respective supply of coolants and lubricants is cumbersome and time consuming. The supply of coolant and lubricant must by lifting the drill out of the borehole, i.e. drilling takes place intermittently. In addition, the drill must be largely precisely positioned on both sides of the glass Care must be taken, as well as avoiding edges of the drill bit while drilling is.

The invention is based on the object of a method for piercing to propose a spectacle lens in which the above disadvantages are avoided , i.e. safe drilling without flattening using simple means takes place in a labor and material-saving manner.

For this purpose, the invention provides a method in which the glass is drilled through on one side using a spherical head drill. The drilling takes place preferably cool and lubricant free.

Ball-head drills are known per se in dental practice. They essentially serve for back-milling or under-milling of tooth sections, thus the filling of the tooth in this experiences an anchoring. On the other hand, a differently designed drill is used to drill the tooth on or around the tooth. When using the ball head drill to drill through a cylindrical hole In a spectacle glass, on the other hand, there is no back milling of a kbsciulittes, rather a straight or, if desired, angled drilling of the material. In this respect, it was also because of the different areas of application of a ball-head drill its use for piercing a spectacle lens is not close. Problems like that There are no lenses made of brittle glass material in dental treatment.

But about a ball-head drill for drilling through a spectacle lens to be able to use must also be a complete departure from the previous drilling practice for eyeglass lenses, drilling with a ball-head drill without coolants or lubricants take place. It has been shown that when using a ball head drill and the Adding coolants and lubricants to either the drill does not perform to its full potential reached or the glass breaks. This unexpected effect is theoretical not perfectly explainable; it can only be surmised that in contrast on the effect of the coolant and lubricant in previously known drills when used a ball-head drill does not or only displaces the coolant and lubricant partially takes place and therefore either the ball head or the drill or that Glass can be destroyed.

The idea underlying the invention is based on the fact that the Filling out of the (lasmateriaLs at the edge of the hole depends, among other things, on the design of the drill where the flattening out is stronger, the smaller the angle (rake angle) the cutting edge is normal to the longitudinal axis of the drill, i.e. to the drilling plane. Such drills, however, have the advantage of achieving good drilling performance. Of the Kugelkofbohrer, as proposed by the invention, avoids flipping out insofar as than the one described with increasing exit of the Kugelkopfhohrers from the borehole Angle (rake angle) is getting bigger and bigger (it tends towards 900) and with it that Ratio of height to width of the respective ring-shaped and still to be drilled off more favorable in cross-section with approximately triangular residual section at the lower edge of the borehole in the sense of avoiding a flushing out, although at the beginning of the drilling process the advantages of a drill with a small rake angle are retained. It will therefore an embodiment as falling within the scope of the invention, in which the outer end of the drill has a ball-and-socket head to which a conical Drill section adjoins the flanks of which with the normal to the longitudinal axis of the drill, i.e. includes an angle between 700 and less than 90 ° with the drilling plane, although this embodiment does not include the advantages of a ball head drill. Above all, such a drill does not have the advantage of a ball-head drill, when using it, an edge or "out-of-the-way" Direction drilling " What is or is possible is irrelevant, as is the case with eyeglass lenses, some of which have a strong curvature their edge and deviations in the position of their top and bottom on the Ranl are significant is.

In the drawing is an embodiment of the used Ball head drill during a drilling process, namely Fig. 1 and 3 shows the Drilling a spectacle lens with the aid of the ball head, which is shown in FIG. 2 in a view from shown below.

The drill used in the method according to the invention has a ball head 1 with serpentine cutting ribs, which extends from the shaft 2 is worn.

Ball head and shaft are arranged coaxially to one another. - Of the Ball head 1 can in its apex area 3 facing away from shaft 2 with a Cutting rib part 4, which merges into the lateral cutting ribs 5. The further cutting ribs 6 end in front of the apex area 3 of the drill head.

As all Fig. 1 and 3 can be seen, this is done by drilling the Edge of the spectacle lens B from only one side off without a Filling out of the borehole on the underside U of the glass occurs approximately at 12. - The ball head 1 creates a cylindrical hole with the same drilling direction. However, if the drilling direction is changed, he can also make an angled hole, without the drill bit canting in the borehole.

In Fig. 1 and 3, the reference numerals 7 and 7 'is the tangent the ball head 1 as a perpendicular to the bisector 8.8 'between the ball head center plane 9 and the respective opening edge 10,10 'of the hole.

From the comparison of FIGS. 1 and 3, which recognize the drilling progress fit, it can be seen that when breaking through the apex area 3 through the Bottom U of the glass of the angle 0 <between the tangent 7 and the normal M ZUr drilling direction, i.e. approximately to the drilling plane, is i450. With increasing penetration of the ball head 1 through the underside U of the glass increases the angle O (C (see c in Fig. 3), with which the ratio of the width c to the height a of the still to be drilled, approximately triangular part 13 becomes smaller and smaller, i.e. the part 13 at the spherical head center plane 9 becomes increasingly acute-angled in cross-section. Since the width c is close to the final When the lower edge of the hole tends towards zero, the risk of flinting out is also always lower, although the entire lower spherical head half when the drilling process begins takes effect.

For the drilling process described, it is necessary to cool the drilling and to be carried out without lubricant.

The above shows that the drilling process described only in brittle glass material is significant because ductile or soft material causes a flint out does not occur and the size of the approximately triangular part 13 is of no importance is.

Claims (2)

P a t e n t a n s p r il c h e 1) Procedure for piercing a Spectacle lenses, in particular a silicate spectacle lens, thereby marked, that the glass on one side using a ball-head drill known per se is pierced without flipping out. 2) Method according to claim 1, characterized in that the drilling Cool and lubricant-free.