DE3801384A1 - Method for selecting pre-framed spectacle glasses of minimum central thickness, which have been finished on two sides - Google Patents

Abstract

A description is given of a method for selecting pre-framed spectacle glasses of minimum central thickness, which have been finished on two sides, which have a predetermined pane form. The method according to the invention is distinguished by the combination of the following features: - in a first step the horizontal line is determined which runs through the centre of a rectangle which surrounds the pane form and touches the pane form with each side at at least one point and whose sides are arranged horizontally and vertically, - in a second step the circle is determined which circumscribes the pane form and whose centre is on the horizontal line, - in a third step the centre thickness is selected in such a manner that it does not fall below the minimum edge thickness on the circle in the case of a predetermined position of the optical centring point.

Description

The invention relates to a selection method of pre-rimmed, double-sided lenses minimum center thickness for a given lens shape, at who have at least one main cut positive effect.

Such methods are from the patent literature in the various embodiments known: For this purpose for example on DE-OS 33 22 855, DE-OS 34 06 755, DE-OS 35 90 087, GB-PS 21 65 976 and the US PSen 45 24 419 and 45 73 121 referenced. Furthermore other methods are known from practice.

The known methods can be divided into two categories split:

In one category, with the help of more complicated Templates or other aids true that the required shape of the disc in relation to the Center point of the lens, i.e. the optical Mit point or the reference point for progressive lenses should characterize.

In the other category, the disc shape of the glasses Len version numerically recorded and with the help of an electro African data processing system the edge thickness for ver different center thicknesses are calculated and so iteratively the mini male center thickness determined.

Now, in practice, the situation is usually that an optician bought the glasses from a manufacturer ordered who does not deliver the version at the same time. There  the manufacturer of eyeglass lenses usually does not Information about the disc shape of all on the Has glasses on the market, the Au geneticists either do the manufacturing data for themselves Determine eyeglass lens with minimum center thickness or Socket or the shaped disc to the manufacturer of the glasses Send in glasses so that they are the cheapest Her setting data determined for the lens.

If the optician has to order the frame first, the second variant means a substantial extension the delivery time of the finished glasses; at the first Va riante, on the other hand, the optician needs the tools for the determination of the disc shape, such as a Graphics tablet, a video camera with electronic image evaluation or the like own or with the comparative complicated template sets of known thickness reduction can handle procedures.

The invention is therefore based on the object Procedure for the selection of pre-bordered, bilateral fer eyeglass lenses with a minimum center thickness at pre given disk shape to indicate the determination of Ordering data for glasses with a minimum center thickness made possible with the simplest of aids, but the same suitable for integration into an electronic order and manufacturing system is suitable.

An inventive solution to this problem is with their Developments characterized in the claims and is below using an exemplary embodiment With reference to the drawing described in more detail in the demonstrate:

Fig. 1 is a diagram for explaining the variables used in the inventive method,

Fig. 2 is a so-called. Auxiliary shaped disc, and

Fig. 3 explains the sizes used.

The method according to the invention is based on the basic idea ken to determine an "auxiliary data set", on the one hand describes the molding disc used with sufficient accuracy, without the exact shape of the glasses manufacturer glass must be known, and the other hand without compli graceful aids can be determined.

For this purpose, in a first step the lens shape or the shape lens F available at the optician is surrounded by a rectangle R , the sides of which are horizontal or vertical. Then the horizontal line with the rectangle is searched for, ie the line ML that goes through the center of the rectangle and has the same distance h / 2 from the horizontal sides.

The "circumscribing" rectangle R can be determined in a simple manner with a pencil and ruler on checkered paper or the like. Of course, a determination with corresponding electronic input means and a data processing system is also possible.

In the next step, the disk shape F circumscribing circle K is determined, whose center M 'lies on the horizontal line ML . This circle K can be easily found by the ophthalmic optician by trying out a circle, the center M 'of the circle generally not coinciding with the center M of the "circumscribing" rectangle R. Here too, determination using electronic means is equally possible.

In a third step, the center thickness of the pre-rimmed spectacle lens is determined with an electronic computer in such a way that the minimum edge thickness on the writing circle K at a given optical centering point Z is not undercut. Z is the point within the disc with which the main viewpoint approximately coincides or in which the prescribed dioptric effect is to be achieved.

Should only be the third step from the manufacturer of the glasses the optician has only a few to provide additional information:

In the case of a grinding job, the optician usually sends the spectacle frame or he has to provide the following information, the meaning of which is explained in FIG. 3:

Characteristics of the selected glasses frame

Lens length 1 , bridge width b and model of frame or
Forming disc data (disc length 1 , disc height h ) and
Bridge width b and centering values,
for example one-sided centering point distance u from the center of the frame M , centering point height z _v above the lower frame edge or
the coordinates x and y of the centering point Z in relation to the rectangle R circumscribing the disk shape.

In addition, only the radius r _{min of} the circumscribing circle K and the distance MM 'of the center of the circle K from the center of the shaped disk M then have to be specified by the optician.

Alternatively, it is possible that the optician only the radius r _{min of} the circumscribing circle and the position of the centering point Z with respect to the center M 'of the circumscribing circle K - for example, by specifying the horizontal and vertical distance u ' and v - to the manufacturer of the glasses transmitted. This can easily be done by phone; Of course, a direct transfer between two data processing systems is also possible.

The manufacturer now produces a round (or in the case of the further development according to claim 2 described below a partially round) spectacle lens, the radius of which is equal to the radius r _min and the edge thickness is minimal. For this purpose, a blank B is assumed, which is blocked at point M '. This blank B is with an auxiliary shaped disc H , the shape of the circle K (with a small allowance) or - as will be explained - the representation in Fig. 2 speaks ent. The "pre-rimmed" blank is then milled to a center thickness which is calculated such that the circumference of the circle K does not fall below a predetermined minimum edge thickness.

This prefabricated lens can be made by the manufacturer delivered to the optician and there in the usual way into an automatic edger etc. for the manufacture of the glasses glass with a given lens shape can be used.

Surprisingly, it has been found that, in practice, this spectacle lens only has an insignificantly greater center thickness than an spectacle lens whose center thickness has been numerically determined in such a way that a minimum thickness is not undershot on the actual edge of the lens shape: With such a calculation, in which the actual edge of the pane is recorded point by point (points P ₁ - P ₃₅ in FIG. 3), however, a considerably greater computational effort is required. In addition, accurate detection is not possible without complex aids such as graphics, tabs or the like.

This according to the inventive method of glasses Glass manufacturer has manufactured "intermediate product" opposite the glasses made with the known Mini center thickness have been calculated, the white tere advantage that there is a cheaper bracket in Be Steaming systems allows so that no re-steaming occurs.

With certain cylinder positions, however, it is possible that the method described in connection with FIG. 1 does not yet provide the minimum center thickness. This is the case if the minimum edge thickness is undershot only on the part of the circumference of the circumscribing circle that lies above and below the horizontal boundary lines of the "circumscribing" rectangle.

Therefore, it is favorable if the optician in the cases where he only specifies the radius _min and the centering variant u ', v , additionally transmits the height h of the "circumscribing" rectangle R. Thus, the spectacle lens manufacturer can calculate an auxiliary shaped disc shown in Fig. 2 so that the predetermined minimum edge thickness is always achieved on the arcs K 'and K ''or on the horizontal sides of the rectangle R connecting them (claim 2).

The invention is based on exemplary embodiments play described with reference to the drawing been used. Of course it is possible to get the Auftei the individual steps between the optician and Manufacturers of pre-rimmed eyeglass lenses differently lay. The individual auxiliary variables can also be determined in a different way than specified, for example with electronic image processing systems.

It is also possible to calculate the center thickness taking into account a vertical prism that is matched to the auxiliary shaping disc K or H used and used to reduce the thickness. As a result, a further reduction in the center thickness can be achieved without a predetermined minimum edge thickness being undershot.

Furthermore, it is possible, for example, to hold the auxiliary mold plates K or H in sufficiently fine gradation or to enter and save them as a data field in an automatic edging machine.

In any case, it is a simple graphic determination for a purchase order or production required data without tools, so that with the inventive method described above for the selection of pre-rimmed glasses, finished on both sides len glasses of minimal center thickness both large eye op Specialist shops with elaborate electronic controls armor as well as small optician stores who rarely encounter such orders, work can.

Claims (3)

1. Method for selecting pre-rimmed, double-sided lenses with a minimum center thickness for a given lens shape, in which at least one main cut has a positive effect, characterized by the combination of the following features:

• - In a first step, the through the center ( M ) of a disk shape ( F ) surrounding and the disk benform with each side in at least one point touching rectangle ( R ), the sides of which are arranged horizontally or vertically, running horizontal line (ML) determines
• - In a second step, the circle shape ( K ) (auxiliary shaped disk) is written, the center point ( M ′) of which lies on the horizontal line (ML) ,
• - In a third step, the center thickness is selected such that the minimum edge thickness on the circle is not undercut for a given position of the optical centering point ( Z ).

2. The method according to claim 1, characterized in that the center thickness is selected such that the minimum edge thickness only on the lateral arcs with 0yh and they connect the horizontal sides of the rectangle connecting them with the height h (auxiliary form disc H) not fallen below becomes. 3. The method according to claim 1 or 2, characterized in that the center thickness is taken into account, taking into account an abge on the auxiliary shaped disc ( K or H ) and used to reduce the thickness vertical prism.