JPH0545101A - Curve scale of spectacle frame - Google Patents

Abstract

PURPOSE:To obtain a means of measuring a curve of the groove of a spectacle frame easily and knowing a base curve so as to determine a forced curve value of the groove of a lens. CONSTITUTION:A transparent plate whereon circular arcs of curve values for classifying front curves and measuring a frame curve for each classified curve in a top rim part are marked and also values of base curves determined from the curve values of the circular arcs 1 and 2 for measuring each front curve and frame curve are marked for discrete circular acts, is made to be a curve scale 8. The curve scale 8 being put on the top rim part of a spectacle frame 9, a pseudo-curve from the front of the frame is selected and then a pseudo- curve from above the frame is selected. The base curves can be known from the numerical values marked for the selected curves.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curve scale for measuring a base curve of a spectacle frame from curves from two directions above and in front of a top rim portion of spectacles.

[0002]

2. Description of the Related Art The term "4 curves, 6 curves, etc." for a spectacle lens is called diopter curve, which is a surface refractive power D.
Is shown. The radius of curvature (m) of the lens is calculated by r = (n-1) / D. Taking a crown glass having a refractive index n = 1.523 as an example, the values of the surface refractive power and the radius of curvature of the lens are as shown in the table below.

[0003]

[Table 1]

The curves shown in Table 1 are combined according to the visual acuity of the eyeglass user, and the lens manufactured to the appropriate power is selected and attached to the frame. There are various designs for the frame, as shown in FIG. 3, and the lens shape is divided into various types such as those based on a triangle, those based on a quadrangle, and those based on a round shape. These frames are ready-made with 4D to 6D as base curves.

FIG. 4 is an explanatory view showing a curved state of a spectacle frame. The appearance of the curve of the top rim portion 4 of the spectacle frame 3 is shown. FIG. 5 is an explanatory diagram showing a curve of another type of spectacle frame. In this example, the curvature of the curve of the top rim portion 6 of the spectacle frame 5 is larger than that in the example shown in FIG.

The two eyeglass frames shown in FIGS. 4 and 5 are both eyeglass frames manufactured using 6D as a base curve, but the shapes of the lens shapes are different. The curve of the frame of the top rim portion of these lens shapes has a curvature corresponding to the 6D curve shown in FIG. 6, but the spectacle frame shown in FIG. 5 has a curvature corresponding to the 4D curve. As described above, the curve of the frame of the top rim portion is significantly different depending on the shape of the target lens shape.

When the lens is put in the spectacle frame, it is important to match the groove curve of the frame with the bevel curve of the lens. In order to mount the lens on a frame whose groove curve differs depending on the shape of the target lens, the bevel of the lens is molded with a forced curve that matches the groove shape.

[0008]

However, the base curve for manufacturing the frame differs depending on the manufacturer, and the base curve has a variation of 4D to 6D. Further, it is various from 1D curve to 6D curve by eyeglass processing and readjustment such as reshaping in adjustment. Furthermore, it is difficult to understand the curve of the groove of the spectacle frame, which is significantly different depending on the shape of the target lens. For this reason, it is difficult to adjust the bevel curve of the lens according to the curve of the groove of the frame, and the curve of the groove of the frame and the bevel curve of the lens may not match.

If the curve of the groove of the frame and the curve of the bevel do not coincide with each other, there arises a problem that an unnecessary gap is generated or the lens comes off. It is necessary to mold the bevel curve of the lens with a forced curve that matches the curve of the frame groove. Therefore, it is important to measure the curve of the groove of the frame and grasp the base curve during manufacturing. An object of the present invention is to obtain a means for measuring the curve of the groove of the spectacle frame and grasping the base curve in order to determine the forced curve value of the bevel of the lens.

[0010]

In order to solve the above-mentioned problems, the curve of the groove of the frame is measured in the top rim portion from two directions by the front curve seen from the front of the frame and the frame curve seen from above the frame. .. First, classify by the front curve. Next, measure the frame curve. At this time, when there is almost no classified front curve value, the value of the base curve matches the value of the obtained frame curve, but the larger the classified front curve value,
The value of the base curve becomes larger than the value of the obtained frame curve. The base curve can be calculated from the value of the frame curve for each classification of the front curve.

In order to easily grasp the curve of the groove of the frame,
As shown in FIG. 1 and FIG. 2, a transparent plate is used, which is an arc of each curve value for measuring a frame curve for each classified front curve and each classification of the front curve. In each drawn arc, the value of the curve of the groove of the frame obtained from the curve values of each of the front curve measuring arc 1 and the frame curve measuring arc 2 is categorized.

As shown in FIG. 7, this curve scale 8
To the top rim of the spectacle frame 9 to select a pseudo curve of the front curve (from the front of the frame) on the scale, and then, as shown in FIG. 8, a pseudo curve of the frame curve (from above the frame). Choose. The curve of the groove of the frame, that is, the base curve can be grasped from the numerical values written on the selected curve. By using this curve scale, the base curve value can be easily grasped.

The spectacle frame is generally manufactured with 4D to 6D as a base curve. However, the base curve is not constant, and the front curve and the frame curve are different, especially at the top rim, depending on the shape of the frame lens shape, and it is difficult to understand the groove curve of the frame. FIG. 9 is a diagram showing the relationship between the spherical surface of the spectacle lens and the curve of the environmental frame. O is the center of the target lens, which is the center of the spherical surface with a radius of curvature r (mm), A is the middle point of the frame groove curve in the top rim portion viewed from above, and both end points of the frame groove curve (width 30 mm). To B,
Let be C. The curve of the groove of the frame of the top rim is B-A-C
It is composed of the surface including.

FIG. 10 shows a cross section of the spectacle lens of FIG.
6 is an explanatory diagram for obtaining a swing width from a target lens shape O. FIG.
The distance between OA is X _a (mm) and the distance between OB is X _b (m
When m), the amplitude Z _a point A ^{_{Z a = r- (r 2 -Xa}} 2) 1/2, amplitude Z _b of the point B is ^{_{Z b = r- (r 2 -Xb}} 2) 1 Required at ^{/ 2} . The swing width Z between AB is Z = Z _b −Z _a . The distance X (mm) between AB is calculated by X = X _b sin θ where θ is the angle formed by AOB. Curve B-A- of the groove on the frame of the top rim
The radius of curvature of the C surface can be obtained by R = (X ² + Z ² ) / (2Z). To convert the radius of curvature R (m) of a surface into a base curve represented by the surface refractive power D, R = (n-1) / D unit: m is generally used, and a crown glass with n = 1.523 is used. Since it is used as a reference, it may be obtained by the equation: D = (n-1) /R=0.523/R.

As an example, a list and classification of the swing width of the frame of the top rim portion having the basic design 6D as the base curve, the radius of curvature of the frame curve from above the frame of the top rim portion obtained from the above, and the curve value are given. Shown in the table below.

[0016]

[Table 2]

The curve value D of the groove of the frame classified in the table relates to the frame manufactured with the base curve of 6D. The case where the base curve is approximately similar to the frame curve was classified as Category 1, and another classification was made every time the frame curve value became 1D larger than the base curve. These various classified front curves, and further, according to the classification of the front curves, those in which arcs of 2 to 7D curves for measuring the frame curve are drawn on a transparent plate are used. In each drawn arc, the values of the base curve obtained from the curvatures of the front curve and the arc for measuring the frame curve are recorded for each classification. In the case of classification 1, the base curve almost coincides with the frame curve. Therefore, the curve value itself of the arc is added to the scale of the frame curve as the base curve value. In the case of classification 2, the base curve is 1D larger than the frame curve, so a value 1D larger than the curve value of the arc drawn on the scale is added as the base curve. In the case of classification 3, the base curve is 2D rather than the frame curve
Since it is large, a value that is 2D larger than the arc drawn on the scale is used as the base curve. In the case of classification 4, the base curve is 3D larger than the frame curve, so a value that is 3D larger than the arc drawn on the scale is used as the base curve. . The same applies to classification 5 and other cases.

Applying this curve scale from the front of the top rim portion of the spectacle frame to check the classification of the front curve, and measuring the frame curve from above with the arc of the scale, the base curve can be known from the attached value. Can be done.

[0019]

EXAMPLES Examples of the present invention are shown below. FIG. 1 is an arc drawn on a curve scale used in the embodiment of the present invention. Classification 1 to 4 in the table
2 and classifications 3 and 4 are used as one scale each. ~ Represents the classification. The two arcs on the scale are for checking the front curve from the front of the frame.
The two arcs are for examining the frame curve from above the frame, and arcs corresponding to 2D to 7D are drawn. The numbers attached to the six arcs show the values of the base curve obtained from the front curve and frame curve for each classification. In the classification, since the base curve almost matches the frame curve, the value of the frame curve itself can be considered as the base curve value. The classification is such that the base curve takes a curve value that is 1D larger than the frame curve. In the classification, the base curve is 2D larger than the frame curve, and the classification is that the base curve is 3D larger than the frame curve.

The procedure for measuring the curve of the frame groove using this curve scale will be described below. First, as shown in FIG. 7, an arc for classification on the scale is applied from the front of the frame 9, and the one having the closest shape is selected. In this case, it is close to the lower arc and corresponds to classification.

Next, as shown in FIG. 8, a scale is applied from above the frame, and the one having the closest shape is selected from the six arcs. Here, since the classification is, it can be seen that the numerical values 3 to 7 drawn on the right side of the arc are the base curve, and in this figure, the base curve is 6D.

The base curve can be obtained and the lens can be ball-polished. The lens is subjected to spherical curve processing by specifying a forced curve, and the bevel curve of the lens and the base curve of the spectacle frame can be matched.

[0023]

As described above, by using the curve scale of the present invention, the base curve of the spectacle frame can be easily obtained. Since the curve is grasped three-dimensionally from the front and the upper two directions at the top rim portion where the difference in curve remarkably appears due to the lens shape, the base curve can be accurately known. With the curve scale of the present invention, it is possible to perform spherical processing by accurately specifying a forced curve on the lens based on the value of the base curve of the eyeglass frame that has been examined. By such ball grinding, a lens having a bevel curve that matches the base curve of the spectacle frame can be obtained. There are effects such as solving problems such as unnecessary gaps and lens detachment that occur when the curves of the spectacle frame and the lens bevel do not match.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing an example of a curve scale of the present invention.

FIG. 2 is an explanatory diagram showing an example of a curve scale of the present invention.

FIG. 3 is an explanatory diagram of various eyeglass frames.

FIG. 4 is an explanatory diagram showing a curve of a spectacle frame.

FIG. 5 is an explanatory diagram showing a curve of a spectacle frame.

FIG. 6 is an explanatory diagram showing a difference in a swing width depending on a type of a spectacle frame in a 6D base curve.

FIG. 7 is an explanatory diagram of how to use the curve scale of the present invention.

FIG. 8 is an explanatory diagram of how to use the curve scale of the present invention.

FIG. 9 is an explanatory diagram showing a relationship between a spherical surface of a spectacle lens and a curve of an environment frame.

FIG. 10 is an explanatory diagram showing a cross section of a spectacle lens, for obtaining a swing width from a lens center O.

[Explanation of symbols]

 1 Front curve measurement arc 2 Frame curve measurement arc 3 Eyeglass frame 4 Top rim portion 5 Eyeglass frame 6 Top rim portion 7 6D curve 8 Curve scale 9 Eyeglass frame

Claims (2)

[Claims] 1. A plurality of standard arcs for measuring an edge curve, which are measured from the front of the top rim portion of the front of the spectacle frame, and
A curve scale for an eyeglass frame, wherein each of the plurality of standard arcs is provided with a plurality of standard arcs for measuring a lens-shaped curve measured from above a top rim portion of the front of the eyeglass frame. 2. A plurality of standard arcs for curve measurement, which are measured from above the top rim portion of the spectacle frame front, and each of the plurality of standard arcs, are measured from the front of the top rim portion of the spectacle frame front. A curve scale for an eyeglass frame having a plurality of standard arcs for measuring curves.