KR101047856B1 - Lens manufacturing mold for multifocal astigmatism and eyeglass lens for multifocal astigmatism manufactured by the same - Google Patents

Abstract

The present invention relates to a lens manufacturing mold used in the manufacture of a bifocal or trifocal astigmatism spectacle lens, and more specifically, the front portion is marked with a horizontal reference line on the left and right sides of the center, respectively, The focal forming part or the focal forming part is engraved, and the front mold of the glass material is engraved with the horizontal reference point engraved on the left and right sides of the center of the rear part, and the front part has a constant radius of curvature (R1) according to the myopia degree. The astigmatism government with the curvature radius (R2) is convexly protruded forward and the upper part is centered on the rear part. Glass material with astigmatism display part divided at a certain angle from 0 ° to 180 ° in the outer part It consists of a rear mold of the vagina, so that the front mold and the rear mold are positioned at a predetermined distance apart from each other, and the front mold overlaps with each other through the horizontal reference line of the front mold and the astigmatism axis display portion of the rear mold, according to the angle of the astigmatism axis of the eyewear wearer. Or the lens manufacturing mold for multifocal astigmatism characterized in that to produce a multifocal astigmatism spectacle lens by rotating the rear mold at a predetermined angle so that the astigmatism government is located at the same angle as the astigmatism axis of the spectacles wearer To a multifocal astigmatism spectacle lens.

Description

Manufacture lens for multifocal astigmatism and multifocal astigmatic spectacle lens manufactured by the same {The varifocals mold for regular astigmatism and the varifocals astigmatic lens}

The present invention relates to a lens manufacturing mold used in the manufacture of a bifocal or trifocal astigmatism spectacle lens, and more specifically, the front portion is marked with a horizontal reference line on the left and right sides of the center, respectively, The focal forming part or the focal forming part is engraved, and the front mold of the glass material is engraved with the horizontal reference point engraved on the left and right sides of the center of the rear part, and the front part has a constant radius of curvature (R1) according to the myopia degree. The astigmatism government with the curvature radius (R2) is convexly protruded forward and the upper part is centered on the rear part. Glass material with astigmatism display part divided at a certain angle from 0 ° to 180 ° in the outer part It consists of a rear mold of the vagina, so that the front mold and the rear mold are positioned at a predetermined distance apart from each other in front of each other in a state where the front mold overlaps each other and the front mold according to the astigmatism axis angle of the eyewear wearer through the astigmatism axis display portion of the rear mold. Or the lens manufacturing mold for multifocal astigmatism characterized in that to produce a multifocal astigmatism spectacle lens by rotating the rear mold at a predetermined angle so that the astigmatism government is located at the same angle as the astigmatism axis of the spectacles wearer To a multifocal astigmatism spectacle lens.

In general, astigmatism is a visual impairment that occurs when light incident on the eye does not focus on a point on the retina. It is caused by congenital or acquired corneal curvature in different directions and can be corrected by astigmatism spectacle lenses. Occurrence of the cornea is caused by bumps or corneal wounds and signs of inflammation.These are divided into irregular astigmatism, which cannot be corrected with glasses, and can only be corrected with contact lenses. When looking at the drawn astigmatism chart, the darkest color line and the two lightest color lines are orthogonal and the refractions between them are arranged in the order of strength and symmetry. The astigmatism axis of the correctable astigmatism spectacle lens is determined by examining the thinnest line on the astigmatism table. To correct the astigmatism is matched by the same angle.

Such astigmatism is short-focused when corrected by wearing glasses for astigmatism. The focus of the spectacle lens is easy to manufacture and produce. A person with a double focus who has double focus or progressive multifocal with nearsightedness has a focal point in the retina when staring directly at the front, but does not see the near vision well when looking downward. If you stare at the top, you will not be able to see the distance well, and you will not be able to see the short distance as you go to the bottom. The bifocal or astigmatism spectacle lens is designed to take into consideration the focus and myopia and the astigmatism and astigmatism. Because of the molding, according to each condition of the wearer of the glasses is produced only by the order production method.

Conventionally, as shown in FIGS. 9 and 10, a dual focus forming unit (not shown) that is in conformity with the focal point of the spectacles wearer is engraved on the rear surface as shown in FIGS. 9 and 10 in order to manufacture the spectacle lens for the multifocal astigmatism, or the focal focus is formed. The depressed focal forming portion 5 'consisting of a portion 7' and a near focus forming portion 8 'is engraved in an up-down direction, and horizontal reference points 6a' and 6b 'are respectively formed on the left and right sides of the center of the rear portion. This engraved glass front mold (2 '), and the front portion of the glass material is formed convexly curved forward to have a constant radius of curvature (R1) in accordance with the myopia degree of the spectacle wearer A multifocal astigmatism spectacle lens was fabricated using a circular astigmatism lens manufacturing mold (1 ') consisting of a rear mold (12'). Spaced apart state Spaced so as to maintain about 10 to 15 mm), and the outer peripheral surfaces of the front mold 2 'and the rear mold 12' are taped with a fixing tape 15 ', but before finishing the fixing tape 15'. Synthetic resin solution 16 ', which is the material of the lens, is injected between the front mold 2' and the rear mold 12 ', and heat treated and cured to produce a semi-lens lens having a double focus portion or a closed focus portion on the front surface. Abrasive processing while maintaining the radius of curvature (R1) according to the myopia degree of the spectacle wearer to form astigmatism correction to the astigmatism axis and astigmatism degree of the spectacle wearer based on the horizontal reference point formed on the front portion of the semi-lens lens The thickness of the center is about 0.8 ~ 1.2mm, and the dual part or the focal part is formed on the front part, and the astigmatism correction part with the constant curvature radius and astigmatism axis is formed on the rear part. It was.

However, the multi-focal astigmatism spectacle lens manufactured by the custom-made method as described above first manufactures a semi-lens lens having a thickness of about 10 to 15 mm, and then astigmatism according to astigmatism axis and astigmatism degree on the rear surface of the semi-lens lens. The grinding part is processed to be 0.8 ~ 1.2mm thick while grinding, so that the grinding process is complicated and it takes a lot of grinding time. In addition, multi-focal astigmatism eyeglass lenses, which are highly expensive and require a lot of labor costs such as polishing equipment more than several hundred million won, are several times to tens of times more expensive than ordinary eyeglasses or single-focal astigmatism eyeglass lenses. There was an issue being sold to.

The present invention is to solve the problems as described above without producing a conventional semi-lens lens to polish the rear part, the front part of the front mold is marked with a horizontal reference line and the center of the front part of the rear mold Astigmatism is formed in the horizontal direction and the rear part shows the astigmatism axis display part divided at a certain angle from 0 ° to 180 ° on the upper outer part, so that the front mold and the rear mold of glass material are spaced apart from each other. Through the horizontal reference line and the astigmatism axis display unit, the astigmatism correction unit is positioned at the same angle as the astigmatism axis of the spectacle wearer, and the front and rear molds are rotated at a predetermined angle in accordance with the astigmatism axis angle of the spectacles wearer. Injecting and heat-treating the synthetic resin solution into the lens for multifocal astigmatism without additional grinding To ensure that the finished lens has a purpose.

To achieve this purpose, the front part is marked with horizontal reference lines on the left and right outer parts of the center, respectively, and the rear part has a double focus forming part or a defocal forming part, which is engraved. The front mold of the engraved glass material and the front part are curved convexly forward to have a constant radius of curvature (R1) according to the myopia degree, and the center part of the front part is horizontally in the horizontal direction according to the astigmatism number. Astigmatism with a certain radius of curvature (R2) is projected convexly forward, and the astigmatism axis indicator is divided at a certain angle from 0 ° to 180 ° in the upper outer part of the rear part. It consists of a rear mold of the front mold and the rear mold to be spaced apart at a certain distance before and after The astigmatism correction unit rotates the front mold or the rear mold at a predetermined angle according to the angle of the astigmatism axis of the spectacle wearer through the horizontal reference line of the front mold and the astigmatism axis display portion of the rear mold overlapping each other in the It is a feature of the invention that it is designed to produce an eyeglass lens for multifocal astigmatism by being positioned at an angle.

As described above, according to the present invention, a horizontal reference line is marked on the front part of the front mold, and an astigmatism correction protrusion is formed in the left and right horizontal directions on the center of the front part of the rear mold, and from 0 ° to 180 ° on the upper outer part of the rear part. The astigmatism axis display part divided at a predetermined angle is marked so that the front mold and the astigmatism axis display part overlap each other in the front mold and the rear mold of glass material positioned at a predetermined interval before and after the front mold according to the astigmatism axis angle of the eyewear wearer. Or rotate the rear mold at a certain angle so that the astigmatism correction unit is positioned at the same angle as the astigmatism axis of the eyewear wearer, and inject and heat-harden the synthetic resin solution made of monomer between the front and rear molds for multifocal astigmatism without additional grinding. Eyeglass lens can be completed and semi-glass lens manufacturing and polishing process can be omitted It is possible to easily manufacture multifocal astigmatism spectacle lenses in a short time without waste, and to reduce the production cost of multifocal astigmatism spectacle lenses by eliminating the need for expensive equipment for polishing and greatly reducing labor costs. It has an effect.

1 is a front schematic view of a front mold and a rear mold in which a focal forming part is formed in a lens manufacturing mold for multifocal astigmatism according to the present invention.
2 is a front schematic view of a front mold and a rear mold in which a double focus forming part is formed in a lens manufacturing mold for multifocal astigmatism according to the present invention;
Figure 3 is a front schematic view showing another embodiment of the front mold formed with a double focus forming portion in the lens manufacturing mold for multifocal astigmatism according to the present invention
Figure 4 is in the lens manufacturing mold for multifocal astigmatism according to the present invention the front mold and the rear mold is formed with a focus forming portion spaced apart front and rear at regular intervals and the front of the state rotated at a predetermined angle in accordance with the astigmatism axis angle of the eyewear wearer schematic
5 is a cross-sectional schematic view of a state in which the front mold and the rear mold of the multi-focal astigmatism lens manufacturing mold according to the present invention are positioned at a predetermined distance apart from each other and the synthetic resin solution is injected therebetween with the angle of astigmatism adjusted
FIG. 6 is a front schematic view of a dilated focal astigmatism spectacle lens manufactured through a lens manufacturing mold for multifocal astigmatism according to the present invention. FIG.
7 is a front schematic view of a bifocal astigmatism spectacle lens manufactured through a lens manufacturing mold for multifocal astigmatism according to the present invention;
8 is a front schematic view of a front mold and a rear mold showing another embodiment of a lens manufacturing mold for multifocal astigmatism according to the present invention;
9 is a front schematic view of a front mold and a rear mold of a conventional lens manufacturing mold for multifocal astigmatism
10 is a cross-sectional schematic diagram of a state in which the front mold and the rear mold of the conventional multifocal astigmatism lens manufacturing mold are positioned at a predetermined distance apart from each other and a synthetic resin is injected therebetween;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The lens manufacturing mold 1 for multifocal astigmatism according to the present invention is a mold used in the manufacture of bifocal or progressive multifocal astigmatism spectacle lenses 19a, 19b, as shown in FIGS. On the front part, horizontal reference lines (3a) and (3b) are marked on the left and right outer parts of the center at the front part, and the double focusing part 4 or the defocusing part 5 is engraved on the rear part. On the left and right sides of the center of the rear part, the front mold 2 of the glass material in which the horizontal reference points 6a and 6b are engraved, respectively, and the front part have the curvature radius R1 according to the myopia degree. The astigmatism correction portion 13, which is convexly curved and has a constant curvature radius R2 according to the astigmatism in the left and right horizontal directions, is protruded convexly forward, and the rear part is based on the center part. In the upper outer part The astigmatism axis display part 14 divided from 0 ° to 180 ° is composed of a rear mold 12 made of glass, and the front mold 2 and the rear mold 12 are separated from each other by a predetermined distance. The front mold 2 according to the astigmatism axis angle of the spectacle wearer through the horizontal reference lines 3a and 3b of the front mold 2 and the astigmatism display portion 14 of the rear mold 12 overlapping each other in the state of being positioned. Alternatively, the astigmatism correction unit 13 is positioned at the same angle as the astigmatism axis of the spectacle wearer while the rear mold 12 is rotated at a predetermined angle to easily produce the multifocal astigmatism spectacle lenses 19a and 19b. have.

The front mold (2) is made of a disc-shaped mold of a certain thickness of a transparent glass material, as shown in Figures 1 to 5, the front portion has a horizontal reference line (3a) on the left and right sides of the center portion, respectively (3b) is printed or engraved, and the rear part has a double focus forming part 4 which forms a double focus when the eye wearer is in dual focus, or the eye wearer is progressive in multiple focus. In the case of, the depression focusing part 5 forming the depression focus is engraved in the vertical direction, and horizontal reference points 6a and 6b are engraved on the left and right sides of the center of the rear part, respectively. Horizontal reference point for holding the horizontal reference when processing the shape according to the spectacle frame (19a, 19b) on the left and right sides of the front center of the multifocal astigmatism glasses lens 19a (19b) as shown in ( 27a) (27b) It is to be formed.

As shown in FIG. 4, the horizontal reference lines 3a and 3b are arranged on the astigmatism axis display unit 14 displayed on the rear mold 12 in a state in which the front mold 2 and the rear mold 12 are spaced apart from each other. ) And the astigmatism correction unit 13 formed on the rear mold 12 by rotating the front mold 2 or the rear mold 12 at a predetermined angle in accordance with the astigmatism axis angle of the spectacle wearer. It serves as a baseline for positioning at the same angle.

The bifocal forming unit 4 is for correcting that the focal point is properly focused on the retina in case of the front center part, but the near focus is not focused when staring downward, and the front mold 2 as shown in FIGS. 2 and 3. A circular or semi-circular double focus forming portion 4 is engraved with a predetermined depth according to the degree of wearer's eyeglasses, which is completed by the double focus forming portion 4 as shown in FIG. 7. In the lower part of the front surface of the focal astigmatism spectacle lens 19b, a bifocal portion 25 made of a near vision viewing portion for forming a near field like a normal magnifying glass is formed.

When the gaze focal forming unit 5 gazes upward, the far focus is not focused and the short distance toward the bottom is gradually corrected. As shown in FIG. 1, the rear surface of the front mold 2 is shown. The far focus forming unit 7 is formed on the upper portion, and the near focus forming unit 8 is formed on the lower portion of the rear part, and the frequency gradually increases from the far focus forming unit 7 to the near focus forming unit 8. As shown in FIG. 6, the engraved shape is changed to a predetermined depth so that the far end portion of the multifocal astigmatism spectacle lens 19a completed by the focal forming unit 5 can be viewed far away. A far focusing portion 21 formed of a vision viewing portion is formed, and a near focusing portion 22 formed of a near vision viewing portion is formed at a lower portion of the front surface thereof, so that the far focusing portion 21 is used. Go to focus 22 The focal point portion 20 in which the frequency is naturally changed is formed to increase.

In addition, the front mold 2 is printed with a left and right identification code 9 indicating whether it is for producing the left lens or the right lens on the upper front, and the horizontal reference point 6a ( 6b) in the diopter unit so that the degree of focus of the near focus forming unit 8 or the dual focus forming unit 4 of the focal forming unit 5 can be visually distinguished. The multifocal astigmatism spectacle lens 19a is engraved with the near focal number 10 or the double focal number 11 and is completed by the near focal number 10 or the double focal number 11. In the front part of 19b), as shown in FIGS. 6 and 7, the near focal number 10 and the double focal number 11 are the same.

On the other hand, when the front mold (2) is typically formed in a shape recessed inward so that the rear portion has a constant radius of curvature, the front portion of the astigmatism glasses lens (19a) (19b) is completed has a constant radius of curvature If the rear surface of the front mold (2) is formed in a spherical surface (sphere) is formed in a flat surface, the front surface of the finished astigmatism glasses lens 19a (19b) is to be formed as a non-spherical surface (wear) According to the selection of the aspherical or aspherical multifocal astigmatism spectacle lenses 19a, 19b are selectively worn.

1, 4, and 5, the rear mold 12 is made of a disc-shaped mold of a certain thickness of transparent glass material, and the front portion has a constant radius of curvature R1 according to the near-field degree. The astigmatism correction part 13 having a constant curvature radius (R2) is protruded convexly forward in the center of the front part, and has a constant curvature radius (R2) according to the astigmatism degree in the center of the front part. In the rear portion, the astigmatism axis display portion 14, which is divided at a predetermined angle from 0 ° to 180 ° in the upper outer portion with respect to the center part, is printed or engraved, so that the front mold 2 and the rear mold 12 are marked. Using a conventional setting jig (not shown) spaced apart from the front and rear by a predetermined distance, preferably, the distance between the center of the front mold 2 and the rear mold 12 is separated by 0.9 ~ 1.2mm Figure 4 As shown in FIG. 2, the front mold 2 is fitted to the astigmatism axis angle of the spectacle wearer through the horizontal reference lines 3a and 3b of the front mold 2 and the astigmatism display unit 14 of the rear mold 12, which overlap each other. Alternatively, the astigmatism correction unit 13 is rotated at a predetermined angle while the rear mold 12 is rotated at the same angle as that of the astigmatism axis of the eyewear wearer. As described above, the astigmatism correction unit 13 is spaced apart. Tape the fixing tape 15 to the outer peripheral surfaces of the front mold 2 and the rear mold 12 adjusted to the astigmatism axis angle of the spectacles wearer, as shown in FIG. Before the treatment, the synthetic resin solution 16, which is a material of the lens, is injected between the front mold 2 and the rear mold 12, and heat treated and demolded to complete the multifocal astigmatism spectacle lenses 19a and 19b. No waste of raw materials by eliminating polishing process The focus in a short time by a simple process I is readily prepared try the spectacle lens (19a) (19b).

As shown in FIGS. 1, 2, and 4, the astigmatism correction unit 13 is moved forward in a state having a constant curvature radius R2 according to the astigmatism degree in the horizontal middle direction in the front center portion of the rear mold 12. Protrudingly formed convex, it is formed to gradually widen toward the left and right sides from the center of the rear mold (12).

In addition, the rear mold 12 has a myopia and astigmatism in units of diopters so as to visually distinguish a myopia degree according to the radius of curvature R1 and astigmatism degree according to the radius of curvature R2 in the lower center of the rear part. The frequency 17 is printed or engraved so that the operator visually checks the myopia and astigmatism 17 and selects a rear mold 12 suitable for the myopia and astigmatism of the spectacles wearer. It is easy to work.

In addition, the rear mold 12 is printed or engraved by a secondary astigmatism display unit 18 divided by a predetermined angle from 0 ° to 180 ° in the lower outer part based on the center of the rear part as shown in FIG. It is indicated by so as to more easily adjust the astigmatism axis angle of the front mold 2 and the rear mold 12.

Meanwhile, among the multifocal astigmatism spectacle lenses 19a and 19b manufactured through the multifocal astigmatism manufacturing mold 1 according to the present invention, the spectacle lens has a focal part 20 formed therein. 19a is a far focusing part 21 for viewing a distance on the front of the spectacle lens 19a, and a near focusing part 22 for viewing a short distance is formed on the front lower part of the spectacle lens 21a. The focal point portion 20, in which the frequency is naturally changed toward the near focal point portion 22, is formed. The focal point portion 21 serves as a reference point on the lens when the spectacle lens 19a is placed in the spectacle frame. ), The raw frequency measuring point 23 is printed, and the near focusing part 22 is printed with the near-frequency measuring point 24, and as shown in FIG. 7, the double focusing part 25 is formed. The spectacle lens 19b has a root near the bottom of the front surface for viewing a short distance such as a normal magnifying glass. The focal point 22 is formed, and the astigmatism correction unit 13 having a constant curvature radius R2 is arranged on the rear surface of the spectacle lenses 19a and 19b to fit the astigmatism degree of the spectacle wearer. It is formed at an angle corresponding to the time axis, and the center point 26 is printed on the front center of the spectacle lens 19a, 19b, and horizontal reference points 27a, 27b are formed on the left and right sides of the center, respectively. The shape of the spectacle lens 19a (19b) to fit the spectacle frame when the horizontal reference point and the center point to easily grasp through the horizontal reference point 27a (27b) and the center point 26, The near focal number 10 and the double focal number 11 are marked below one of the horizontal reference points 27a and 27b.

In addition, according to another embodiment of the present invention, as shown in FIG. 8, the front mold 2 has an astigmatism axis display part divided at a predetermined angle from 0 ° to 180 ° in the upper outer part based on the center part of the front part. 14 is printed or engraved, and the rear mold 12 has horizontal reference lines 3a and 3b printed or engraved on the left, right, and right edges of the center of the rear part, respectively, so that the front mold is formed. Through the astigmatism axis display portion 14 and the horizontal reference lines 3a and 3b of the rear mold 12, the front mold 2 or the rear mold 12 is fixed at a predetermined angle in accordance with the angle of the astigmatism axis of the wearer. The astigmatism correction unit 13 formed on the front portion of the rear mold 12 while rotating is adapted to be positioned at the same angle as the astigmatism axis of the spectacle wearer.

In addition, the front mold 2 is a secondary astigmatism display unit 18 divided by a predetermined angle from 0 ° to 180 ° in the lower outer portion with respect to the center portion of the front portion is printed or engraved on the front mold The angle of astigmatic axis of the rear mold 12 and the rear mold 12 can be adjusted more easily.

The action of the present invention is as follows.

When the multifocal astigmatism spectacle lenses 19a, 19b are manufactured by using the multifocal astigmatism lens manufacturing mold 1 according to the present invention, the front portion has horizontal horizontal lines on the left and right outer edge portions of the center, respectively. 3a) (3b) are marked, and the double focusing portion 4 or the defocusing portion 5 is engraved on the rear portion, and the horizontal reference points 6a and 6b are engraved on the left and right sides of the center portion of the rear portion, respectively. The front mold 2 of the glass material and the front part are formed to be curved convex forward so as to have a constant radius of curvature R1 according to the degree of myopia. The astigmatism correction unit 13 having a constant radius of curvature R2 is convexly formed to the front, and the astigmatism display unit is divided at a predetermined angle from 0 ° to 180 ° in the upper outer part with respect to the center at the rear part. 14) notation The rear mold 12 of the glass material is overlapped with each other as shown in FIG. 4 in a state where the distance between the center parts is spaced back and forth by about 0.9 to 1.2 mm using a conventional setting jig (not shown). Through the horizontal reference lines 3a and 3b of the front mold 2 and the astigmatism axis display portion 14 of the rear mold 12, the front mold 2 or the rear mold 12 is fixed to match the astigmatism axis angle of the wearer. The astigmatism correction unit 13 of the rear mold 12 adjusts its position at the same angle as the astigmatism axis of the spectacle wearer while rotating at an angle, and the astigmatism correction unit 13 is spaced apart from the front and rear as described above. Tape the fixing tape 15 to the outer circumferential surfaces of the front mold 2 and the rear mold 12 adjusted to the time axis angle as shown in FIG. 5, but before finishing the fixing tape 15. The material of the lens is between the front mold 2 and the rear mold 12 The synthetic resin solution 16 is injected, heat treated and cured, and then demolded to produce the multifocal astigmatic spectacle lenses 19a and 19b in a short time.

1, 1 '. Multifocal astigmatism glasses manufacturing mold 2, 2 '. Front mold
3a, 3b. Horizontal reference line 4. Dual focus forming unit
5, 5 '. Focusing section 6a, 6b, 6a ', 6b'. Horizontal reference point
7, 7 '. Far focus forming part 8, 8 '. Near focus forming part
9. Left and right identification code 10. Nearness focus
11. Dual focus 12, 12 '. Rear mold
13. Astigmatism Government 14. Astigmatism Axis Display Department
15, 15 '. Fixing tape 16, 16 '. Synthetic resin solution
17. Myopia and astigmatism 18. Secondary astigmatism axis display
19a, 19b. Multifocal astigmatism glasses lens 20.
21. Far focus 22. Near focus
23. Raw water frequency measuring point 24. Near-water frequency measuring point
25. Double focus 26. Center point
27a, 27b. Horizontal reference point

Claims (8)

On the front part, horizontal reference lines (3a) and (3b) are marked on the left and right outer parts of the center, respectively, and on the rear part, the focus forming part (5) is engraved in the vertical direction, and on the left and right sides of the center part of the back part, respectively. The front mold 2 of the glass material in which the horizontal reference points 6a and 6b are engraved, and the front part is curved convex forward to have a constant radius of curvature R1 according to the myopia degree, and the center of the front part The astigmatism correction unit 13 having a constant curvature radius (R2) is convexly projected forward in the left and right horizontal directions according to the astigmatism degree, and the rear part is 0 ° to 180 ° in the upper outer part with respect to the center part. The astigmatism axis display portion 14 divided by a predetermined angle is composed of a rear mold 12 made of glass, and the front mold 2 and the rear mold 12 are positioned at a predetermined distance apart from the front and rear. The front mold 2 or the rear mold according to the astigmatism axis angle of the spectacle wearer through the horizontal reference lines 3a and 3b of the front mold 2 and the astigmatism axis display portion 14 of the rear mold 12 which overlap each other in the shape. The astigmatism correction unit 13 is rotated at a constant angle so that the astigmatism correction unit 13 is positioned at the same angle as the astigmatism axis of the spectacles wearer, thereby producing a multifocal astigmatism spectacle lens 19a. Commercial glasses manufacturing mold.
On the front part, horizontal reference lines (3a) and (3b) are marked on the left and right outer parts of the center, respectively, and on the lower part of the rear part, a circular or semi-circular double focus forming part (4) is engraved. The front mold 2 of the glass material in which the horizontal reference points 6a and 6b are engraved, respectively, and the front part are curved convex forward so as to have a constant curvature radius R1 according to the myopia degree. In the middle part, astigmatism correction part 13 with constant curvature radius (R2) protrudes forward in the left and right horizontal directions according to the astigmatism degree, and in the rear part, 0 ° to 180 degrees in the upper outer part from the center part. The astigmatism axis display unit 14 divided by a certain angle up to ° is composed of a glass mold rear mold 12, the front mold 2 and the rear mold 12 are spaced apart from the front and rear by a predetermined distance. Through the horizontal reference line (3a) (3b) of the front mold (2) and the astigmatism axis display portion 14 of the rear mold 12 overlapping each other in the state of the front mold (2) or rear to match the astigmatism axis angle of the eyewear wearer The astigmatism correction unit 13 is rotated at a predetermined angle so that the astigmatism correction unit 13 is positioned at the same angle as the astigmatism axis of the spectacle wearer, thereby producing a multifocal astigmatism spectacle lens 19b. Eyewear manufacturing mold for astigmatism.
According to claim 1 or claim 2, wherein the front mold (2) has a horizontal reference point (6a) (6b) intaglio formed on each of the left and right sides of the center portion of the rear portion, the left side of the front upper portion of the front mold (2) A lens for manufacturing a multifocal astigmatism, characterized in that a left and right identification code (9) is printed indicating whether the lens is manufactured or the right lens.
According to claim 1 or claim 2, wherein the rear mold 12 is a myopia to visually distinguish between the myopia degree according to the radius of curvature (R1) and the astigmatism degree according to the radius of curvature (R2) in the lower center of the rear portion And the astigmatism degree 17 is printed or engraved, and an auxiliary astigmatism display unit divided by a predetermined angle from 0 ° to 180 ° in the lower outer part based on the center of the rear part of the rear mold 12 ( 18) is printed or engraved, and the astigmatism correction unit 13 has a constant curvature radius R2 according to the astigmatism in the left and right horizontal directions at the center of the front surface of the rear mold 12. Is convexly protruded, but the multi-focal astigmatism glasses manufacturing mold, characterized in that it is gradually expanded wider toward both sides from the center of the rear mold (12).
On the front part, the astigmatism axis display part 14 divided by a certain angle from 0 ° to 180 ° is printed or engraved on the upper part of the upper part and the back part is pressed. The front mold (2) of the glass material, which is engraved in the direction, and horizontal reference points (6a) and (6b) are engraved on the left and right sides of the center of the rear part, respectively, and the radius of curvature of the front part is constant according to the myopia degree (R1). The astigmatism correction portion 13 having a constant curvature radius R2 is protruded convexly forwardly in the center of the front part and has a constant curvature radius R2 according to the astigmatism degree in the middle of the front part. The front mold 2 and the rear mold 12 are formed of glass rear molds 12 in which horizontal reference lines 3a and 3b are respectively printed or engraved on the left and right sides of the center. ) On the astigmatism axis angle of the spectacle wearer through the astigmatism axis display portion 14 of the front mold 2 and the horizontal reference lines 3a and 3b of the rear mold 12 which overlap each other in a state of spaced apart from each other by a predetermined distance. The astigmatism correction unit 13 is positioned at the same angle as the astigmatism axis of the spectacle wearer while the front mold 2 or the rear mold 12 is rotated at a predetermined angle to produce the multifocal astigmatism spectacle lens 19a. Glasses manufacturing mold for multifocal astigmatism characterized in that.
In the front part, the astigmatism axis display part 14, which is divided at a certain angle from 0 ° to 180 ° in the upper part of the center part, is printed or engraved. The lower part of the rear part has a circular or semi-circular double focusing part ( 4) is engraved and the front mold (2) of glass material having horizontal reference points (6a) and (6b) engraved on each of the left and right sides of the center of the rear portion, and the radius of curvature of the front portion constant according to the myopia degree (R1). The astigmatism correction portion 13 having a constant curvature radius (R2) is protruded convexly forward and is formed at the center of the front part in the center of the front part in accordance with the astigmatism degree in the center of the front part. The front molds (2) and the rear molds (12a) and (3b) are formed of glass rear molds (12), respectively, printed or engraved on the left and right sides of the center part of the center. The spectacle wearer is placed through the astigmatism axis display portion 14 of the front mold 2 and the horizontal reference lines 3a and 3b of the rear mold 12 which overlap each other in a state where the anti-mold mold 12 is spaced apart from the front and rear by a predetermined distance. The astigmatism correction unit 13 is positioned at the same angle as the astigmatism axis of the spectacle wearer while rotating the front mold 2 or the rear mold 12 at a predetermined angle in accordance with the astigmatism axis angle. Glasses manufacturing mold for multifocal astigmatism, characterized in that it is to be produced.
The auxiliary astigmatism display unit 18 according to claim 5 or 6, wherein the front mold 2 is printed or engraved at a predetermined angle from 0 ° to 180 ° in the lower outer part with respect to the center of the front part. The astigmatism correction unit 13 is protruded convexly forward in the state having a constant curvature radius (R2) according to the astigmatism number in the left and right horizontal direction in the center of the front of the rear mold 12 However, the multi-focal astigmatism glasses manufacturing mold, characterized in that it is gradually expanded wider toward the left and right sides at the center of the rear mold (12).
delete

Images