TH38480A - Lenses for use with multi-optical eyes - Google Patents

Abstract

DC60 (05/01/42) Lenses for use with multi-optical eyes, including the distant sights, the short-distance sights, and the medium-distance sights, will be adjusted. Prepare to have a zone A high short-distance sightseeing area and a wide viewing field in the short-distance sightseeing area. The medium-distance sightseeing area and the remote sightseeing area Progress will be progress Soft though Distance between assembly centers It is mounted on the lens and the point where the amplification is 85% higher, the addition of power at the point of remote sight control is less than 16 mm, while at the same time it maintains the value of the cylinder. Maximum within a circle with a radius of 20 mm centered on the center Geometric middle of The lens is a low value. Lenses for use with a multi-point eye, including the distant sights, the short-distance sights, and the medium-distance sights, will be adjusted. Prepare to have a zone A high short-distance sightseeing area and a wide viewing field in the short-distance sightseeing area. The medium-distance sightseeing area and the remote sightseeing area Progress will be progress Soft though Distance between assembly centers It is mounted on the lens and the point where the addition of power is 85% higher, the additional power at the point of remote sight control is less than 16mm, while at the same time it maintains the maximum cylinder value. Within a circle with a radius of 20 mm centered on the center point. Geometric middle of The lens is a low value.

Claims (7)

1. A optical multi-point eye lens consisting of a spherical distortion surface that is shaped at every point on this surface. Average spherical and cylindrical And which includes the VL remote sight zone, the short distance sight area VP, the medium distance sight zone VI, and the main meridian of the MM \ '\' progression spanning three zones. The area in which the main length of the progression is determined Set here, it is 16mm shorter and where the value of the cylindrical maximum Cmax within a circle with a radius of 20 mm with its center point is on our center. Determination was established by The following relationship Cmax / d < or = 0.50 P mer, where d is the distance between the geometric center of the said lens and the inner circle. The spherical shape, in which the cylinder is the highest and Pmer, is the steepest slope of the average spherical shape along the said main median of advancement. Such a major advancement will be made. Is raised by the midpoint of the corresponding contour segment formed by the point at which the figure values The barrel is 0.50 diopter. 3. Lens according to claim 1, where this lens is a multi-focus lens made for Sightseeing near close and medium distances Which such lenses will have additional power that is determined Is the difference between the maximum and the minimum of the average sphere of the aforementioned meridian of the Progressed within a 20 m m radial circle centered on the geometric center of 4. Lens according to claim 3, where the main length of the progression will be determined. It is the ratio between the maximum slope addition of the average circular shape on the meridian. 5. Lens according to claim 1, where the lens is a progressive multi-point lens. With a reference point for the near-field observation area Reference point for the remote sightseeing area And the determined addition is the difference between the values of the average spherical shape at these two points. 6. Lens according to claim 5, where the said principal length of the progression is determined. Set up to the vertical distance between the mounting center and the point on the meridian where the value of the average sphere is 85% higher than the value of the average sphere at that reference point. For tele excursions 7. Lens according to claim 3, where the value of the cylindrical within the aforementioned 20 mm circular circle, centered on the geometric center of this lens, is less than the addition. Power 8. Lens according to claim 7, where the value of the cylindrical inside a circle with a radius of 20 mm, centered on the geometric center of this lens, is less than 80% of the addition 9. The lens according to claim 5, where the value of a cylindrical within a circle with a radius of 20 mm, centered on the optical center of this lens, is less than the addition of 1 0. Lens according to claim 9, where the value of the cylindrical within a circle with a radius of 20 mm, centered on the geometric center of this lens, is less than 80% of the incremental 1. 1. Lens according to claim 1, where the difference between the maximum cylindrical value on the side The two sides of the meridian within a circle with a radius of 20 mm, centered on the point. The geometric center of the lens is less than 0.05 diopter 1. 2. Lens according to claim 11, where the difference between the maximum cylindrical value on the side Both of the aforementioned meridian, within the aforementioned 20 mm circle, centered on a point. The geometric center of the lens is less than 0.03 diopter 1. 3. Lens according to claim 3, where the angle between the semi-infinite lines starting from the midway point The geometry of the lens and passes through the point of intersection of the circle and the line forming Rises from the point where the value of the cylinder is half the addition of power in the excursion zone. Such close range is greater than 45 omicron 1. 4. Lens according to claim 3, where the said remote sights set up in The upper part of such a lens by a line formed by a point where the value of the cylinder is half. Of additions are contained with angular sectors formed by two semi-infinite lines beginning at the geometric center of such lenses and whose angles between the two fixed lines greater than 130. omicron 1 5. Lens according to claim 14, where the angle is covered between 160 omicron and 165 omicron 1. 6. Lens according to claim 5, where the said remote viewing area set up in The upper part of such a lens by a line formed by a point where the value of the cylinder is half. The additions are contained by angular sectors formed by two semi-infinite lines beginning at the center of the geometry of the aforementioned lenses and with a cross between the two given greater than 130omicron. 1 7. Lens according to claim 16, where the angle is covered between 160 omicron and 165 omicron.