TH90921A - Static scaling facial area that has optical communication with dynamic vision correction device. - Google Patents

Abstract

DC60 This invention offers a corrective lens, where the lens has an additional area. Scale and dynamic vision correction device Dynamic vision correction device and augmentation area. Such sizes are communicating with each other by light. The area of such an increase in size has magnification which is less than the power. Magnification used in the user's close-view distance. Such a dynamic vision correction device when in ready condition Working will provide the additional required light output for the wearer to see clearly at close distances.This combination produces an unexpected effect that not only gives the wearer a clear view at a distance Only medium or near But the degree of distortion, misalignment, distortion And the danger to unwanted eyesight has also been reduced Down significantly as well This invention presents a corrective lens in which the lens has an augmentation region. Scale and dynamic vision correction device Dynamic vision correction device and addition area. Such dimensions have pushed optical communication. The area of such an increase in size has magnification which is less than the power. Magnification used in the user's close-view distance. Such a dynamic vision correction device when in ready condition The work will provide the required additional light output for the participant to see clearly at close distances. This combination produces an unexpected effect that not only allows the participant to see clearly, but also Clearly at a distance Only medium or far But the degree of distortion, misalignment, distortion And the danger to unwanted eyesight has also been reduced Down significantly as well

Claims (8)

1. User corrective lenses that contain the following components: The incremental augmentation area, where such an enlargement supplement has a magnification in it, and a dynamically adjustable diopter corrector when such a dynamic correction rectifier is adjusted by the use of power or mechanical force. And where such optical power of the aforementioned dynamic correction device, when magnified in the aforementioned magnification of the ancillary area, is equal to the visual correction of the magnification used in the range of 2. Optics as described in claim 1, whose magnification is less than the magnification used in claim 1. User's close-view range 3. Corrective lenses as stated in claim 1, with the said magnification approximately 50% of the magnification used in the near-sighting range. Rights 1 where such magnification is between approximately 30% and approximately 70% of the magnification used in the close-view range. 5. Diopter lenses as stated in claim 1, where such optical power, when added to Expanding As mentioned above, it is sufficiently equal to the magnification used in the user's near field of vision. 6. Corrective lenses, as stated in claim 1, with the said enhancement area on the surface. Front face of the lens 7. Corrective lenses as described in claim 1, with the said enhancement area on the surface. Front-back of the lens 8. Corrective lenses as stated in claim 1, where the above-mentioned enlargement area is embedded in the lens. 9. Corrective lenses as described in claim 1, where the dynamic correction device It is on The front surface of the lens 1 0. Corrective lenses as described in claim 1, with such dynamic correction devices on Front-back surface of the lens 1 1. Corrective lenses as described in claim 1, where such dynamic correction devices are implanted. It is inside the lens 1 2. Refractive lenses as stated in claim 1 where such dynamic correction devices are Electromechanical Correct Correction Device 1 3. Corrective Lenses as stated in claim 1, where such Dynamic Correction Devices are Crescent-shaped lenses 1 4. Corrective lenses as described in claim 1, where such dynamic correction devices are Fluid-Characterized Lenses 1 5. Corrective Lenses as described in claim 1, where such Dynamic Correction Devices are A movable dynamic correction device with at least one part of the movable component 1 6. Corrective lenses as described in claim 1, where such dynamic correction devices are Gaseous lenses 1 7. Corrective lenses as described in claim 1, where such dynamic correction devices are Membrane lenses with interchangeable membranes 1 8. Corrective lenses as described in claim 1, with the magnification between approximately +0.50 diopter and approximately +1.50. Optic 1 9. Corrective lenses as described in claim 1, with the aforementioned optical power ranging from approximately +0.50 diopter to approx. +2.25 diopter 2 0. Rights 1, provided that such dynamic vision correction devices have Width between approx. 24 mm to approx. 40 mm 2 1. Diopter lenses as stated in claim 1, where the aforementioned opening of the area enhancing the size It has a length between approximately 11 to approx. 20 mm 2 2. Optics, as stated in claim 1, with at least part of the upper outer edge of The dynamic correction device is located above the optimum point of the lens. 2. 3. The corrective lens, as stated in claim 1, where the upper outer perimeter of the correction device is placed at the top of the optical corrector. Such dynamic designs lie above the optimum point of the lens between approximately 0 mm and approximately half the length. 2 4. Corrective lenses, as stated in claim 1, where the upper perimeter of the correction device is the vertical length of the correction device. Such dynamic designs lie above the optimum point of the lens between about one eighth the length of the The vertical length of the aforementioned dynamic corrector is approximately three eighths of the vertical length of the The aforementioned dynamic corrective lenses 2 5. Corrective lenses are described in claim 1, provided that such dynamic lenses are not ready. It works until the user's eye is looking through the upper outer perimeter of the dynamic correction device. 2 6. Corrective lenses as described in claim 1, which also contains the compound associated with the device. 2 7. Corrective lenses as described in claim 1, where such optical power consists of two optical powers. 2 8. Corrective lenses as stated in claim 1, where such optical power contains positive power. And no light power at all. 2 9. Optics as stated in claim 1, where such light power is changeable 3. 0. Corrective lenses as stated in claim 1, where such dynamic correction devices Able to be in a condition ready to work and a condition not ready to work 3 1. Corrective lenses as described in claim 1, where such dynamic correction devices are omitted. Distance from the area to increase the size of the above 3 2. Optics as described in claim 1, which also contains sensors for controlling the optical power 3. 3. Optics correction as stated in claim 32, where the detector allows the optical correction equipment. Such a dynamic model is not available when the user looks beyond the medium term 3. 4. Corrective lenses as stated in claim 32, where the detector allows the optical correction equipment. Such a dynamic model is ready when the user looks closer than far. 3 5. Refractive lenses as stated in claim 1, where moderate vision correction is provided. For the user when the user looks through the optimum point when the dynamic vision correction device is ready to work 3. 6. Corrective lenses as described in claim 1, where close-up correction is provided. For the user when the user looks through the ideal point when the dynamic vision correction device is not ready to work 7. Refractive lenses as described in claim 1, provided that the dynamic correction device is Outside the center compared to the aforementioned augmentation area 3 8. Corrective lenses described in claim 1 where they are made from semi-finished lenses.