Intelligent assisted vision glasses
First Claim
1. A pair of intelligent assisted vision glasses, including an eyeglass body provided with a left frame, a right frame, a pair of nosepads, a left temple and a right temple, the pair of nosepads arranged between the left frame and the right frame and respectively pivotally connected to the left frame and the right frame, the left temple pivotally connected to the left frame, and the right frame pivotally connected to the right temple, which is characterized in:
- two accommodation rooms arranged respectively at upper inner sides and lower inner sides of the left frame and two accommodation rooms arranged respectively at upper inner sides and lower inner sides of the right frame;
transparent liquid within each of the accommodation rooms;
a set of left eye lenses engaged with the left frame and a set of right eye lenses engaged with the right frame, each of both the set of left eye lenses and the set of right eye lenses provided with a front lens and a rear lens, a void formed between the front lens and the rear lens and connected with each of the accommodation rooms;
a microelectromechanical component positioned on the eyeglass body;
a sensor positioned on the eyeglass body, electrically coupled to the microelectromechanical component, and configured to detect axial convex lengths and curvatures of corneas for user'"'"'s eyeballs and generate a control signal; and
a pair of push units respectively arranged at upper ends of the left frame with one push unit in contact with a front lens and one push unit in contact with a rear lens, and a pair of push units respectively arranged at upper ends of the right frame with one push unit in contact with a front lens and one push unit in contact with a rear lens, and each pair of push units is electrically coupled to the microelectromechanical component, wherein the microelectromechanical component in response to the detections from the sensor, controls the push units with the control signal to push the front lens and the rear lens of the set of left eye lenses and/or the set of right eye lenses to move towards/backwards to approach/separate from each other, whereby curvature of the set of left eye lenses and/or the set of right eye lenses is changed by the controlled push units, and flowing amount of the transparent liquid in the void within the set of left eye lenses and/or the set of right eye lenses varies corresponding to the changed curvature.
1 Assignment
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Accused Products
Abstract
A pair of intelligent assisted vision glasses includes an eyeglass body, the left and right frames respectively having two accommodation rooms with transparent liquid, a set of left eye lenses and a set of right eye lenses respectively in the left and right frames, a microelectromechanical component, a sensor electrically connected with the microelectromechanical component for detecting the axial length of eyeball and the curvature of the cornea to generate control signal, and a pair of push units respectively arranged at upper ends of the left frame and a pair of push units respectively arranged at upper ends of the right frame and each pair of push units is electrically connected with the microelectromechanical component. The microelectromechanical component controls the push units to change the curvature of the set of left and/or right eye lenses according to the controlling signal. The flow volume of the transparent liquid in the voids between the set of left and/or right eye lenses is changed corresponding to the curvature of the set of left and/or right eye lenses.
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Citations
10 Claims
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1. A pair of intelligent assisted vision glasses, including an eyeglass body provided with a left frame, a right frame, a pair of nosepads, a left temple and a right temple, the pair of nosepads arranged between the left frame and the right frame and respectively pivotally connected to the left frame and the right frame, the left temple pivotally connected to the left frame, and the right frame pivotally connected to the right temple, which is characterized in:
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two accommodation rooms arranged respectively at upper inner sides and lower inner sides of the left frame and two accommodation rooms arranged respectively at upper inner sides and lower inner sides of the right frame; transparent liquid within each of the accommodation rooms; a set of left eye lenses engaged with the left frame and a set of right eye lenses engaged with the right frame, each of both the set of left eye lenses and the set of right eye lenses provided with a front lens and a rear lens, a void formed between the front lens and the rear lens and connected with each of the accommodation rooms; a microelectromechanical component positioned on the eyeglass body; a sensor positioned on the eyeglass body, electrically coupled to the microelectromechanical component, and configured to detect axial convex lengths and curvatures of corneas for user'"'"'s eyeballs and generate a control signal; and a pair of push units respectively arranged at upper ends of the left frame with one push unit in contact with a front lens and one push unit in contact with a rear lens, and a pair of push units respectively arranged at upper ends of the right frame with one push unit in contact with a front lens and one push unit in contact with a rear lens, and each pair of push units is electrically coupled to the microelectromechanical component, wherein the microelectromechanical component in response to the detections from the sensor, controls the push units with the control signal to push the front lens and the rear lens of the set of left eye lenses and/or the set of right eye lenses to move towards/backwards to approach/separate from each other, whereby curvature of the set of left eye lenses and/or the set of right eye lenses is changed by the controlled push units, and flowing amount of the transparent liquid in the void within the set of left eye lenses and/or the set of right eye lenses varies corresponding to the changed curvature. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification