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CN-224232271-U - Simulation eye based on micro display screen

CN224232271UCN 224232271 UCN224232271 UCN 224232271UCN-224232271-U

Abstract

The present disclosure relates to a simulated eye based on a micro display screen, the simulated eye includes at least one pair of curved surface bodies similar to the physical form of the eye, and an eye simulation unit for performing data processing and simulated image generation, the curved surface bodies include a display screen provided with a screen display control unit, and the eye simulation unit is connected with the screen display control unit, so that the display screen can display the dynamic simulation effect of the eye. The simulation eye based on the micro display screen has good simulation effect, and can simulate the physical form of the appearance of the eye, such as transparent cornea and eye bulge. But also simulate the dynamic effects of the eye, such as displaying iris pattern colors, pupil size, simulating eye movement changes, etc.

Inventors

  • LI ZHIMIN

Assignees

  • 李志民

Dates

Publication Date
20260512
Application Date
20250509

Claims (10)

  1. 1. A simulated eye based on a miniature display screen, said simulated eye comprising: At least one pair of curved surfaces approximating the physical form of eyes, the curved surfaces including a display screen provided with a screen display control unit (10), and And the eye simulation unit (20) is used for carrying out data processing and simulation picture generation, and the eye simulation unit (20) is connected with the screen display control unit (10) so that the display screen can display the dynamic simulation effect of eyes.
  2. 2. The simulated eye based on a micro display screen according to claim 1, wherein the display screen is a flat display screen (30), the curved body further comprises a cover body (40) having a curved structure and detachably fixed on the outer side of the flat display screen (30).
  3. 3. The simulated eye based on a micro display screen according to claim 2, wherein the flat display screen (30) is an LCD display screen or an OLED display screen.
  4. 4. The simulated eye based on a micro display screen according to claim 2, wherein the main body of the cover (40) is transparent.
  5. 5. The simulated eye based on a micro display screen as claimed in claim 4, wherein said main body of said cover (40) is any one of glass, quartz or plastic.
  6. 6. The simulated eye based on a micro display screen according to claim 2, wherein the end of the cover (40) is provided with at least 2 elastic buckles (410) along the periphery of the cover (40), and the cover (40) is fixed on the outer side of the flat display screen (30) through the elastic buckles (410).
  7. 7. The simulated eye based on a micro display screen according to claim 6, wherein the elastic buckle (410) comprises a first arm (411) with one end fixed on the cover (40) and extending in a direction perpendicular to the end plane direction of the cover (40) and in a direction away from the cover (40), and a second arm (412) with one end connected with the other end of the first arm (411); The included angle formed by the connection part of the first arm part (411) and the second arm part (412) is an acute angle structure, the second arm part (412) extends along the direction inclined to the first arm part (411) and towards the direction close to the plane of the end part of the cover body (40), and the other end of the second arm part (412) is arranged at the position close to the plane of the end part of the cover body (40), so that the other end of the second arm part (412) can apply pressure facing the plane of the end part of the cover body (40) by using elasticity.
  8. 8. The simulated eye based on a micro display screen according to claim 2, wherein the end of the cover (40) is formed with a groove (420) along the circumference of the cover (40) capable of fixing the flat display screen (30) such that the cover (40) is fixed at the outer side of the flat display screen (30).
  9. 9. The simulated eye based on a micro display screen according to claim 1, wherein the display screen is a curved display screen (50).
  10. 10. The simulated eye based on a micro display screen according to claim 9, wherein the curved display screen (50) is an OLED display screen or a flexible display screen.

Description

Simulation eye based on micro display screen Technical Field The present disclosure relates to the field of biomimetic robotic technology, and more particularly, to a simulated eye based on a micro display screen. Background With the continuous breakthrough of AI, robot manufacturing industry and new materials, it will be daily to create a simulation robot that is behavioural and expressive as compared with a real person from humans. In this process, the manufacture and simulation of eyes are very important links, and even it can be said that whether a future robot can cross the terrorist valley effect depends largely on the effect of the eye simulation. At present, in the field of medical bionics, the simulation and simulation research of eyes are compared with a representative scheme of constructing a prosthesis similar to retina, transmitting captured signals to optic nerve through photoelectric signal conversion, and then analyzing and imaging by optic nerve afferent brain. If this scheme is applied to simulation fabrication, not only are many technical challenges faced, but also the cost is high. In the field of humanoid robots and solid doll manufacturing, the current approach is to control the eyeball prosthesis to simulate the movement of human eyes mainly by a mechanical device, and even a glass spherical eye prosthesis is directly used in a simple way. It is obvious that since the eyeball prosthesis pattern is fixed, the eyeball prosthesis movement is controlled by using a mechanical device, so that the real change (such as the change of pupils and irises when the light or focal length is changed) of all eyes can not be simulated, and the real-time effect of synchronous tracking of the eyes on a moving object can not be simulated. In general, in terms of fields such as humanoid robots, biomimetic robots, entity figures, robot pets, biomimetic pets and the like, at present, simulation schemes for eyes are not ideal enough. Disclosure of utility model The object of the present utility model is to at least partly avoid or solve the above-mentioned technical problems. Specifically, the utility model provides a simulation eye based on a micro display screen, which comprises the following components: At least one pair of curved surfaces similar to the physical form of eyes, the curved surfaces comprising a display screen provided with a screen display control unit, and And the eye simulation unit is used for carrying out data processing and simulation picture generation, and is connected with the screen display control unit so that the display screen can display the dynamic simulation effect of eyes. According to one embodiment of the utility model, the display screen is a flat display screen, and the curved surface body further comprises a cover body which is in a curved surface structure and is detachably fixed on the outer side of the flat display screen. According to one embodiment of the present utility model, the flat display screen is an LCD display screen or an OLED display screen. According to one embodiment of the present utility model, the main body of the cover is made of transparent material. According to one embodiment of the present utility model, the main body of the cover is made of any one of glass, quartz or plastic. According to one embodiment of the utility model, the end part of the cover body is provided with at least 2 elastic buckles along the periphery of the cover body, and the cover body is fixed on the outer side of the flat display screen through the elastic buckles. According to one embodiment of the present utility model, the elastic buckle includes a first arm portion having one end fixed to the cover and extending in a direction perpendicular to an end plane direction of the cover and in a direction away from the cover, and a second arm portion having one end connected to the other end of the first arm portion; The included angle formed by the connection part of the first arm part and the second arm part is an acute angle structure, the second arm part extends along the direction inclined to the first arm part and towards the direction close to the plane of the end part of the cover body, and the other end of the second arm part is arranged at the position close to the plane of the end part of the cover body, so that the other end of the second arm part can apply pressure facing the plane of the end part of the cover body by utilizing elasticity. According to one embodiment of the utility model, the end of the cover is formed with a groove along the periphery of the cover, which can fix the flat display screen, so that the cover is fixed on the outer side of the flat display screen. According to one embodiment of the utility model, the display screen is a curved display screen. According to one embodiment of the utility model, the curved display screen is an OLED display screen or a flexible display screen. The utility model has the positive effects that: The simulation