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CN-224232047-U - Glasses with glasses

CN224232047UCN 224232047 UCN224232047 UCN 224232047UCN-224232047-U

Abstract

The embodiment of the application discloses glasses, and relates to the technical field of glasses. The glasses comprise glasses legs, a glasses frame and a spring needle connector, wherein the surfaces of the glasses legs are attached to a sensor through nano silver paste, the surfaces of the glasses frames are attached to the sensor through the nano silver paste, and the spring needle connector is arranged at the joint of the glasses legs and the glasses frame and used for connecting pins on the glasses legs and pins on the glasses frame. So, this scheme can all set up the sensor at mirror leg and picture frame, and realizes good contact through the spring needle connector.

Inventors

  • ZHU JIANFENG

Assignees

  • 雷鸟创新技术(深圳)有限公司

Dates

Publication Date
20260512
Application Date
20250610

Claims (10)

  1. 1. An eyeglass, the eyeglass comprising: the surface of the glasses leg is attached with the sensor through nano silver paste; a mirror frame, the surface of which is attached to the sensor through the nano silver paste; The spring needle connector is arranged at the joint of the glasses leg and the glasses frame and is used for connecting pins on the glasses leg and pins on the glasses frame.
  2. 2. The eyewear of claim 1, wherein the spring needle connector comprises a hub and a probe; the needle seat is arranged on one of the glasses leg and the glasses frame; the probe is arranged on the other one of the glasses leg and the glasses frame; the needle seat and the probe are conductive terminals; the needle seat and the probe are in elastic contact when the glasses legs are opened.
  3. 3. The eyewear of claim 1, wherein the eyewear comprises: A touch chip attached to the glasses leg through nano silver paste; the spring needle connector is particularly used for connecting the touch chip on the glasses leg and the sensor on the glasses frame.
  4. 4. The eyewear of claim 1, wherein the eyewear comprises: A touch chip attached to the mirror frame through nano silver paste; The spring needle connector is particularly used for connecting the touch chip on the mirror frame and the sensor on the mirror leg.
  5. 5. The glasses according to claim 3 or 4, wherein the touch chip comprises a flash memory, a micro control unit, a random access memory and a read only memory; the touch chip is used for determining a touch position according to the capacitance signals acquired by the sensor.
  6. 6. The pair of spectacles of claim 1, wherein the sensor is a touch sensor for generating a capacitance signal when the touch sensor is touched by a human body, and wherein the capacitance signal is used for determining a touch position.
  7. 7. The eyewear of claim 1, wherein the sensor attached to the temple is disposed on a surface of the frame of the temple; the sensor attached to the frame is disposed on the front frame surface of the glasses.
  8. 8. The spectacles according to claim 1, wherein a sliding initiation area is provided in the frame adjacent to the temple; And the tail end of the glasses leg is provided with a clicking area.
  9. 9. The eyewear of claim 1, wherein the eyewear is augmented reality eyewear.
  10. 10. The eyewear of claim 9, wherein the augmented reality eyewear comprises any one or more of: A display screen; A waveguide sheet; a light engine; a signal amplifying unit; a signal acquisition and storage unit; And a central processing unit.

Description

Glasses with glasses Technical Field The embodiment of the application relates to the technical field of glasses, in particular to a pair of glasses. Background In the interactive design of augmented reality (Augmented Reality, AR) glasses, in order to realize efficient and quick man-machine interaction, a main scheme is to integrate a touch sensor at a temple portion. However, the physical width of the touch area is generally narrower, subject to the spatial size constraints of the smart AR glasses temple. The big data collection and analysis of the user operation behaviors show that most users have a habit of misplacing the touch operation in the picture frame area in the actual use process. However, due to the structural characteristics of the rotating shaft at the joint of the lens frame and the lens legs, the touch sensor is exposed to the risk of contact stability caused by mechanical movement if arranged in the lens frame area, and the opening and closing action of the rotating shaft may cause abrasion, displacement or electrical connection failure of the sensor contact, so that the interaction reliability is remarkably reduced. Therefore, the touch sensor of the AR glasses in the related art cannot be effectively deployed in the frame area, and can only concentrate on the temple portion. Because the physical space limitation of the glasses leg causes the narrow touch area, and the user operation habit and the sensor layout have space mismatch, the false touch rate is obviously increased. Disclosure of utility model The embodiment of the application provides glasses, which can be provided with sensors on both glasses legs and glasses frames, and realize good contact through a spring needle connector. The embodiment of the application provides glasses, which comprise: the surface of the glasses leg is attached with the sensor through nano silver paste; a mirror frame, the surface of which is attached to the sensor through the nano silver paste; The spring needle connector is arranged at the joint of the glasses leg and the glasses frame and is used for connecting pins on the glasses leg and pins on the glasses frame. In one embodiment, the pogo pin connector includes a hub and a probe; the needle seat is arranged on one of the glasses leg and the glasses frame; the probe is arranged on the other one of the glasses leg and the glasses frame; the needle seat and the probe are conductive terminals; the needle seat and the probe are in elastic contact when the glasses legs are opened. In one embodiment, the glasses comprise: A touch chip attached to the glasses leg through nano silver paste; the spring needle connector is particularly used for connecting the touch chip on the glasses leg and the sensor on the glasses frame. In one embodiment, the glasses comprise: A touch chip attached to the mirror frame through nano silver paste; The spring needle connector is particularly used for connecting the touch chip on the mirror frame and the sensor on the mirror leg. In one embodiment, the touch chip includes a flash memory, a micro control unit, a random access memory, and a read only memory; the touch chip is used for determining a touch position according to the capacitance signals acquired by the sensor. In one embodiment, the sensor is a touch sensor, and is configured to generate a capacitance signal when a human body touches the touch sensor, where the capacitance signal is used to determine a touch position. In one embodiment, the sensor attached to the temple is disposed on the surface of the outer frame of the temple; the sensor attached to the frame is disposed on the front frame surface of the glasses. In one embodiment, a sliding starting area is arranged in the area, close to the glasses legs, of the glasses frame; And the tail end of the glasses leg is provided with a clicking area. In one embodiment, the glasses are augmented reality glasses. In one embodiment, the augmented reality glasses include any one or more of the following: A display screen; A waveguide sheet; a light engine; a signal amplifying unit; a signal acquisition and storage unit; And a central processing unit. The embodiment of the application has the following beneficial effects: The spring needle connector is arranged at the joint of the glasses leg and the glasses frame, so that the pins on the glasses leg and the pins on the glasses frame can be effectively connected, the sensors on the glasses leg and the glasses frame can be connected, the problem that the touch area is narrow due to the fact that the sensors are arranged in the area of the glasses leg only is solved, and the space mismatch exists between the user operation inertia and the sensor layout, so that the false touch rate can be effectively reduced. Drawings In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious