A rotating mechanism of AR glasses with retractable temples

By designing a rotating mechanism for AR glasses with retractable temples, the problem of inconvenient temple length adjustment is solved, enabling precise adjustment and stable fixation of the temples, thus improving wearing comfort and safety.

CN224471906UActive Publication Date: 2026-07-07SHENZHEN ELEMENTPLUS MATERIAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN ELEMENTPLUS MATERIAL TECH CO LTD
Filing Date
2025-10-09
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing AR glasses' rotating structure cannot adjust the temple length, resulting in a poor wearing experience for people with larger or smaller head shapes.

Method used

A rotating mechanism for AR glasses with retractable temples was designed. By combining the telescopic component and the rotating component, the length of the temples can be precisely adjusted and fixed. This includes the cooperation between the ball plunger and the limiting hole in the telescopic component, as well as the damping force of the pin and friction plate in the rotating connection, to ensure the stable suspension and secure wearing of the temples.

Benefits of technology

It enables precise adjustment of the temple length, avoiding discomfort and eye misalignment, ensuring stable fixation of the temples, and improving wearing comfort and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of rotation mechanism of AR glasses with telescopic temple, belong to intelligent wearable equipment technical field, including glasses frame, the side of glasses frame is provided with telescopic component that can be well adjusted glasses leg length. The utility model is provided with telescopic component, when using, user can hand pull temple body, along with the sliding of temple body, when ball head plunger on mounting plate slides onto multiple sets of limit hole, ball head plunger will fall into multiple sets of limit hole under the action of internal spring, will emit 'tata', can accurately adjust the length of temple body, for left and right two temple bodies, user can be adjusted according to the same method, can ensure that left and right two temple bodies are adjusted to the same length, avoid the problem such as wearing uncomfortable, glasses skew caused by the length inconsistency of temple body, improve the overall wearing effect of glasses.
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Description

Technical Field

[0001] This utility model relates to the field of smart wearable device technology, and more specifically, to a rotating mechanism for AR glasses with retractable temples. Background Technology

[0002] AR glasses provide a real-time visual enhancement experience by overlaying virtual information onto the real world. Their main functions include real-time navigation, information display, remote collaboration, motion tracking, and health monitoring. Wearers can access information without using traditional screens and can view notifications, maps, work data, and other content without interrupting their daily activities. The benefits of AR glasses include improved work efficiency, enhanced learning experience, personalized services, and innovative application scenarios in fields such as healthcare, education, and entertainment.

[0003] The existing technology still has the following drawbacks:

[0004] Currently, the rotating mechanism of AR glasses cannot effectively adjust the temple length, resulting in a poor wearing experience for people with larger or smaller head shapes. Therefore, a rotating mechanism for AR glasses with retractable temples is proposed. Utility Model Content

[0005] The purpose of this invention is to address the problem that the current AR glasses rotation mechanism cannot effectively adjust the temple length, resulting in a poor user experience for people with large or small head shapes. This invention provides a rotation mechanism for AR glasses with retractable temples to solve the problems mentioned in the background.

[0006] To achieve the above-mentioned objectives, this utility model provides the following technical solution:

[0007] The present invention is as follows: a rotating mechanism for AR glasses with retractable temples, including a glasses frame, wherein a retractable component is provided on one side of the glasses frame to adjust the length of the temples.

[0008] The telescopic assembly includes a rectangular block fixedly connected to one side of the eyeglass frame. A frame connector is bolted to one side of the rectangular block. A temple connector is rotatably connected to the bottom of the frame connector. Multiple sets of limiting holes are fixedly provided on the temple connector. A temple body is slidably connected to one side of the temple connector. A mounting plate is fixedly installed on the inner side wall of the temple body. A ball-head plunger is fixedly installed on the mounting plate.

[0009] As a preferred technical solution of this utility model, the frame connector is internally rotatably connected with a pin, and a friction plate is fixedly provided on one side of the frame connector, the friction plate being rotatably connected to the temple connector.

[0010] As a preferred technical solution of this utility model, a liner is fixedly installed on the outer wall of the temple connector, and the liner is located on one side of the frame connector.

[0011] As a preferred technical solution of this utility model, the inside of the temple body is provided with a groove, which is adapted to the shape of the temple connector and the liner.

[0012] As a preferred technical solution of this utility model, the temple connector is located between the frame connector and the friction plate, and the liner is located on the inner side of the temple body.

[0013] As a preferred technical solution of this utility model, a photochromic lens is snapped into the eyeglass frame, and the number of photochromic lenses is two sets arranged symmetrically.

[0014] As a preferred technical solution of this utility model, a silicone pad is fixedly installed on the inner side wall of the temple body, and the surface of the silicone pad is provided with multiple sets of protrusions.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] 1. With the telescopic component, users can manually pull the temple body during use. As the temple body slides, when the ball plunger on the mounting plate slides onto multiple sets of limiting holes, the ball plunger will fall into the multiple sets of limiting holes under the action of the internal spring, making a "clicking" sound. This allows for precise adjustment of the length of the temple body. Users can adjust the left and right temple bodies in the same way to ensure that the left and right temple bodies are adjusted to the same length, avoiding problems such as discomfort and glasses tilting caused by inconsistent temple body lengths, thus improving the overall wearing effect of the glasses.

[0017] 2. Through the designed rotating component, when the user begins to wear the glasses, the temple body begins to unfold under the force of the head. Therefore, the temple connecting piece rotates around the pin. During this process, the torsion spring begins to deform. The limiting plate plays a role in limiting the deformation range of the torsion spring, preventing the torsion spring from being damaged due to excessive torsion, and ensuring that it can work within the normal elastic range. When the temple body opens to an angle that fits more closely with the head, the temple body begins to exert a certain pressure on the head, forming an initial clamping force, thereby firmly fixing the glasses on the head and preventing them from falling off. The temple connecting piece and the friction plate generate damping force, thereby realizing the function of the temple body freely hovering from the retracted state to the open state. Attached Figure Description

[0018] Figure 1 A schematic diagram of the rotating mechanism of the AR glasses with retractable temples provided by this utility model;

[0019] Figure 2 A side view of the rotating mechanism of the AR glasses with retractable temples provided by this utility model;

[0020] Figure 3 A partially enlarged side view of the rotating mechanism of the AR glasses with retractable temples provided by this utility model;

[0021] Figure 4 A schematic diagram of the temple body structure of the rotating mechanism of the AR glasses with retractable temples provided by this utility model.

[0022] Figure 5 This is a schematic diagram of the telescopic component structure of the rotating mechanism of the AR glasses with telescopic temples provided by this utility model.

[0023] The diagram shows: 1. Eyeglass frame; 2. Telescopic assembly; 201. Rectangular block; 202. Frame connector; 203. Temple connector; 204. Limiting hole; 205. Temple body; 206. Mounting plate; 207. Ball plunger; 3. Pin; 4. Friction pad; 5. Wire shield; 6. Photochromic lens; 7. Silicone gasket. Detailed Implementation

[0024] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model.

[0025] Therefore, the following detailed description of the embodiments of this utility model is not intended to limit the scope of the claimed utility model, but merely to illustrate some embodiments of the utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without inventive effort are within the scope of protection of this utility model.

[0026] It should be noted that, unless otherwise specified, the embodiments and features and technical solutions in the present invention can be combined with each other.

[0027] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0028] like Figure 1 As shown, this embodiment proposes a rotating mechanism for AR glasses with retractable temples, including a glasses frame 1, and a telescopic component 2 that can effectively adjust the length of the temples is provided on one side of the glasses frame 1.

[0029] like Figure 2 , Figure 4 and Figure 5 As shown, the telescopic component 2 includes a rectangular block 201 fixedly connected to one side of the eyeglass frame 1. A frame connector 202 is bolted to one side of the rectangular block 201. A temple connector 203 is rotatably connected to the bottom of the frame connector 202. Multiple sets of limiting holes 204 are fixedly opened on the temple connector 203. A temple body 205 is slidably connected to one side of the temple connector 203. An mounting plate 206 is fixedly installed on the inner side wall of the temple body 205. A ball plunger 207 is fixedly installed on the mounting plate 206. In use, the user can manually pull the temple body 205. As the temple body 205 slides, when the ball plunger 207 on the mounting plate 206 slides onto the multiple sets of limiting holes 204, the ball plunger 207 will fall into the multiple sets of limiting holes 204 under the action of the internal spring, making a "clicking" sound. The length of the temple body 205 can be precisely adjusted. The user can adjust the left and right temple bodies 205 in the same way to ensure that the left and right temple bodies 205 are adjusted to the same length, avoiding problems such as discomfort and glasses tilting caused by inconsistent lengths of the temple bodies 205, thus improving the overall wearing effect of the glasses.

[0030] like Figure 3 As shown, a pin 3 is rotatably connected inside the frame connector 202, and a friction plate 4 is fixedly provided on one side of the frame connector 202. The friction plate 4 is rotatably connected to the temple connector 203. In use, a torsion spring and a limiting plate are fixedly installed on the pin 3. The temple connector 203 is fixedly connected to the torsion spring and the limiting plate respectively. When the user starts to wear the glasses, the temple body 205 begins to unfold under the force of the head. Therefore, the temple connector 203 will rotate around the pin 3. During this process, the torsion spring begins to deform. The limiting plate plays a role in limiting the deformation range of the torsion spring, preventing the torsion spring from being damaged due to excessive torsion, and ensuring that it can work within the normal elastic range. When the temple body 205 is opened to an angle that fits more closely with the head, the temple body 205 begins to exert a certain pressure on the head, forming an initial clamping force, thereby firmly fixing the glasses on the head and preventing them from falling. The temple connector 203 generates a damping force with the friction plate 4, thereby realizing the function of the temple body 205 freely hovering from the retracted state to the open state.

[0031] like Figure 3 As shown, a wire shield 5 is fixedly installed on the outer wall of the temple connector 203, and the wire shield 5 is located on one side of the frame connector 202. When the temple body 205 is extended or retracted, the wiring will also move and deform to a certain extent. The wire shield 5 plays a role in guiding and protecting the wiring during this process.

[0032] like Figure 4 and Figure 5As shown, the temple body 205 has a groove inside, which conforms to the shape of the temple connector 203 and the liner 5. The temple connector 203 and the liner 5 can fit perfectly into the groove of the temple body 205. During the adjustment of the temple body 205, the groove restricts the movement path of the temple body 205, effectively preventing the temple body 205 from falling off during the adjustment process.

[0033] like Figure 3 As shown, the temple connector 203 is located between the frame connector 202 and the friction plate 4, and the liner 5 is located inside the temple body 205. When the user adjusts the temple body 205, the friction plate 4 will generate moderate resistance during the opening and closing of the temple body 205, achieving the function of free hovering.

[0034] like Figure 2 As shown, photochromic lenses 6 are snapped into the eyeglass frame 1. There are two sets of photochromic lenses 6 arranged symmetrically. In strong sunlight outdoors, the photochromic lenses 6 quickly darken, effectively blocking ultraviolet rays and strong light, reducing the stimulation and damage of light to the eyes. In indoor or low-light environments, the lenses automatically return to transparency, ensuring clear vision.

[0035] like Figure 2 As shown, a silicone pad 7 is fixedly installed on the inner wall of the temple body 205, and the surface of the silicone pad 7 is provided with multiple sets of protrusions. The silicone pad 7 allows the temple body 205 to be firmly fixed to both sides of the head, preventing the device from falling off.

[0036] Specifically, the rotating mechanism of this AR glasses with retractable temples, when in use: (e.g.) Figure 2 , Figure 4 and Figure 5 As shown, the user can manually pull the temple body 205. As the temple body 205 slides, when the ball plunger 207 on the mounting plate 206 slides onto the multiple sets of limiting holes 204, the ball plunger 207 will fall into the multiple sets of limiting holes 204 under the action of the internal spring, making a "clicking" sound. The length of the temple body 205 can be precisely adjusted. For the left and right temple bodies 205, the user can adjust them in the same way to ensure that the left and right temple bodies 205 are adjusted to the same length, avoiding problems such as discomfort and glasses tilting caused by inconsistent lengths of the temple bodies 205, thus improving the overall wearing effect of the glasses. When the temple body 205 is opened to an angle that fits more closely to the head, the temple body 205 begins to exert a certain pressure on the head, forming an initial clamping force, thereby firmly fixing the glasses to the head and preventing them from falling off. The temple connector 203 and the friction plate 4 generate a damping force, thereby realizing the function of the temple body 205 freely hovering from the stored state to the open state.

[0037] All technical features in this embodiment can be freely combined according to actual needs.

[0038] The above embodiments are preferred implementations of this utility model. In addition, this utility model can also be implemented in other ways. Any obvious substitutions without departing from the concept of this technical solution are within the protection scope of this utility model.

Claims

1. A rotating mechanism for AR glasses with retractable temples, comprising a glasses frame (1), characterized in that, The eyeglass frame (1) is provided with a telescopic component (2) on one side that can effectively adjust the length of the temples. The telescopic component (2) includes a rectangular block (201) fixedly connected to one side of the eyeglass frame (1). A frame connector (202) is bolted to one side of the rectangular block (201). A temple connector (203) is rotatably connected to the bottom of the frame connector (202). Multiple sets of limiting holes (204) are fixedly opened on the temple connector (203). A temple body (205) is slidably connected to one side of the temple connector (203). An mounting plate (206) is fixedly installed on the inner side wall of the temple body (205). A ball plunger (207) is fixedly installed on the mounting plate (206).

2. The rotating mechanism of AR glasses with retractable temples according to claim 1, characterized in that, The frame connector (202) is rotatably connected to a pin (3), and a friction plate (4) is fixedly provided on one side of the frame connector (202). The friction plate (4) is rotatably connected to the temple connector (203).

3. The rotating mechanism of AR glasses with retractable temples according to claim 1, characterized in that, A liner plate (5) is fixedly installed on the outer wall of the temple connector (203), and the liner plate (5) is located on one side of the frame connector (202).

4. The rotating mechanism of AR glasses with retractable temples according to claim 1, characterized in that, The temple body (205) has a groove inside, which is adapted to the shape of the temple connector (203) and the liner (5).

5. The rotating mechanism of AR glasses with retractable temples according to claim 4, characterized in that, The temple connector (203) is located between the frame connector (202) and the friction plate (4), and the liner (5) is located inside the temple body (205).

6. The rotating mechanism of AR glasses with retractable temples according to claim 1, characterized in that, The eyeglass frame (1) has photochromic lenses (6) attached inside, and there are two sets of photochromic lenses (6) arranged symmetrically.

7. The rotating mechanism of AR glasses with retractable temples according to claim 1, characterized in that, A silicone pad (7) is fixedly installed on the inner wall of the temple body (205), and the surface of the silicone pad (7) is provided with multiple sets of protrusions.