A smart glasses charging dock that can fit different frames

By designing a contoured groove for a detachable support component that fits the frame, the problem of universality and portability of smart glasses charging devices is solved, achieving multi-frame compatibility and convenient charging.

CN224459312UActive Publication Date: 2026-07-03SHENGLAN TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENGLAN TECH CO LTD
Filing Date
2025-05-30
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing smart glasses charging devices have poor versatility and portability; the charging cases can only be used with specific frames and cannot adapt to frames of different shapes.

Method used

A detachable support component was designed. The contoured groove of the support component is adapted to the bottom contour of the frame. Charging is achieved through the charging terminal of the protruding part. The base and the support component are detachably connected to adapt to different frames.

Benefits of technology

It achieves high compatibility for charging smart glasses with different frames, the charging base is small and easy to carry, and the charging operation is simple.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224459312U_ABST
    Figure CN224459312U_ABST
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Abstract

A charging dock for smart glasses adaptable to different frames includes a base and a support member. The top surface of the base has a partial protrusion forming a protrusion, the top of which is provided with a charging terminal. The support member, in its orthographic projection, is V-shaped and is fitted onto the protrusion and detachably connected to the base. The top surface of the support member has a contoured groove continuously arranged along its length, the shape of which matches the bottom contour of the frame. The contoured groove also has a clearance hole, which is opposite to the charging terminal. Compared with existing technologies, the support member of this invention is detachably connected to the base. When charging other smart glasses, the support member can be removed and a new support member with a contoured groove that matches its shape can be installed. Thus, the charging dock can charge smart glasses with other frames, offering high versatility.
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Description

Technical Field

[0001] This utility model belongs to the technical field of smart glasses charging bases, specifically relating to a smart glasses charging base that can be adapted to different frames. Background Technology

[0002] With the rapid development of smart wearable devices, smart glasses, as a core device integrating display, interaction, and sensing functions, have their charging structure design directly affecting user experience and product reliability. Currently, the mainstream charging method for smart glasses on the market is mainly through their accompanying charging cases. On the one hand, the charging cases can only charge glasses that are compatible with them; other frame shapes cannot be charged, resulting in poor versatility. On the other hand, in addition to the internal charging structure, the charging cases also have an external casing, which is relatively large and lacks portability. Utility Model Content

[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a smart glasses charging dock that can be adapted to different frames.

[0004] To achieve the above objectives, this utility model discloses a smart glasses charging stand that can be adapted to different frames, including a stand body and a support component;

[0005] The top surface of the base body has a partial protrusion to form a protrusion, and a charging terminal is provided on the top of the protrusion;

[0006] The orthographic projection of the support member is in the shape of a herringbone, and it is fitted onto the protrusion and detachably connected to the base. The top surface of the support member is provided with a contoured groove that is continuously arranged along its length. The shape of the contoured groove is adapted to the bottom contour of the frame. The contoured groove is provided with a clearance hole, which is arranged opposite to the charging terminal.

[0007] In one embodiment, the top surface of the seat is provided with a first limiting part and a second limiting part, which are spaced apart along the width direction of the contour groove to respectively limit and cooperate with the two sides of the support member.

[0008] In another embodiment, the protrusion and the support member are located on the rear side of the top surface of the base.

[0009] In another embodiment, the base includes a bottom shell and a surface shell; the bottom shell includes a base plate and a side plate, the base plate is horizontally arranged, and the side plate is vertically connected to the base plate; the bottom and rear side of the surface shell are provided with openings, the bottom and rear side of the surface shell are respectively connected to the base plate and the side plate, and the protrusion is provided on the rear side of the surface shell.

[0010] In another embodiment, the rear side of the protrusion is aligned with the rear side of the surface shell;

[0011] The top surface of the surface shell is recessed downwards at both sides of the protrusion to form a groove, the inner wall of the groove is the first limiting part, and the side plate protrudes from the rear side of the surface shell to form the second limiting part.

[0012] In another embodiment, the surface shell is integrally formed by injection molding.

[0013] In another embodiment, the bottom of the contour groove is provided with a receiving groove, and the base and the support are connected by screws with the screw head located in the receiving groove.

[0014] In another embodiment, a charging port is provided at least one of the rear, left, and rear sides of the base.

[0015] In another embodiment, a retaining element and an elastic element are also included. The retaining element is movably connected to the surface shell and has a pressing part. The two ends of the elastic element are respectively connected to the base and the retaining element, and are used to drive the retaining element to press against the mirror frame through the pressing part.

[0016] In another embodiment, a flexible sleeve is fitted onto the pressing part, and the flexible sleeve is used to press against the mirror frame.

[0017] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0018] The support component has a herringbone shape in its orthographic projection, with a continuous contoured groove on its top surface that matches the bottom contour of the frame. During charging, the smart glasses are secured within the groove, providing support to the bottom contour of the glasses. This large support area ensures a more stable hold. The support component is detachably connected to the base. When charging other smart glasses (different in that they have different bottom frame contours), the support component is removed, and a new support component with a matching contoured groove is installed. This allows the charging base to charge smart glasses with different frames, offering high versatility.

[0019] Compared to charging with a glasses case, charging with a charging stand is more convenient because the charging stand is smaller and easier to carry. Also, there is no need to open / close the glasses case while charging, making it more convenient to use. Attached Figure Description

[0020] Figure 1 This is a three-dimensional structural diagram of a smart glasses charging dock that can be adapted to different frames, as shown in the embodiment.

[0021] Figure 2 for Figure 1 A three-dimensional exploded view of the smart glasses charging dock;

[0022] Figure 3 for Figure 1 A three-dimensional structural diagram of the smart glasses charging dock from another perspective (excluding the bottom shell).

[0023] 100; base shell 110; surface shell 120; protrusion 121; opening 122; charging terminal 123; groove 124; charging socket 125; switch 126;

[0024] Supporting component 200; contour groove 210; receiving groove 211; clearance hole 212;

[0025] Fastening component 300; Pressing part 310; Flexible sleeve 320;

[0026] Elastic element 400;

[0027] 500mm spindle. Detailed Implementation

[0028] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0029] A smart glasses charging dock that can adapt to different eyeglass frames, see [link / reference]. Figures 1-3 The base 100 and the support member 200. The top surface of the base 100 is partially raised to form a protrusion 121. Specifically, the protrusion 121 is formed on the rear side of the top surface of the base, and the top of the protrusion 121 is provided with a charging terminal 123 for charging the smart glasses.

[0030] The support member 200 has a herringbone shape in its orthographic projection. Its bottom surface is adapted to the protrusion 121, and it is fitted onto the protrusion 121 and detachably connected to the base 100. The top surface of the support member 200 is provided with a contoured groove 210 that is continuously arranged along its length. The shape of the contoured groove 210 is adapted to the bottom contour of the frame. The contoured groove 210 is provided with a clearance hole 212, which is arranged opposite to the charging terminal 123 so that the charging terminal 123 can extend out of the clearance hole 212.

[0031] The charging dock described above features a carrier 200 whose orthographic projection is V-shaped. Its top surface has a continuous contoured groove 210 along its length, the shape of which matches the bottom contour of the eyeglass frame. During charging, the smart glasses are secured within the contoured groove 210, providing support to the bottom contour of the glasses and ensuring a stable hold. The carrier 200 is detachably connected to the dock body 100. When charging other smart glasses (different in shape from the bottom contour of the frame), the carrier 200 is removed, and a new carrier 200 with a matching contoured groove is installed. This allows the charging dock to charge smart glasses with different frames, offering high versatility. Compared to charging with an eyeglass case, the charging dock 100 is smaller and more portable, and eliminates the need to open / close the eyeglass case during charging, making it more convenient to use.

[0032] In this embodiment, the orthographic projection of the support member 200 is V-shaped, and the orthographic projection of the contouring groove 210 is also V-shaped. Specifically, along the length of the contouring groove 210, both ends of the contouring groove 210 are the lowest positions on the corresponding sides and extend to the side of the base 100. For example, the left end of the contouring groove 210 is the lowest position on the left side and extends to the left side of the base 100, and the right end of the contouring groove 210 is the lowest position on the right side and extends to the right side of the base 100. In this way, on the one hand, the length of the contouring groove 210 does not need to be configured to be the same as the length of the frame, which can reduce the size of the charging base and make it easier to use. On the other hand, the relatively shorter contouring groove 210 allows it to be applicable to more types of glasses, making it more versatile. Preferably, the lowest position of the contouring groove 210 corresponds to the lowest position of the bottom contour of the frame.

[0033] In this embodiment, the top surface of the base 100 is provided with a first limiting part and a second limiting part. The first limiting part and the second limiting part are spaced apart along the groove width direction of the contour groove 210 to respectively limit and cooperate with the two sides of the support member 200. In this way, due to the limiting of the first limiting part and the second limiting part, the assembly of the support member 200 is more stable, which improves the assembly stability and use stability of the support member 200.

[0034] Specifically, the base includes a base shell 110 and a surface shell 120, both integrally molded using injection molding. The base shell 110 includes a base plate and side plates. The base plate is horizontally positioned and can be placed on a platform; the side plates are vertically connected to the base plate. The surface shell 120 has openings 122 at its bottom and rear, and its bottom and rear are connected to the base plate and side plates, respectively. A protrusion 121 is located on the rear of the surface shell 120. The base shell 110 and the surface shell 120 form a mounting cavity, which can accommodate electronic components, power supplies, and other devices.

[0035] In this design, the rear side of the protrusion 121 is aligned with the rear side of the surface shell 120. The top surface of the surface shell 120 is recessed downwards on both sides of the protrusion 121 to form grooves 124. The inner wall of the groove 124 serves as a first limiting part, and the side plate protrudes from the rear side of the surface shell 120 to form a second limiting part. By placing the protrusion 121 on the rear side of the surface shell 120 and forming the groove 124 on the top surface of the surface shell 120, using the inner wall of the groove 124 as the first limiting part and the side plate as the second limiting part, the top surface shape of the surface shell 120 is simple and easy to injection mold.

[0036] In this embodiment, the bottom of the contoured groove 210 is provided with a receiving groove 211. The base 100 and the support member 200 are connected by screws, and the screw head is located in the receiving groove 211. The receiving groove 211 is provided to accommodate the screw head, so as to avoid the screw head interfering with the frame and affecting the charging of the glasses.

[0037] In this embodiment, a charging port 125 is provided at least at any one of the rear, left and rear sides of the base 100, and a switch 126 is provided on the side of the base 100.

[0038] In this embodiment, the charging base also includes a retaining member 300 and an elastic member 400. The retaining member 300 is movably connected to the surface shell 120 and has a pressing part 310. The two ends of the elastic member 400 are respectively connected to the base body 100 and the retaining member 300, and are used to drive the retaining member 300 to press against the frame through the pressing part 310. During charging, the retaining member 300 is removed by the operating part, and then the smart glasses are placed in the contour groove 210. Then the retaining member 300 is released. Under the action of the elastic member 400, the retaining member 300 presses against the frame through the pressing part 310, thereby firmly fixing the smart glasses on the charging base, further improving the stability and fixing effect of the smart glasses during charging.

[0039] The fastener 300 is rotatably connected to the housing. Specifically, the protrusion 121 has an opening 122, and a pivot 500 is located at the opening 122. The fastener 300 is rotatably connected to the base via the pivot 500. Under normal conditions, the elastic element 400 pulls the fastener 300 tight, causing the fastener 300 to rotate on the side beyond the support portion.

[0040] In this embodiment, a flexible sleeve 320 is fitted on the pressing part 310. The flexible sleeve 320 is used to press against the mirror frame, which can significantly reduce the problem of the pressing part 310 pressing against the mirror frame.

[0041] The flexible sleeve 320 and the pressure-retaining part 310 are integrally molded structures, specifically through injection molding, and are made of two-color molded material (PCABS+TPE). Of course, the flexible sleeve 320 and the pressure-retaining part 310 can also be separate structures. Specifically, the flexible sleeve 320 is fitted onto the pressure-retaining part 310, which facilitates replacement.

[0042] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating this utility model, and are not intended to limit the implementation of this utility model. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively describe all embodiments here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of the claims of this utility model.

Claims

1. A smart glasses charging stand that can adapt to different frames, characterized in that: Seat and load-bearing components; The top surface of the base body has a partial protrusion to form a protrusion, and a charging terminal is provided on the top of the protrusion; The orthographic projection of the support member is in the shape of a herringbone, and it is fitted onto the protrusion and detachably connected to the base. The top surface of the support member is provided with a contoured groove that is continuously arranged along its length. The shape of the contoured groove is adapted to the bottom contour of the frame. The contoured groove is provided with a clearance hole, which is arranged opposite to the charging terminal.

2. The smart glasses charging stand of claim 1, wherein: The top surface of the seat is provided with a first limiting part and a second limiting part, which are spaced apart along the width direction of the contour groove to respectively limit and cooperate with the two sides of the bearing member.

3. The smart glasses charging stand of claim 2, wherein: The protrusion and the support member are located on the rear side of the top surface of the base.

4. The smart glasses charging stand of claim 3, wherein: The base includes a bottom shell and a surface shell; the bottom shell includes a base plate and a side plate, the base plate is horizontally arranged, and the side plate is vertically connected to the base plate; the bottom and rear side of the surface shell are provided with openings, the bottom and rear side of the surface shell are respectively connected to the base plate and the side plate, and the protrusion is provided on the rear side of the surface shell.

5. The smart glasses charging stand of claim 4, wherein: The rear side of the protrusion is aligned with the rear side of the surface shell; The top surface of the surface shell is recessed downwards at both sides of the protrusion to form a groove, the inner wall of the groove is the first limiting part, and the side plate protrudes from the rear side of the surface shell to form the second limiting part.

6. The smart glasses charging stand of claim 4, wherein: The surface shell is integrally formed by injection molding.

7. The smart glasses charging stand of claim 1, wherein: The bottom of the contour groove is provided with a receiving groove, and the base and the support are connected by screws with the screw head located in the receiving groove.

8. The smart glasses charging stand of claim 1, wherein: A charging port is provided at least at any one of the following locations: the rear side, the left side, and the rear side of the base.

9. The smart glasses charging stand of claim 1, wherein: It also includes a fastener and an elastic element. The fastener is movably connected to the surface shell and has a pressing part. The two ends of the elastic element are respectively connected to the base and the fastener, and are used to drive the fastener to press against the mirror frame through the pressing part.

10. The smart glasses charging stand of claim 9, wherein: A flexible sleeve is fitted onto the pressing part, and the flexible sleeve is used to press against the mirror frame.