Glasses box applied to smart glasses and smart glasses system
By using a magnetic charging component in the smart glasses case, compatibility issues were resolved, enabling effective charging of deformed or different sized glasses and expanding the applicability of the glasses case.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ANKER INNOVATIONS TECH CO LTD
- Filing Date
- 2022-06-30
- Publication Date
- 2026-06-19
AI Technical Summary
Existing smart glasses cases are incompatible with deformable or different sizes of smart audio glasses, resulting in the charging components being unable to charge effectively.
A charging component with a first magnetic element is used, which is movably mounted on the housing component by magnetic adsorption. This allows it to adapt to the deformation and size differences of smart glasses and achieve charging.
Even if the smart glasses are deformed or have different specifications, the charging component can still effectively attract and charge them, improving the compatibility of the glasses case.
Smart Images

Figure CN115251557B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of smart glasses technology, and in particular to a glasses case and smart glasses system for use with smart glasses. Background Technology
[0002] With the continuous development of smart wearable device technology, new types of smart wearable devices are emerging one after another, among which smart audio glasses have come into being. Smart audio glasses are equipped with audio playback functions, greatly enriching the functionality of traditional glasses and gaining popularity among consumers.
[0003] Currently, charging functionality is typically incorporated into the cases that come with smart audio glasses, allowing the glasses to be placed inside for charging. However, smart audio glasses also suffer from issues such as deformation due to prolonged wear. The charging components in the case are often incompatible with deformed glasses, preventing them from charging properly. Furthermore, current cases only accommodate a single type of smart audio glasses, and the charging components are not compatible with different sizes. Summary of the Invention
[0004] In view of this, the main technical problem solved by the present invention is to provide an eyeglass case and an intelligent eyeglass system for use with smart glasses, which can improve the compatibility performance of the eyeglass case.
[0005] To address the aforementioned technical problems, one technical solution adopted by the present invention is to provide a glasses case for smart glasses. The glasses case includes a housing assembly that forms a receiving cavity for holding the smart glasses. The glasses case also includes a charging assembly movably disposed within the housing assembly. The charging assembly has a first magnetic component; when the smart glasses are placed in the receiving cavity, the first magnetic component and the smart glasses attract each other, causing the charging assembly to move towards and adhere to the smart glasses, thereby charging the smart glasses.
[0006] In one embodiment of the invention, the eyeglass case further includes an elastic component; the charging component is connected to the housing component via the elastic component, and the elastic component is used to drive the charging component to reset.
[0007] In one embodiment of the present invention, the elastic component includes an elastic housing; the elastic housing includes a first elastic portion, a second elastic portion and an elastic connecting portion; the charging component is disposed on the first elastic portion, the second elastic portion is disposed on the housing component, the second elastic portion surrounds the outer periphery of the first elastic portion, and the ends of the first elastic portion and the second elastic portion away from the accommodating cavity are connected by the elastic connecting portion for driving the charging component to reset.
[0008] In one embodiment of the present invention, the elastic component includes a tension spring; one end of the tension spring is connected to the charging component and the other end is connected to the housing component, for driving the charging component to reset.
[0009] In one embodiment of the present invention, the glasses case further includes a limiting member; one end of the limiting member is connected to the charging component and the other end is connected to the housing component, for limiting the maximum travel distance of the charging component toward the smart glasses.
[0010] In one embodiment of the present invention, the glasses case further includes a main circuit board; the charging assembly further includes a charging housing, a charging circuit board, a first charging element, and a flexible electrical connection wire; the charging housing is movably disposed on the housing assembly, the first magnetic component, the charging circuit board, and the first charging element are all disposed on the charging housing, and the first charging element is electrically connected to the charging circuit board, and the first charging element is used to charge the smart glasses; the charging circuit board is electrically connected to the main circuit board through the flexible electrical connection wire, and the flexible electrical connection wire can extend or retract with the movement of the charging assembly.
[0011] In one embodiment of the present invention, the housing assembly includes a main housing and a cover; the main housing surrounds and forms a receiving cavity, and the cover is provided with a pressure pad; wherein, when the cover is placed on the main housing, the pressure pad can press against the smart glasses to correct the placement state of the smart glasses in the receiving cavity.
[0012] In one embodiment of the present invention, a temple support is provided in the accommodating cavity; the accommodating cavity is divided into a left temple limiting area and a right temple limiting area; the left temple limiting area is located on one side of the temple support, and the right temple limiting area is located on the other side, and the charging component is disposed on the temple support; when the smart glasses are placed in the accommodating cavity, the two temples of the smart glasses are supported by the temple support and the charging component is attracted, and the end of the left temple of the smart glasses is limited to the left temple limiting area, and the end of the right temple of the smart glasses is limited to the right temple limiting area.
[0013] In one embodiment of the present invention, the left temple limiting area and the right temple limiting area are symmetrically distributed about a reference plane; the charging component includes a first charging component and a second charging component; the first charging component and the second charging component are symmetrically distributed about a reference plane, the first charging component is used to attach the left temple of the smart glasses, and the second charging component is used to attach the right temple of the smart glasses.
[0014] To address the aforementioned technical problems, another technical solution adopted by the present invention is to provide a smart glasses system. This smart glasses system includes smart glasses and the glasses case described in the above embodiments.
[0015] The beneficial effects of this invention are as follows: Unlike existing technologies, this invention provides a glasses case and a smart glasses system for smart glasses. A charging component is movably disposed within the housing assembly of the glasses case. The charging component includes a first magnetic element. When the smart glasses are placed in the receiving cavity, the first magnetic element and the smart glasses attract each other, causing the charging component to move towards and adhere to the smart glasses, thereby charging them. In other words, even if the smart glasses are deformed or their specifications are changed, the charging component can still adhere to the smart glasses and charge them via magnetic attraction. This glasses case is compatible with deformed smart glasses and smart glasses of different specifications, thus improving the compatibility of the glasses case. Attached Figure Description
[0016] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with the invention and, together with the description, serve to explain the principles of the invention. Furthermore, these drawings and textual descriptions are not intended to limit the scope of the inventive concept in any way, but rather to illustrate the concept of the invention to those skilled in the art by reference to specific embodiments.
[0017] Figure 1 This is a schematic diagram of the structure of an embodiment of the smart glasses system of the present invention;
[0018] Figure 2 This is a schematic diagram of the structure of an embodiment of the eyeglass case of the present invention;
[0019] Figure 3 yes Figure 2 A schematic diagram of the cross-sectional structure of the eyeglass case along the AA direction;
[0020] Figure 4 yes Figure 3 The diagram shows the structure of area B of the eyeglass case.
[0021] Figure 5 This is a schematic diagram of the structure of an embodiment of the smart glasses of the present invention;
[0022] Figure 6 This is a schematic diagram of another embodiment of the eyeglass case of the present invention;
[0023] Figure 7 yes Figure 6 A schematic diagram of the cross-sectional structure of the eyeglass case along the CC direction;
[0024] Figure 8 yes Figure 7 A schematic diagram of the structure of region D of the eyeglass case shown;
[0025] Figures 9a-9b This is a schematic diagram of an embodiment of the smart glasses of the present invention placed in a glasses case;
[0026] Figures 10a-10b This is a schematic diagram of another embodiment of the smart glasses of the present invention placed in a glasses case. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of this invention clearer, the technical solutions in the embodiments of this invention will be clearly and completely described below in conjunction with the embodiments of this invention. Obviously, the described embodiments are only some embodiments of this invention, not all embodiments. Based on the embodiments of this invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this invention. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0028] To address the poor compatibility of existing eyeglass cases, an embodiment of the present invention provides an eyeglass case for smart glasses. The eyeglass case includes a housing assembly that forms a receiving cavity for holding the smart glasses. The eyeglass case also includes a charging assembly movably disposed within the housing assembly. The charging assembly has a first magnetic component; when the smart glasses are placed in the receiving cavity, the first magnetic component and the smart glasses attract each other, causing the charging assembly to move towards and adhere to the smart glasses, thereby charging them. This will be described in detail below.
[0029] Please see Figures 1 to 4 , Figure 1 This is a schematic diagram of the structure of an embodiment of the smart glasses system of the present invention. Figure 2 This is a structural schematic diagram of an embodiment of the eyeglass case of the present invention. Figure 3 yes Figure 2 The diagram shows a cross-sectional view of the eyeglass case along the AA direction. Figure 4 yes Figure 3 The diagram shows the structure of area B of the eyeglass case.
[0030] In one embodiment, the glasses case 10 is used for smart glasses, specifically for storing and charging the smart glasses. The smart glasses can be smart audio glasses with audio playback capabilities, etc., and are not limited thereto.
[0031] Specifically, the glasses case 10 includes a housing assembly 11. The housing assembly 11 serves as the basic carrier of the glasses case 10, providing support and protection for the other components of the glasses case 10. The housing assembly 11 is also used to store the smart glasses; specifically, the housing assembly 11 forms a receiving cavity 111 for holding the smart glasses.
[0032] The glasses case 10 also includes a charging component 12 for charging the smart glasses. The charging component 12 is movably disposed on the housing component 11, meaning it is movable relative to the housing component 11. The charging component 12 has a first magnetic element 121, such as... Figure 4 As shown. When the smart glasses are placed in the receiving cavity 111, the first magnetic component 121 and the smart glasses attract each other, causing the charging component 12 to move toward the smart glasses and be attracted to them, thereby charging the smart glasses.
[0033] The charging component 12 of the glasses case 10 is magnetically attached to the smart glasses. The charging component 12 is electrically connected to the corresponding charging element (hereinafter referred to as the second charging element) on the smart glasses to charge them. Since smart glasses are prone to deformation after prolonged wear, causing changes in the position of the charging element, and the position of the charging element often differs for smart glasses of different sizes (i.e., different frame widths), the charging component 12 in this embodiment can actively attach to the smart glasses via magnetic attraction to charge them. Even if the smart glasses are deformed or of different sizes, the charging component 12 can still charge them. In other words, the glasses case 10 in this embodiment is compatible with deformed smart glasses and smart glasses of different sizes, improving the compatibility of the glasses case 10.
[0034] In one embodiment, the charging assembly 12 further includes a charging housing 122, a charging circuit board 123, and a first charging element 124. The charging housing 122 is movably disposed on the housing assembly 11. The first magnetic component 121, the charging circuit board 123, and the first charging element 124 are all disposed on the charging housing 122, and the first charging element 124 is electrically connected to the charging circuit board 123, and is used to charge the smart glasses.
[0035] Correspondingly, please refer to the following as well. Figure 5 The smart glasses 20 are provided with a second magnetic component 21 and a second charging component 22. When the smart glasses 20 is placed in the receiving cavity 111, the first magnetic component 121 of the charging assembly 12 and the second magnetic component 21 of the smart glasses 20 attract each other, and the first magnetic component 121 can accurately attach to the second magnetic component 21, so that the first charging component 124 of the charging assembly 12 contacts the second charging component 22 of the smart glasses 20 to establish an electrical connection for charging the smart glasses 20.
[0036] For example, such as Figure 4 and Figure 5As shown, the charging assembly 12 includes two first charging elements 124 and two first magnetic components 121. The two first charging elements 124 are spaced apart from each other, and the two first magnetic components 121 are located on opposite sides of the two first charging elements 124. Correspondingly, the smart glasses 20 is provided with two second charging elements 22 and two second magnetic components 21. The two second charging elements 22 are spaced apart from each other, and the two second magnetic components 21 are located on opposite sides of the two second charging elements 22.
[0037] Optionally, the first charging component 124 and the second charging component 22 can be connectors such as spring pins or copper pillars, which are not limited here.
[0038] Furthermore, the glasses case 10 also includes a main circuit board (not shown), which is located in the housing assembly 11 and is used to control the normal operation of the glasses case 10, such as controlling the glasses case 10 to charge the smart glasses. It is understood that the glasses case 10 can have its own power supply to charge the smart glasses, or the glasses case 10 can be connected to an external power source to transfer electrical energy from the external power source to the smart glasses to charge them.
[0039] The charging assembly 12 also includes a flexible electrical connection wire 125, such as Figure 4 As shown, the charging circuit board 123 is electrically connected to the main circuit board via a flexible electrical connection wire 125. The flexible electrical connection wire 125 can extend or retract with the movement of the charging component 12. Specifically, when the charging component 12 moves toward the smart glasses, the flexible electrical connection wire 125 extends with the movement of the charging component 12, and when the charging component 12 returns to its original position, the flexible electrical connection wire 125 retracts with the movement of the charging component 12.
[0040] Optionally, the flexible electrical connector 125 can be a spring wire, etc., which is not limited here.
[0041] In one embodiment, the glasses case 10 further includes an elastic component (including the elastic housing, tension spring, etc., hereinafter referred to as the elastic housing). The charging component 12 is connected to the housing component 11 via the elastic component, which is used to drive the charging component 12 to reset, that is, to drive the charging component 12 to move toward the initial position. Specifically, when the charging component 12 moves toward the smart glasses, the elastic component deforms, causing the charging component 12 to tend to move toward the initial position. After the charging component 12 is detached from the smart glasses, the elastic restoring force provided by the elastic component drives the charging component 12 to move toward the initial position and reset, so that the charging component 12 can be used for the next charging of the smart glasses.
[0042] In one embodiment, such as Figure 4As shown, the elastic component includes an elastic housing 131. The elastic housing 131 includes a first elastic portion 132, a second elastic portion 133, and an elastic connecting portion 134. The charging component 12 is disposed on the first elastic portion 132, and the second elastic portion 133 is disposed on the housing component 11. The second elastic portion 133 surrounds the outer periphery of the first elastic portion 132, and the ends of the first elastic portion 132 and the second elastic portion 133 that are away from the receiving cavity 111 are connected by the elastic connecting portion 134 for driving the charging component 12 to reset.
[0043] The first elastic part 132, the second elastic part 133, and the elastic connecting part 134 are an integral elastic structure. As the charging component 12 moves toward the smart glasses, the charging component 12 drives the first elastic part 132 to move relative to the second elastic part 133. The part originally belonging to the second elastic part 133 first transforms into the elastic connecting part 134, and then transforms back into the first elastic part 132. During the resetting process of the charging component 12, the first elastic part 132 moves relative to the second elastic part 133. The part originally belonging to the first elastic part 132 first transforms into the elastic connecting part 134, and then transforms back into the second elastic part 133, causing the elastic shell 131 to return to its original state, thereby causing the charging component 12 to reset.
[0044] Furthermore, the housing assembly 11 includes a main housing 112 and a cover 113. The main housing 112 forms a receiving cavity 111. When the cover 113 is placed on the main housing 112, the receiving cavity 111 forms a relatively enclosed space to accommodate the smart glasses. The main housing 112 includes an outer shell 114 and an inner shell 115. The outer shell 114 surrounds the outer periphery of the inner shell 115, and the inner shell 115 forms the receiving cavity 111.
[0045] The housing assembly 11 also includes a receiving member 116. The receiving member 116 is disposed in the inner housing 115 and is used to receive the charging assembly 12 when it is reset. Furthermore, the elastic housing 131 also includes a frame portion 135, a second elastic portion 133 connected to the frame portion 135, and the frame portion 135 is sandwiched between the inner housing 115 and the receiving member 116 to prevent the elastic housing 131 from detaching from the housing assembly 11. The receiving member 116 is provided with a receiving post 1161 for receiving the charging assembly 12. Figure 4 An exemplary illustration shows that the receiving member 116 has two spaced-apart receiving posts 1161, but this is not a limitation.
[0046] Optionally, the elastic shell 131 is manufactured using a two-color molding process, specifically by two-color molding the elastic portion composed of the first elastic part 132, the second elastic part 133, and the elastic connecting part 134 with the frame part 135. The elastic portion composed of the first elastic part 132, the second elastic part 133, and the elastic connecting part 134 can be made of elastic materials such as silicone or TPU (Thermoplastic Polyurethanes), and the thickness of this elastic portion can be 0.3 mm, etc., while the frame part 135 can be made of a relatively rigid material such as plastic.
[0047] Please continue reading. Figure 4 In one embodiment, the glasses case 10 further includes a limiting member 14. One end of the limiting member 14 is connected to the charging component 12, and the other end is connected to the housing component 11, for limiting the maximum travel distance of the charging component 12 toward the smart glasses. Specifically, after the smart glasses have finished charging, the user takes out the smart glasses. Initially, the charging component 12 will remain attached to the smart glasses and move with the smart glasses until the limiting member 14 tightens, causing the charging component 12 to detach from the smart glasses. Afterward, the charging component 12 automatically resets.
[0048] Optionally, the limiting member 14 can be made of an elastic material such as silicone or TPU. Of course, in other embodiments of the present invention, the limiting member 14 is not limited to being elastic; for example, the limiting member 14 can have a large length. When the charging component 12 is in its original position, the limiting member 14 is bent, and as the charging component 12 moves toward the smart glasses, the limiting member 14 gradually straightens until it is taut and tightened, causing the charging component 12 to detach from the smart glasses.
[0049] Please refer to the following: Figures 6 to 8 , Figure 6 This is a schematic diagram of another embodiment of the eyeglass case of the present invention. Figure 7 yes Figure 6 The diagram shows a cross-sectional view of the eyeglass case along the CC direction. Figure 8 yes Figure 7 The diagram shows the structure of region D of the eyeglass case.
[0050] In an alternative embodiment, the elastic component includes a tension spring 136. One end of the tension spring 136 is connected to the charging component 12, and the other end is connected to the housing assembly 11, for driving the charging component 12 to reset. As the charging component 12 moves toward the smart glasses, the charging component 12 causes the tension spring 136 to extend; during the resetting process of the charging component 12, the tension spring 136 contracts, and the elastic restoring force provided by the tension spring 136 causes the elastic housing 131 to return to its original position, thereby causing the charging component 12 to reset.
[0051] Figure 8An example is shown showing an elastic component comprising two tension springs 136 spaced apart from each other, which is merely an example and does not limit the number of tension springs 136 in embodiments of the invention.
[0052] Furthermore, in the case where the aforementioned housing assembly 11 also includes a receiving member 116, one end of the tension spring 136 is connected to the charging assembly 12, and the other end is connected to the receiving member 116. The receiving member 116 has a receiving platform 1162, and a buffer pad 1163 is provided on the receiving platform 1162. When the charging assembly 12 is reset, the charging assembly 12 is supported by the receiving platform 1162 through the buffer pad 1163. The buffer pad 1163 is used to cushion the charging assembly 12 to ensure structural reliability.
[0053] Optionally, the tension spring 136 may be made of metal, such as spring steel, etc., without limitation.
[0054] Please continue reading. Figure 1 In one embodiment, considering that excessive deformation of the smart glasses or improper placement by the user could cause them to tilt, potentially leading to excessive distance between the first magnetic component 121 of the charging assembly 12 and the second magnetic component on the smart glasses, thus preventing the charging assembly 12 from adhering to the smart glasses, this embodiment provides a pressure pad 117 on the cover 113. When the cover 113 is placed on the main housing 112, the pressure pad 117 presses against the smart glasses to correct their placement in the receiving cavity 111, ensuring that the charging assembly 12 can properly adsorb the smart glasses.
[0055] Specifically, when the cover 113 is placed on the main housing 112, the pressure pad 117 can press against the head of the smart glasses to correct the placement of the smart glasses in the receiving cavity 111. Furthermore, the cover 113 may be provided with two pressure pads 117, one of which is used to press against the left head of the smart glasses and the other is used to press against the right head of the smart glasses.
[0056] Please continue reading. Figure 2 In one embodiment, a temple support 118 is provided in the receiving cavity 111. The receiving cavity 111 is divided into a left temple limiting area L and a right temple limiting area R. The left temple limiting area L is located on one side of the temple support 118, and the right temple limiting area R is located on the other side. When the smart glasses are placed in the receiving cavity 111, the two temples of the smart glasses are supported by the temple support 118, and the end of the left temple of the smart glasses is limited to the left temple limiting area L, and the end of the right temple of the smart glasses is limited to the right temple limiting area R.
[0057] The temples of the smart glasses, near the frame, are supported by a temple support 118. The aforementioned second magnetic component and second charging component are located on the temples near the frame. The charging component 12 is located on the temple support 118 so that when the temples of the smart glasses are supported by the temple support 118, the charging component 12 can be attracted to the temples of the smart glasses to charge them.
[0058] Furthermore, each temple of the smart glasses is equipped with a second magnetic component and a second charging component. Correspondingly, the charging assembly 12 includes a first charging assembly 126 and a second charging assembly 127, wherein the first charging assembly 126 is used to attach the left temple of the smart glasses, and the second charging assembly 127 is used to attach the right temple of the smart glasses.
[0059] The left temple limiting area L and the right temple limiting area R are about a reference plane (e.g., Figure 2 As shown in the mid-plane α (hereinafter the same), the cavity 111 is symmetrically distributed. Specifically, the entire accommodating cavity 111 can be symmetrically distributed about this reference plane, which facilitates the design and manufacture of the housing assembly 11 of the eyeglass case 10.
[0060] Considering that smart glasses typically have two folding methods, specifically folding the left temple first and then the right temple, or folding the right temple first and then the left temple, the first charging component 126 and the second charging component 127 are also symmetrically distributed about this reference plane, such as... Figure 2 As shown. In this way, no matter how the smart glasses are folded, the first charging component 126 and the second charging component 127 can normally attach to the corresponding temples. That is, the method of not requiring the user to fold the smart glasses helps to reduce the user's burden and make it more convenient for the user.
[0061] Figure 9a and Figure 10a The folding method of the smart glasses 20, which involves folding the left temple 23 first and then the right temple 24, and the placement state of the smart glasses 20 in the glasses case 10 are illustrated by way of example. Figure 9b and Figure 10b The folding method of the smart glasses 20, which involves folding the right temple 24 first and then the left temple 23, and the placement of the smart glasses 20 in the glasses case 10 are illustrated by way of example.
[0062] and, Figures 10a-10b The frame width of the smart glasses 20 shown is greater than Figures 9a-9b The frame width of the smart glasses 20 shown is, for example... Figures 9a-9b The frame width of the smart glasses 20 shown is 129mm, while Figures 10a-10b The frame width of the smart glasses 20 shown is 136mm, etc. It can be seen that the glasses case 10 in this embodiment is compatible with smart glasses of different sizes.
[0063] It should be noted that, for the case where the first charging component 126 and the second charging component 127 are symmetrically distributed about the reference plane, although the positions of the first charging component 126 and the second charging component 127 do not strictly correspond to the positions of the corresponding temples, i.e. there is a certain degree of deviation, the degree of deviation is small, which still ensures that the first charging component 126 and the second charging component 127 can normally attach to the corresponding temples.
[0064] Of course, in other embodiments of the present invention, the first charging component 126 and the second charging component 127 are not limited to being symmetrically distributed about the reference plane, and the positions of the first charging component 126 and the second charging component 127 can correspond to one of the folding methods of the smart glasses. Figure 6 The positions of the first charging component 126 and the second charging component 127 are shown exemplarily to illustrate the folding method of the smart glasses 20, in which the left temple 23 is folded first and the right temple 24 is folded later.
[0065] Furthermore, in other embodiments of the present invention, the smart glasses may have only one temple with a second magnetic component and a second charging component, and the corresponding charging assembly 12 is only one set, which is not limited here.
[0066] For further information, please refer to [link / reference]. Figure 2 The receiving cavity 111 also includes a frame support 119. The frame support 119, the left temple limiting area L, and the right temple limiting area R are located on different sides of the temple support 118. When the smart glasses are placed in the receiving cavity 111, the frames of the smart glasses are supported by the frame support 119.
[0067] Optionally, both the temple support 118 and the frame support 119 can be made of soft pads. When the smart glasses are placed in the receiving cavity 111, both the temple support 118 and the frame support 119 can provide flexible support, which can prevent the smart glasses from vibrating too much and causing poor contact between the smart glasses and the charging component 12.
[0068] Of course, in other embodiments of the present invention, the charging component 12 may also be disposed on the frame support 119. Correspondingly, the frame of the smart glasses is provided with the aforementioned second magnetic component and second charging component, which are not limited here.
[0069] In summary, the glasses case for smart glasses provided by this invention has a charging component movably disposed within the housing assembly. The charging component includes a first magnetic element. When the smart glasses are placed in the receiving cavity, the first magnetic element and the smart glasses attract each other, causing the charging component to move towards and adhere to the smart glasses, thereby charging them. In other words, even if the smart glasses are deformed or their specifications are changed, the charging component can still adhere to the smart glasses and charge them via magnetic attraction. This glasses case is compatible with deformed smart glasses and smart glasses of different specifications, thus improving the compatibility of the glasses case.
[0070] In the prior art, smart glasses are charged wirelessly or via wired connection using an external power source. This invention provides a completely different charging method. The charging component of this invention can accurately attach to smart glasses and is compatible with deformed smart glasses and smart glasses of different specifications.
[0071] Please continue reading. Figure 1 In one embodiment, the smart glasses system includes smart glasses 20 and a glasses case 10. The glasses case 10 has been described in detail in the above embodiments and will not be repeated here.
[0072] Furthermore, in this invention, unless otherwise explicitly specified and limited, the terms "connected," "linked," "stacked," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.
[0073] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of the present invention.
Claims
1. A glasses case applied to smart glasses, characterized by, The eyeglass case includes: A housing assembly is configured to form a receiving cavity for housing smart glasses; A charging component is movably disposed on the housing assembly; The charging component has a first magnetic component. When the smart glasses are placed in the accommodating cavity, the first magnetic component and the smart glasses attract each other, causing the charging component to move toward the smart glasses and adhere to them, thereby charging the smart glasses.
2. The eyeglass case according to claim 1, characterized in that, The eyeglass case also includes a flexible component; The charging component is connected to the housing component via the elastic component, which is used to drive the charging component to reset.
3. The eyeglass case according to claim 2, characterized in that, The elastic component includes an elastic housing; The elastic shell includes a first elastic part, a second elastic part, and an elastic connecting part; The charging component is disposed on the first elastic part, the second elastic part is disposed on the housing component, the second elastic part surrounds the outer periphery of the first elastic part, and the ends of the first elastic part and the second elastic part away from the accommodating cavity are connected through the elastic connecting part, for driving the charging component to reset.
4. The eyeglass case according to claim 2, characterized in that, The elastic component includes a tension spring; One end of the tension spring is connected to the charging component, and the other end is connected to the housing component, for driving the charging component to reset.
5. The eyeglass case according to any one of claims 1 to 4, characterized in that, The eyeglass case also includes a limiting component; One end of the limiting member is connected to the charging component, and the other end is connected to the housing component, which is used to limit the maximum travel distance of the charging component toward the smart glasses.
6. The eyeglass case according to any one of claims 1 to 4, characterized in that, The glasses case also includes a main circuit board; The charging assembly also includes a charging housing, a charging circuit board, a first charging component, and a flexible electrical connection wire. The charging housing is movably disposed on the housing assembly. The first magnetic component, the charging circuit board, and the first charging element are all disposed on the charging housing, and the first charging element is electrically connected to the charging circuit board. The first charging element is used to charge the smart glasses. The charging circuit board is connected to the main circuit board via the flexible electrical connection wire, which can extend or retract as the charging component moves.
7. The eyeglass case according to any one of claims 1 to 4, characterized in that, The housing assembly includes a main housing and a cover; The main housing surrounds the receiving cavity, and the cover is provided with a pressure pad; When the cover is placed on the main housing, the pressure pad can press against the smart glasses to correct the placement of the smart glasses in the accommodating cavity.
8. The eyeglass case according to any one of claims 1 to 4, characterized in that, The accommodating cavity is provided with a temple support; The accommodating cavity is divided into a left temple limiting area and a right temple limiting area; The left temple limiting area is located on one side of the temple support, the right temple limiting area is located on the other side, and the charging component is located on the temple support. When the smart glasses are placed in the accommodating cavity, the two temples of the smart glasses are supported by the temple support and the charging component is attracted, and the end of the left temple of the smart glasses is limited to the left temple limiting area, and the end of the right temple of the smart glasses is limited to the right temple limiting area.
9. The eyeglass case according to claim 8, characterized in that, The left temple limiting area and the right temple limiting area are symmetrically distributed about the reference plane; The charging component includes a first charging component and a second charging component; The first charging component and the second charging component are symmetrically distributed about the reference plane. The first charging component is used to attach the left temple of the smart glasses, and the second charging component is used to attach the right temple of the smart glasses.
10. A smart glasses system, characterized by The smart glasses system includes smart glasses and a glasses case as described in any one of claims 1 to 9.