Adjustable anti-slip sweat-guide spectacle temple sleeve, frame and glasses
By designing flexible ear hooks, an arc-shaped structure, and a shaping adjustment component, the problem of children's glasses easily falling off has been solved, improving comfort and adjustability, adapting to different ear shapes, and extending service life.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DANYANG XIMAI GLASSES CO LTD
- Filing Date
- 2025-08-22
- Publication Date
- 2026-07-14
AI Technical Summary
Existing eyeglass temple tips are prone to falling off when used by children, and lack comfort and adjustability. Existing solutions such as ear hooks and lanyards have problems with falling off or poor comfort.
Design an adjustable, non-slip, sweat-wicking eyeglass temple cover with a flexible ear hook and arc-shaped structure, combined with a bendable shaping adjustment part and sweat-wicking groove to adapt to different ear shapes, and improve stability through positioning holes and protrusions.
It improves the comfort and stability of wearing glasses, reduces the risk of them falling off, adapts to different users, extends their service life, and reduces the frequency of replacement.
Smart Images

Figure CN224501062U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to eyeglasses and eyeglass components, and more particularly to an adjustable anti-slip and sweat-wicking eyeglass temple cover, frame, and eyeglasses. Background Technology
[0002] Eyeglasses are a combination of lenses and frames, used to improve vision, protect the eyes, or for decorative purposes. Eyeglasses can correct various vision problems, including nearsightedness, farsightedness, astigmatism, presbyopia, strabismus, or amblyopia.
[0003] The glasses typically have a temple tip (or earpiece) at the back of each temple to hook onto the ears. In current technology, these temple tips are generally curved, resting directly on the ears to support the sides of the glasses. However, this design is problematic for children, as their activity levels are higher and their ears are smaller, making the glasses prone to falling off and causing damage. Furthermore, as children grow, their glasses may become too small and require replacement. Generally, the temples of these glasses are longer to allow for longer wear. To prevent the glasses from falling off, two methods are typically used to address this issue (the following methods are also used for adults whose glasses may fall off):
[0004] The first type involves attaching ear hooks to the foot covers to hold the ears in place. However, with this design, the ear hooks are directly attached to the foot covers in a tight fit. Especially during exercise, the ear hooks are prone to slipping off, causing the glasses to fall off. Furthermore, this type of ear hook is not very comfortable.
[0005] The second method uses a single hanging strap, with each end connected to a temple tip, positioned behind the head. This way, even if the glasses fall off the bridge of the nose, the strap will keep them hanging around the neck, preventing them from falling to the ground and getting damaged. However, the strap does not increase the security of the connection between the glasses and the ears, making it easy for the glasses to fall off the bridge of the nose, which can affect the wearer's comfort. The temple tips themselves are also not very comfortable.
[0006] Therefore, improving the comfort and ease of adjustment of eyeglasses is a direction that those skilled in the art need to strive for. Summary of the Invention
[0007] The purpose of this invention is to provide an adjustable anti-slip sweat-wicking eyeglass temple cover, frame, and eyeglasses. By using this structure, the wearing comfort and adjustment convenience are improved.
[0008] To achieve the above objectives, the technical solution adopted by this utility model is: an adjustable anti-slip sweat-wicking glasses temple cover, comprising a main body and an ear hook portion, wherein the front end face of the main body is provided with a mounting hole.
[0009] The ear hook portion is disposed at the bottom of the main body behind the mounting hole. The ear hook portion is a flexible structure. The ear hook portion includes a first connector and a second connector. The top of the first connector is connected to the bottom of the main body at the rear end of the mounting hole. The bottom of the first connector extends downward. The second connector is disposed at the front side of the first connector. One end of the second connector is connected to the bottom surface of the main body at the front end of the first connector. The other end of the second connector is connected to the bottom of the first connector, and the second connector forms an arc-shaped structure with a forward opening.
[0010] The front side of the second connector has multiple sweat-wicking grooves arranged at intervals from top to bottom.
[0011] In the above technical solution, the ear hook is made of rubber or silicone;
[0012] And / or, the body is made of rubber, silicone or plastic.
[0013] In the above technical solution, a flexible shaping and adjusting component is installed inside the main body at the rear end of the mounting hole;
[0014] And / or, the main body is further provided with a receiving cavity, the rear end of the receiving cavity is located near the rear end of the main body, the front end of the receiving cavity is located near the mounting hole, or the front end of the receiving cavity is connected to the mounting hole, and the shaping adjustment component is installed in the receiving cavity;
[0015] And / or, the shaping and adjusting element is a flexible steel wire or iron wire.
[0016] In the above technical solution, the two ends of the perspiration groove are respectively connected to the left side and the right side of the second connector.
[0017] In the above technical solution, the perspiration groove is tilted backward from left to right, or the perspiration groove is tilted forward from left to right.
[0018] In the above technical solution, at least one positioning hole communicating with the mounting hole is provided on the side wall of the main body;
[0019] And / or, there are multiple positioning holes, which are arranged at intervals from front to back.
[0020] In the above technical solution, the middle part of the second connector arches towards the connection between the first connector and the main body, and the front end of the second connector forms a forward-opening arc-shaped structure.
[0021] And / or, the distance between the connection point of the second connector and the main body and the first connector is less than the length of the second connector, and the length of the first connector is less than the length of the second connector.
[0022] In the above technical solution, the middle of the rear end of the second connector is located near the connection between the first connector and the main body; the upper part of the rear end face of the second connector is located near the bottom surface of the main body, and the lower part of the rear end face of the second connector is located near the front end face of the first connector.
[0023] This utility model also provides a glasses frame, which has two temples, and the rear end of each temple is respectively equipped with the aforementioned adjustable anti-slip and sweat-wicking temple cover, and the rear end of the temple is inserted into the mounting hole.
[0024] And / or, the side wall of the main body is provided with a plurality of positioning holes that communicate with the mounting holes from front to back, and the side wall of the rear end of the temple is provided with a plurality of positioning protrusions that cooperate with the positioning holes from back to front, and at least one of the positioning protrusions is inserted into one of the mounting holes.
[0025] This utility model also provides a pair of glasses, including the aforementioned adjustable anti-slip and sweat-wicking temple covers.
[0026] Due to the application of the above technical solution, this utility model has the following advantages compared with the prior art:
[0027] 1. In this utility model, the second connector forms a forward-opening arc-shaped structure that can fit the ear and adopts a flexible structure, thereby improving the wearer's comfort and enhancing the user experience;
[0028] 2. In this utility model, a shaping adjustment component is installed inside the main body, which can adjust the bending angle of the main body, thereby adjusting the curvature of the arc structure of the second connecting component, making it suitable for different users and improving the convenience of adjustment and the comfort of practical use.
[0029] 3. This utility model is equipped with a sweat-wicking groove, which can drain the sweat generated at the contact point between the foot cover and the user, thereby improving the user's comfort and user experience;
[0030] 4. The second connector of the ear hook in this utility model can abut against the top and back of the user's ear, covering most of the ear, thereby effectively preventing the glasses from falling off, eliminating the need for separate ear hooks and lanyards, and improving the user experience;
[0031] 5. The shaping and adjusting component in this utility model is made of flexible steel wire or iron wire, which can adjust the angle of the main body and the ear hook, making it suitable for different users and different ear shapes, thus improving the applicability, reducing the frequency of eyeglass replacement, and lowering the cost of use.
[0032] 6. In this utility model, multiple positioning holes and mounting holes are connected on the main body, and multiple positioning protrusions that cooperate with the positioning holes are provided on the temples of the frame. This allows the distance between the temple tips and the lenses to be adjusted according to the user's required size, making it suitable for different users, increasing the applicability, reducing the frequency of eyeglasses or frames being replaced, and lowering the cost of use. Attached Figure Description
[0033] Figure 1 This is a schematic diagram of the foot cover structure in Embodiment 1 of this utility model;
[0034] Figure 2 yes Figure 1 A schematic diagram of the cross-sectional structure;
[0035] Figure 3 This is a schematic diagram of the structure of the glasses in Embodiment 1 of this utility model;
[0036] Figure 4 yes Figure 3 Top view;
[0037] Figure 5 yes Figure 3 The right view;
[0038] Figure 6 This is a cross-sectional structural diagram of the connection between the temple and the temple cover in Embodiment 1 of this utility model.
[0039] The components include: 1. Foot cover; 11. Main body; 110. Mounting hole; 111. Shaping and adjusting component; 112. Receiving cavity; 113. Positioning hole;
[0040] 12. Ear hook portion; 121. First connector; 122. Second connector; 123. Sweat wicking groove;
[0041] 2. Frame; 21. Temples; 210. Positioning protrusions; 3. Lenses. Detailed Implementation
[0042] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0043] Example 1: See Figures 1-6 As shown, an adjustable anti-slip and sweat-wicking glasses temple cover includes a main body 11 and an ear hook portion 12. The front end face of the main body 11 is provided with a mounting hole 110.
[0044] The ear hook portion 12 is disposed at the bottom of the main body 11 behind the mounting hole 110. Both the main body 11 and the ear hook portion 12 are flexible structures. The ear hook portion 12 includes a first connector 121 and a second connector 122. The top of the first connector 121 is connected to the bottom of the main body 11 at the rear end of the mounting hole 110. The bottom of the first connector 121 extends downward. The second connector 122 is disposed in front of the first connector 121. One end of the second connector 122 is connected to the bottom surface of the main body 11 at the front end of the first connector 121, and one end of the second connector 122 is disposed close to the rear side of the mounting hole 110. The other end of the second connector 122 is connected to the bottom of the first connector 121, and the second connector 122 forms a forward-opening arc-shaped structure.
[0045] In this embodiment, the temple tips are directly fitted onto the rear end of the temples of the frame through mounting holes, and are then used to hang on the user's ears. The front end of the main body connects to the temples of the frame via mounting holes, while the ear hooks hang on the user's ears. The contour of the ear's auricle and head connection is arc-shaped, and the second connector directly conforms to this arc-shaped contour, enabling quick attachment. This structure eliminates the need for separate hanging straps or ear hooks (which are already fitted onto the existing arc-shaped temple tips), making it more convenient to use. Furthermore, the arc-shaped structure of the second connector maximizes contact and fit with most of the arc-shaped contour at the ear-head connection, increasing the contact area with the ear. The rear end of the second connector hooks onto the back of the ear, further securing the glasses and preventing them from falling off. The ear hooks also feature a flexible structure, providing greater comfort when in contact with the ear. Furthermore, because the second connector increases the contact area with the ear, the overall weight of the glasses remains the same. It can distribute the pressure of the glasses on the ear (the contact area between the glasses and the ear is larger), making the weight of the glasses on a single part of the ear lighter and more comfortable.
[0046] The ear hook portion is made of rubber or silicone; the main body is made of rubber, silicone, or plastic. Preferably, both the main body and the ear hook portion are made of silicone.
[0047] Furthermore, in order to accommodate different users' ears and facilitate the adjustment of the arc-shaped structure of the second connector to fit different users, so that the second connector can contact the corresponding user's auricle as much as possible, a flexible shaping adjustment member 111 is installed in the main body 11 at the rear end of the mounting hole 110; the shaping adjustment member 111 is a flexible steel wire or iron wire.
[0048] Preferably, the shaping adjustment component is made of steel wire, and is located behind the mounting hole and above the ear hook. In this structure, depending on the ear shape, the user can swing the main body of the shaping adjustment component, causing the steel wire to bend and reach the desired angle. Since the ear hook is mounted on the main body below the shaping adjustment component, it will also bend at a certain angle after the steel wire bends. Therefore, the main body of the positioning adjustment component can be bent and positioned according to the most comfortable and suitable angle for the user, adjusting the angle of the ear hook so that the second connector fits the user's ear at the most comfortable and fitting angle, thereby improving user comfort, facilitating adjustment, and preventing the glasses from easily falling off during wear. The shaping adjustment component also acts as a main frame, preventing the shape of the temple cover from deforming during use.
[0049] See Figure 2 , 6 As shown, the main body 11 is further provided with a receiving cavity 112. The rear end of the receiving cavity 112 is located near the rear end of the main body 11, and the front end of the receiving cavity 112 is located near the mounting hole 110, or the front end of the receiving cavity 112 is connected to the mounting hole 110. The shaping adjustment member 111 is installed in the receiving cavity 112.
[0050] In this embodiment, the front end of the accommodating cavity is connected to the mounting hole, which facilitates the fabrication of the main body and the connection between the shaping adjustment component and the main body. During fabrication, the main body (e.g., a main body made of silicone material) can be directly wrapped around the outside of the shaping adjustment component for molding, or the main body and ear hook can be fabricated first, and then the shaping adjustment component can be inserted into the accommodating cavity through the mounting hole to achieve the connection between the positioning adjustment component and the main body. In this embodiment, the length of the shaping adjustment component is adapted to the accommodating cavity, the rear end of the shaping adjustment component abuts against the rear end face of the accommodating cavity, the front end of the shaping adjustment component is flush with the front end face of the accommodating cavity, and the shaping adjustment component and the accommodating cavity are tightly fitted to prevent the shaping adjustment component from falling out or shifting out of the accommodating cavity.
[0051] In this invention, the ear hook and the main body can be an integral structure or separate structures. If it is an integral structure, it is prepared by covering the main body with the shaping and adjusting component, or by preparing the accommodating cavity and then inserting the shaping and adjusting component into the accommodating cavity. If the ear hook and the main body are separate structures, the main body and the ear hook may also have the following structures:
[0052] The first method: After the main body is prepared, the first and second connectors are connected to the main body (adhesion or other connection methods that can connect two silicone or the same material together can be used). The accommodating cavity is located inside the main body, and the connection method between the shaping and adjusting parts and the main body is the same as above.
[0053] The second type: The ear hook also includes a connector, which is an integral structure with the first and second connectors. The top of the first connector is connected to the bottom surface of the middle or rear end of the connector. One end of the second connector is connected to the bottom of the first connector, and the other end is connected to the bottom of the front end of the connector. The receiving cavity is located inside the main body, and the bottom or rear end of the receiving cavity is connected to the bottom surface of the main body. After the main body and the ear hook are prepared, the shaping adjustment component is inserted into the receiving cavity. Then, the connector and the main body are connected (adhesion or other connection methods that can connect two silicone or the same material can be used). The connector completely covers the bottom of the receiving groove, so that the shaping adjustment component is covered between the main body and the connector, preventing the shaping adjustment component from being exposed. This completes the preparation of the foot cover. In this structure, a notch is reserved at the bottom of the main body to match the connector, making the connection between the connector and the main body more aesthetically pleasing. The bottom of the connector will not bulge down. After the connector and the main body are connected, it constitutes part of the main body.
[0054] The third type is basically the same as the second type, except that the accommodating cavity is completely inside the main body, and the bottom of the accommodating cavity is not connected to the bottom of the main body. After the ear hook and the main body are prepared separately, the connecting part of the ear hook is connected to the main body. The connection method between the shaping adjustment part and the main body can be: the main body is directly covered on the outside of the shaping adjustment part during the preparation process, or the shaping adjustment part is inserted into the accommodating cavity from the mounting hole after the main body is prepared.
[0055] See Figure 1 , 2 As shown, multiple sweat-wicking grooves 123 are arranged at intervals from top to bottom on the front side of the second connector 122.
[0056] Users tend to sweat more during exercise or in hot weather. Because the front side of the second connector fits against the user's ear, the pores at that point are essentially blocked, making it difficult for sweat to escape and resulting in poor user comfort. Therefore, a sweat-wicking channel is added to allow more space at the contact point between the second connector and the ear (ideally ensuring that only the front side of the second connector between adjacent sweat-wicking channels contacts the ear), facilitating sweat wicking and breathability, and improving user comfort.
[0057] Meanwhile, multiple sweat-wicking grooves are provided, spaced apart from one end of the front face of the second connector towards the other. This also increases the friction between the glasses and the ear, minimizing the risk of the glasses falling off during use, improving the anti-slip effect, and enhancing the user experience.
[0058] The two ends of the perspiration groove 123 are respectively connected to the left side and the right side of the second connector 122;
[0059] The perspiration groove 123 is inclined backward from left to right, or inclined forward from left to right. Either of these two inclination methods can be used. An inclined groove facilitates sweat evaporation and, moreover, has a wider width, reducing the contact area between the second connector and the ear, thus improving ventilation and perspiration and enhancing user comfort. Alternatively, the perspiration groove can be perpendicular to the left or right side of the second connector, with an even better inclined effect.
[0060] See Figure 2 , 6 As shown, at least one positioning hole 113 communicating with the mounting hole 110 is provided on one side wall of the main body 11;
[0061] There are multiple positioning holes 113, which are arranged at intervals from front to back.
[0062] See Figures 3-6 As shown, this utility model also provides a glasses frame 2, which has two temples 21. The rear end of each temple 21 is respectively equipped with the aforementioned adjustable anti-slip sweat-wicking glasses temple cover 1, and the rear end of the temple 21 is inserted into the mounting hole 110.
[0063] On one side wall of the main body 11, a plurality of positioning holes 113 communicating with the mounting holes 110 are provided from front to back. On the side wall of the rear end of the temple 21, a plurality of positioning protrusions 210 cooperating with the positioning holes 113 are provided from back to front. At least one positioning protrusion 210 is inserted into one of the mounting holes. The positioning holes and positioning protrusions can limit the temple tips to the temples. Under the condition that the external force does not exceed a certain value, the temple tips will not detach from the temples, ensuring the stability of use and preventing the glasses and temple tips from separating.
[0064] For example, there are six positioning holes spaced from front to back, and six positioning protrusions also arranged from back to front. Each positioning protrusion can be inserted into one positioning hole. After the rear end of the temple is inserted into the rear end of the mounting hole, each positioning protrusion can be inserted into one positioning hole. At this point, the distance between the ear hook and the front end of the frame is the shortest. If the distance between the user's eye and ear is longer, the temple tips can be pulled back to move them away from the front end of the frame. This allows other positioning protrusions to be inserted into other positioning holes (e.g., the three positioning protrusions from back to front are inserted into the three positioning holes from front to back), increasing the distance between the temple tips and the front end of the frame. This allows the connection position of the temple tips and temples to be adjusted according to the distance between the eyes and ears of different users (or different age groups), improving the applicability. Especially for the same child, the distance between the temple tips and temples can be adjusted as the child grows, extending the lifespan of the frame and reducing usage costs.
[0065] Among them, the height of the positioning protrusion is less than the depth of the positioning hole. Therefore, after the positioning protrusion is inserted into the positioning hole, the positioning protrusion will not leak out of the positioning hole. For example, when the positioning protrusion is provided on the inner side wall of the temple (when the positioning protrusions on both temples are arranged oppositely in the direction facing the head), the positioning protrusion will not contact the user's head, preventing scratches on the user or affecting the use experience. Even if some positioning protrusions are located on the front side of the foot cover, due to their relatively small protrusion height and the main body on the side of the positioning hole having a certain thickness, the positioning protrusion will not affect the user either.
[0066] When it is necessary to disassemble the foot cover from the temple, hold the foot cover and flip it 90 degrees relative to the temple to completely separate all the positioning protrusions and positioning holes, and then pull the foot cover and the temple apart. If the temple is directly pulled backward, the positioning protrusion will enter different positioning holes, making the separation more difficult and requiring more force. Therefore, the disassembly is carried out after flipping.
[0067] See Figures 3-6 As shown, the present utility model also provides a pair of glasses, including a lens 3 and the above-mentioned frame 2 with a foot cover 21, and the lens 3 is installed on the frame 2. In the above-mentioned frame, there is no lens, and on the basis of the above-mentioned frame, the glasses are further installed with a lens.
[0068] See Figure 1 、 2 As shown, the middle part of the second connecting member 122 arches towards the connection between the first connecting member 121 and the main body 11, and the front end of the second connecting member 122 forms an arc-shaped structure with a forward opening;
[0069] The distance between the connection of the second connecting member 122 and the main body 11 and the first connecting member 121 is a, the length of the second connecting member 122 is b, a < b, and the length of the first connecting member 121 is c, c < b.
[0070] The middle part of the rear end of the second connecting member 122 is arranged near the corner of the connection between the first connecting member 121 and the main body 11; the upper part of the rear end face of the second connecting member 122 is arranged near the bottom face of the main body 11, and the lower part of the rear end face of the second connecting member 122 is arranged near the front end face of the first connecting member 121.
[0071] In this structure, apart from the connection points with the first connector and the main body, the second connector has space between itself, the main body, and the first connector. That is, the second connector, the first connector, and the main body form a hollow cavity. This cavity is an arc-shaped cavity. This allows the second connector to have space to deform and bend when the main body at the shaping and adjusting part is adjusted, preventing wrinkles from affecting the fit between the second connector and the ear and improving the comfort of use.
[0072] In this embodiment, the second connector forms a C-shaped structure with a forward opening. The C-shaped opening of this structure covers the user's ear, improving the fit and contact area, thereby enhancing comfort and stability during use and minimizing the risk of the glasses falling off. Meanwhile, due to the presence of multiple sweat-wicking grooves, the front end of the second connector forms a sawtooth-shaped structure, similar to a rack. When the main body at the shaping and adjusting part adjusts its bending angle, since one end of the second connector is connected to the main body and the top of the first connector is connected to the main body, the bottom position of the first connector will change when the main body bends and deforms. This simultaneously pulls the bottom position of the second connector to adjust, for example, the curvature of the arc structure of the second connector becomes larger or smaller. In this case, the presence of the sweat-wicking grooves also provides space for deformation, preventing wrinkles or breakage of the front end of the second connector. For example, if the curvature of the arc structure of the second connector becomes smaller (the C-shaped opening becomes smaller), the opening size of the front end of the sweat-wicking groove becomes smaller; if the curvature of the arc structure of the second connector becomes larger (the C-shaped opening becomes larger), the opening size of the front end of the sweat-wicking groove becomes larger. This allows the second connector to deform with the change of the main body angle, making the second connector fit as close as possible to the user's ear, improving the user experience and comfort.
[0073] In the description of this utility model, it should be understood that the terms "upper," "lower," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing the invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of the invention. In the description of the invention, "a plurality of" means two or more, unless otherwise explicitly specified.
[0074] In this invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," 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 mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. For instance, the two components can be mechanically connected by contact or abutting; they can also be directly hooked or connected by an intermediate medium; or 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.
Claims
1. An adjustable anti-slip, sweat-wicking eyeglass temple cover, comprising a main body and ear hooks, wherein the front end face of the main body is provided with mounting holes, characterized in that: The ear hook portion is disposed at the bottom of the main body behind the mounting hole. The ear hook portion is a flexible structure. The ear hook portion includes a first connector and a second connector. The top of the first connector is connected to the bottom of the main body at the rear end of the mounting hole. The bottom of the first connector extends downward. The second connector is disposed at the front side of the first connector. One end of the second connector is connected to the bottom surface of the main body at the front end of the first connector. The other end of the second connector is connected to the bottom of the first connector, and the second connector forms an arc-shaped structure with a forward opening. The front side of the second connector has multiple sweat-wicking grooves arranged at intervals from top to bottom.
2. The adjustable anti-slip sweat-wicking eyeglass temple covers according to claim 1, characterized in that: The ear hook is made of rubber or silicone. And / or, the body is made of rubber, silicone or plastic.
3. The adjustable anti-slip sweat-wicking eyeglass temple covers according to claim 1, characterized in that: A flexible shaping and adjusting component is installed inside the main body at the rear end of the mounting hole; And / or, the main body is further provided with a receiving cavity, the rear end of the receiving cavity is located near the rear end of the main body, the front end of the receiving cavity is located near the mounting hole, or the front end of the receiving cavity is connected to the mounting hole, and the shaping adjustment component is installed in the receiving cavity; And / or, the shaping adjustment element is a flexible steel wire or iron wire.
4. The adjustable anti-slip sweat-wicking eyeglass temple covers according to claim 1, characterized in that: The two ends of the perspiration groove are respectively connected to the left and right sides of the second connector.
5. The adjustable anti-slip sweat-wicking eyeglass temple cover according to claim 1, characterized in that: The perspiration groove is tilted backward from left to right, or the perspiration groove is tilted forward from left to right.
6. The adjustable anti-slip sweat-wicking eyeglass temple cover according to claim 1, characterized in that: The main body has at least one positioning hole that communicates with the mounting hole on its side wall; And / or, there are multiple positioning holes, and the multiple positioning holes are arranged at intervals from front to back.
7. The adjustable anti-slip sweat-wicking eyeglass temple cover according to claim 1, characterized in that: The middle part of the second connector arches towards the connection between the first connector and the main body, and the front end of the second connector forms a forward-opening arc-shaped structure. And / or, the distance between the connection point of the second connector and the main body and the first connector is less than the length of the second connector, and the length of the first connector is less than the length of the second connector.
8. The adjustable anti-slip sweat-wicking eyeglass temple cover according to claim 1, characterized in that: The second connector is located at the middle of its rear end near the connection point between the first connector and the main body; the second connector is located above the rear end face near the bottom surface of the main body, and below the rear end face near the front end face of the first connector.
9. A type of eyeglass frame, characterized in that: The frame has two temples, and each temple is fitted with an adjustable anti-slip and sweat-wicking temple cover as described in any one of claims 1-8 at its rear end. The rear end of the temple is inserted into the mounting hole. And / or, the side wall of the main body is provided with a plurality of positioning holes that communicate with the mounting holes from front to back, and the side wall of the rear end of the temple is provided with a plurality of positioning protrusions that cooperate with the positioning holes from back to front, and at least one of the positioning protrusions is inserted into one of the mounting holes.
10. A pair of eyeglasses, characterized in that: Including adjustable anti-slip sweat-wicking eyeglass temple covers as described in any one of claims 1-8.