Ski goggles
By designing a detachable lens holder and support frame structure in the ski goggles, and utilizing pressing and elastic components to achieve rapid ventilation of the lens assembly, the problem of humidity and temperature after prolonged wear of ski goggles is solved, improving skiing safety and comfort.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN SHENGHENGXIN MOLD CO LTD
- Filing Date
- 2025-08-28
- Publication Date
- 2026-06-26
AI Technical Summary
After prolonged wear, ski goggles become saturated with humidity and increase in temperature on the inside of the lenses, leading to an increased risk of fogging. The traditional solution of frequently removing and putting on the frames poses safety risks and is inconvenient.
Design a ski goggle that uses a pressing element on the outside of the lens fixing component and an elastic element to achieve a detachable structure between the lens fixing component and the support frame. With the sliding connection and snap locking of the components, the lens assembly can be quickly ventilated without removing the frame.
It enables rapid ventilation of the lens assembly without removing the frame, reducing the risk of lens fogging and improving visibility and safety during skiing.
Smart Images

Figure CN224417125U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of ski goggles technology, and specifically relates to a ski goggle. Background Technology
[0002] During skiing, prolonged wear of ski goggles can easily cause heat and moisture to accumulate around the eyes. This is mainly because sweat produced during strenuous exercise continuously evaporates within the enclosed space of the lenses, and the heat emitted from the face cannot be effectively dissipated, leading to saturation and increased temperature on the inside of the lenses. This not only causes sweating and a stuffy, sticky feeling around the eyes, exacerbating the wearer's discomfort, but also significantly increases the risk of fogging. The temperature difference between the cold air and the heat from the face causes water vapor to condense into tiny droplets, severely interfering with visual clarity and threatening skiing safety.
[0003] The traditional solution to this discomfort is to remove the entire ski goggle for ventilation and heat dissipation. However, this method has significant drawbacks: firstly, frequent removal and replacement during high-speed skiing, inclement weather, or complex terrain is both inconvenient and poses safety risks, especially for operators wearing gloves; secondly, and more importantly, modern ski goggles are typically designed to be tightly integrated with face protection (such as adjustable windproof skirts or one-piece fleece linings), forming a complete windproof and heat-insulating system. When the entire frame is removed, the attached protective fabric inevitably detaches from the face, instantly exposing the previously covered cheeks, bridge of the nose, and chin to the biting cold air and snow. This drastic temperature change not only causes intense cold stimulation and discomfort but may also lead to respiratory discomfort due to the influx of cold air, and even disrupt the overall thermal balance. Therefore, this application provides a ski goggle that allows for rapid ventilation of the eyes by removing only the lenses without removing the frame. Utility Model Content
[0004] This invention provides a ski goggle, which aims to solve the problems pointed out in the background art.
[0005] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0006] A ski goggle includes: a frame body, an inner side of which is provided with a mounting groove, a support frame is installed in the mounting groove, and two mating parts are respectively provided on both sides of the support frame. Lens fixing parts are slidably connected to both mating parts, and a lens assembly is provided between the two lens fixing parts.
[0007] A first elastic element is provided between the lens fixing member and the support frame. The first elastic element allows the lens fixing member and the support frame to separate from each other. A pressing member is provided on the outer side of the lens fixing member. The pressing member cooperates with the mating part to lock the lens fixing member and the support frame.
[0008] Furthermore, two sliding pillars are symmetrically arranged on the mating part, and a first receiving cavity is opened in the middle of the sliding pillar. The first receiving cavity is used to place the first elastic element, and a first locking block is provided on the side wall of the sliding pillar.
[0009] Furthermore, the lens fixing component is symmetrically provided with two sliding grooves, which are used to cooperate with the sliding post. A first mating groove is provided on the side wall of the sliding groove, which is used to cooperate with the first locking block to prevent the sliding groove from completely separating from the sliding post.
[0010] Furthermore, the mating part is provided with a claw, and the lens fixing member is provided with a mating plate. The claw, the mating plate and the pressing member cooperate to lock the lens fixing member and the support frame.
[0011] Furthermore, the lens fixing member has a sliding cavity in the middle that cooperates with the pressing member, and the pressing member has a locking plate in the middle. The locking plate and the pressing member are spaced apart to form a locking groove, which is used to cooperate with the claw.
[0012] The pressing member has two symmetrically arranged second receiving cavities on its side wall opposite to the bottom of the sliding cavity. The second receiving cavity is used to accommodate the second elastic member. The second elastic member is used to push the pressing member away from the sliding cavity, so that the claw and the locking groove cooperate to clamp the mating plate and the locking plate.
[0013] The pressing element is spaced apart from the bottom of the sliding cavity to form an unlocking sliding space.
[0014] Furthermore, the mating plate has second mating grooves on both sides, and the pressing member has a corresponding second locking block. The second locking block engages with the second mating groove to prevent the pressing member from falling off the sliding cavity on the lens fixing member.
[0015] Furthermore, the upper part of the frame body is provided with a mesh cover, and the lower part is provided with several air inlets.
[0016] Compared with the prior art, the present invention has the following technical effects:
[0017] 1. The ski goggles of this utility model utilize a pressing element on the outside of the lens fixing component, which cooperates with a mating part to lock and unlock the lens fixing component and the support frame. When the user needs to ventilate the inside of the frame, simply pressing the pressing element releases the locking state of the lens fixing component and the support frame. Due to the action of the first elastic element, the lens fixing component separates from the support frame, allowing external air to easily pass through the gap between the lens assembly and the frame body, thereby improving the efficiency of ventilating the inside of the frame after prolonged skiing. Attached Figure Description
[0018] Figure 1 This is a front axonometric view of a ski goggle as described in this utility model;
[0019] Figure 2 This is an axonometric view of the back of a ski goggle as described in this utility model;
[0020] Figure 3 This is a schematic diagram of the frame body and support frame of a ski goggle according to the present invention.
[0021] Figure 4 This is a schematic diagram of the mating part of a ski goggle according to the present invention;
[0022] Figure 5 This is a schematic diagram of the inner side of the mating part of a ski goggle according to the present invention;
[0023] Figure 6 This is a schematic diagram of the lens fixing component of a ski goggle according to the present invention;
[0024] Figure 7 This is a schematic diagram of the pressing component structure of a ski goggle according to the present invention;
[0025] Figure 8 This is a schematic diagram of the sliding connection between the lens fixing component and the mating part of a ski goggle according to the present invention;
[0026] Figure 9 This is a schematic diagram of a pressing component, a lens fixing component, and a support frame for ski goggles according to the present invention;
[0027] Figure 10 This is a schematic diagram of the anti-slip structure of the pressing part of a ski goggle according to the present invention.
[0028] In the picture:
[0029] 1. Frame body; 101. Mounting slot;
[0030] 2. Support frame; 201. Mating part; 202. Sliding column; 203. First receiving cavity; 204. Claw; 205. First locking block;
[0031] 3. Lens fixing component; 301. Sliding groove; 302. First mating groove; 303. Mating plate; 304. Second mating groove;
[0032] 4. Pressing element; 401. Locking plate; 402. Second receiving cavity; 403. Locking groove; 404. Second locking block;
[0033] 5. Lens assembly; 6. Mesh cover. Detailed Implementation
[0034] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of this utility model will be clearly and completely described below with reference to specific embodiments of this application and the accompanying drawings.
[0035] like Figure 1-4 As shown, a ski goggle includes: a frame body 1, an installation groove 101 is provided on the inner side of the frame body 1, a support frame 2 is installed in the installation groove 101, a mating part 201 is provided on both sides of the support frame 2, a lens fixing member 3 is slidably connected to each of the two mating parts 201, and a lens assembly 5 is provided between the two lens fixing members 3.
[0036] A first elastic element is provided between the lens fixing member 3 and the support frame 2. The first elastic element allows the lens fixing member 3 and the support frame 2 to separate from each other. A pressing member 4 is provided on the outer side of the lens fixing member 3. The pressing member 4 cooperates with the mating part 201 to lock the lens fixing member 3 and the support frame 2.
[0037] A pressing element 4 is provided on the outside of the lens holder 3, which cooperates with the mating part 201 to lock and unlock the lens holder 3 and the support frame 2. When the user needs to ventilate the inside of the frame, he only needs to press the pressing element 4 to release the locked state of the lens holder 3 and the support frame 2. Due to the action of the first elastic element, the lens holder 3 will separate from the support frame 2. At this time, external air can easily pass through the gap between the lens assembly 3 and the frame body 1, thereby improving the efficiency of ventilating the inside of the frame after long-term gliding.
[0038] like Figure 4-5As shown, two sliding posts 202 are symmetrically arranged on the mating part 201. A first receiving cavity 203 is formed in the middle of the sliding post 202, which is used to place the first elastic member. A first locking block 205 is provided on the side wall of the sliding post 202. In a specific embodiment, the first elastic member is a spring with a length greater than the depth of the first receiving cavity 203, which is used to realize that the lens fixing member 3 automatically springs open and slides out on the sliding post 202 after unlocking. The two symmetrically arranged sliding posts 202 provide a clear guide for the sliding of the lens fixing member 3. The lens fixing member 3 can slide along the sliding post 202. This symmetrical structural design makes the lens fixing member 3 evenly stressed during the sliding process, avoiding jamming or shaking, and ensuring the smoothness and stability of the sliding of the lens fixing member 3.
[0039] like Figure 6 and Figure 8 As shown, the lens holder 3 has two symmetrically arranged sliding grooves 301. The sliding grooves 301 engage with the sliding post 202. A first mating groove 302 is formed on the side wall of each sliding groove 301, engaging with the first locking block 205 to prevent complete separation of the sliding groove 301 from the sliding post 202. By engaging the first locking block 205 with the first mating groove 302, even after the lens holder 3 is unlocked from the support frame 2, the user does not need to worry about the lens holder 3 completely detaching from the support frame 2, thus preventing damage to the lens assembly 5 caused by the lens holder 3 falling off.
[0040] like Figure 4-6 As shown, the mating part 201 is provided with a claw 204, and the lens fixing member 3 is provided with a mating plate 303. The claw 204, the mating plate 303 and the pressing member 4 cooperate to lock the lens fixing member 3 and the support frame 2.
[0041] like Figure 9-10 As shown, the lens fixing member 3 has a sliding cavity in the middle that cooperates with the pressing member 4. The pressing member 4 has a locking plate 401 in the middle. The locking plate 401 and the pressing member 4 are spaced apart to form a locking groove 403. The locking groove 403 is used to cooperate with the claw 204.
[0042] The pressing member 4 has two symmetrically arranged second receiving cavities 402 on its side wall opposite to the bottom of the sliding cavity. The second receiving cavity 402 is used to accommodate the second elastic member. The second elastic member is used to push the pressing member 4 away from the sliding cavity, so that the claw 204 cooperates with the locking groove 403 to clamp the mating plate 303 and the locking plate 401.
[0043] The pressing element 4 is spaced apart from the bottom of the sliding cavity to form an unlocking sliding space.
[0044] The locking plate 401 in the middle of the pressing member 4 and the locking groove 403 formed by the spaced interval between the pressing member 4 and the pressing member 4 can precisely cooperate with the claw 204. After the lens fixing member 3 is installed in place, under the pushing action of the second elastic member, the pressing member 4 moves away from the sliding cavity, so that the claw 204 smoothly engages with the locking groove 403, tightly clamping the mating plate 303 and the locking plate 401, thereby quickly and stably locking the lens fixing member 3. When the user needs to lock the lens, he only needs to press the lens fixing member 3 to make the lens fixing member 3 cooperate with the support frame 2. At this time, the pressing member 4 can automatically lock under the action of the second elastic member.
[0045] The unlocking sliding space formed between the pressing member 4 and the bottom of the sliding cavity facilitates the unlocking operation. When ventilation is needed, the user only needs to press the pressing member 4 to overcome the elastic force of the second elastic member and move it towards the bottom of the sliding cavity. The pawl 204 will then disengage from the locking groove 403, achieving quick unlocking.
[0046] In one specific embodiment, the above-mentioned snap-fit structure is provided with a guide slope in its installation direction to facilitate the engagement between the two. The specific structure is a conventional technical means well known to those skilled in the art, so the structure of the guide slope is not described in detail in the text.
[0047] like Figure 10 As shown, the mating plate 303 has second mating grooves 304 on both sides, and the pressing member 4 is correspondingly provided with a second locking block 404. The second locking block 404 cooperates with the second mating groove 304 to prevent the pressing member 4 from falling out of the sliding cavity on the lens fixing member 3. When the user performs lens locking and unlocking operations, the pressing member 4 needs to slide smoothly within the sliding cavity. The cooperation between the second locking block 404 and the second mating groove 304 ensures that the pressing member 4 will not accidentally disengage during the sliding process, allowing the operation to be carried out continuously. The user does not need to worry about the pressing member 4 suddenly falling out and interrupting the operation, which is especially important in outdoor environments.
[0048] like Figure 1-2 As shown, the upper part of the frame body 1 is provided with a mesh cover 6, and the lower part is provided with several air inlets. The air inlets and mesh cover 6 increase the frequency of air exchange between the inside of the frame and the outside air, improving the overall breathability. Skiing is a strenuous sport, and skiers sweat a lot, especially around the eyes. Good breathability allows sweat to evaporate more quickly, keeping the skin around the eyes dry and reducing discomfort and skin problems caused by sweat accumulation.
[0049] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several modifications and improvements can be made without departing from the inventive concept of the present utility model, and these all fall within the protection scope of the present utility model.
Claims
1. A type of ski goggles, characterized in that, include: The frame body (1) has an inner groove (101) and a support frame (2) is installed in the groove (101). The support frame (2) has a mating part (201) on each side. Lens fixing parts (3) are slidably connected to the two mating parts (201). A lens assembly (5) is provided between the two lens fixing parts (3). A first elastic element is provided between the lens fixing member (3) and the support frame (2). The first elastic element allows the lens fixing member (3) and the support frame (2) to separate from each other. A pressing member (4) is provided on the outside of the lens fixing member (3). The pressing member (4) cooperates with the mating part (201) to lock the lens fixing member (3) and the support frame (2).
2. The ski goggles according to claim 1, characterized in that, Two sliding posts (202) are symmetrically arranged on the mating part (201). A first receiving cavity (203) is opened in the middle of the sliding post (202). The first receiving cavity (203) is used to place the first elastic member. A first locking block (205) is provided on the side wall of the sliding post (202).
3. A ski goggle according to claim 2, characterized in that, Two sliding grooves (301) are symmetrically arranged on the lens fixing component (3). The sliding grooves (301) are used to cooperate with the sliding column (202). A first mating groove (302) is opened on the side wall of the sliding groove (301). The first mating groove (302) is used to cooperate with the first locking block (205) to prevent the sliding groove (301) from completely separating from the sliding column (202).
4. A ski goggle according to claim 3, characterized in that, The mating part (201) is provided with a claw (204), and the lens fixing member (3) is provided with a mating plate (303). The claw (204), the mating plate (303) and the pressing member (4) cooperate to lock the lens fixing member (3) and the support frame (2).
5. A ski goggle according to claim 4, characterized in that, The lens fixing member (3) has a sliding cavity in the middle that cooperates with the pressing member (4). The pressing member (4) has a locking plate (401) in the middle. The locking plate (401) and the pressing member (4) are spaced apart to form a locking groove (403). The locking groove (403) is used to cooperate with the claw (204). The pressing member (4) has two second receiving cavities (402) symmetrically opened on the side wall opposite to the bottom of the sliding cavity. The second receiving cavity (402) is used to receive the second elastic member. The second elastic member is used to push the pressing member (4) away from the sliding cavity, so that the claw (204) cooperates with the locking groove (403) to clamp the mating plate (303) and the locking plate (401). The pressing element (4) is spaced apart from the bottom of the sliding cavity to form an unlocking sliding space.
6. A ski goggle according to claim 5, characterized in that, The mating plate (303) has a second mating groove (304) on both sides, and the pressing member (4) is provided with a second locking block (404). The second locking block (404) cooperates with the second mating groove (304) to prevent the pressing member (4) from falling off the sliding cavity on the lens fixing member (3).
7. A ski goggle according to claim 1, characterized in that, The upper part of the frame body (1) is provided with a mesh cover (6), and the lower part is provided with several air inlets.