WO2016119435A1

WO2016119435A1 - Land sports glasses for myopia modularization assembly system and assembly method

Info

Publication number: WO2016119435A1
Application number: PCT/CN2015/086606
Authority: WO
Inventors: 穆家骏
Original assignee: 穆家骏
Priority date: 2015-01-29
Filing date: 2015-08-11
Publication date: 2016-08-04
Also published as: TWM516166U; CN104656284A

Abstract

A pair of land sports glasses for myopia modularization assembly system and an assembly method therefor, comprising finished products of different degrees of myopia lenses (1) and different types of sports glasses frames (2), wherein each of the myopia lenses (1) has the same physical dimension and the same fixed optical centre point, the physical dimension of each of the sports glasses frames (2) is not less than that of each of the myopia lenses (1), each of the myopia lenses (1) can be arranged in each of the sports glasses frames (2), and the optical centre point of the assembled sports glasses for myopia is consistent with the pupillary distance of two eyes of a user, and a pair of sports glasses for myopia for the user to wear and use is immediately formed. Each type of modularized sports glasses frames (2) can be directly combined under the condition that myopia lenses (1) are not changed, flexible adjustment can be better realized according to the distance between the optical centre points of two eyes of a user, thus achieving advantages of extremely high convenience, rapidity and low cost.

Description

Land sports glasses modular assembly system and assembly method for land use

Technical field

The invention relates to a sports myopia for land and a method for assembling the same.

Background technique

Sports glasses are the most popular glasses in the current fashion. They are divided into different types of sports glasses according to different movement modes, such as golf glasses, basketball glasses, jogging glasses, etc., which are used in different sports. There are big differences in structure and style. For example, when exercising vigorously, it is necessary to use sports glasses with protective functions, such as basketball glasses or rugby glasses. Usually, thick cushioning anti-collision parts are set, and glasses used in ordinary leisure sports, Such as cycling glasses, the style is closer to ordinary glasses. The lenses of different functional sports glasses have different distances from the eyes of the user, and the shapes of the lenses used are also different.

Nowadays, the population of myopia is getting more and more, and ordinary myopia glasses can not be used safely in sports, especially during strenuous exercise. Users can wear contact lenses and wear sports glasses, but not everyone is suitable for wearing contact lenses, and not all kinds of sports can be suitable for contact lenses, so more and more users Sports glasses with myopia lenses will be selected. According to the existing assembly technology of myopia glasses, the user first needs to obtain his own myopia degree by optometry, then select the frame of the desired style, and then order the lens factory through the store to take a certain time. Cutting the lens, combining the lens with the frame and adjusting the optical center point of the lens to match the pupil distance between the two eyes of the user, the assembled myopia glasses can be used for the user to try on, if the user is not satisfied, Need to re-select the lens or frame, re-cut the lens, the above process has to come back again, very time consuming. For myopia sports glasses, because of the functional requirements of the glasses themselves, the distance between the myopia lens and the user's eyes is not necessarily the same as that of the user's eyes. The lens power of the sports glasses does not necessarily match the user's myopia degree, and it is more likely to be unsatisfactory to the user. Therefore, the user needs to spend more time and cost to wait for the manufacturing process for the personalized lens, such as optometry, cutting glasses, etc., and can not quickly obtain the effect after the trial on the spot; and the user can not be in the store site The same myopic lens that conforms to its own myopia is repeatedly combined and paired with a variety of different styles of sports frames and tried on, so that the user must purchase separately according to different sports. The pair of sports glasses, and each pair of sports glasses include a frame and a myopic lens that conforms to the user's myopia, so that the user often spends a lot of money to purchase various kinds of myopia sports glasses including the frame, and then It takes time to configure myopia lenses that match the individual's degree. Therefore, how to solve the above problems and shortcomings in the prior art, that is, the relevant manufacturers engaged in this industry are eager to study the direction of improvement.

Summary of the invention

The object of the present invention is to provide a modular assembly system for sports glasses for terrestrial use. The assembly system can modularize the motion frame and a single fixed-size myopia lens, and adjust the optical center point suitable for the user. It has been achieved that the user can combine various other sports glasses frames without replacing the myopia lens.

Another object of the present invention is to provide a modular assembly method for sports glasses for terrestrial use, and select a frame that can be assembled with a single fixed-size myopia lens from various types of sports glasses frames, and adjust the suitable frame for use. The optical center point of the user is such that the user can combine other various sports glasses frame without replacing the myopia lens.

The technical solution of the present invention is: a modular assembly system for sports glasses for terrestrial use, which comprises finished products of different degrees of myopia lenses and different types of sports glasses frames, wherein each of the myopia lenses has the same physical size and the same fixing The optical center point, the physical size of each sports eyeglass frame is not less than the physical size of each myopia lens, each myopia lens can be disposed in each sports eyeglass frame, and the optical center point of the assembled sports myopia glasses and the user's two eyes The pupil distance is consistent, and the sports myopia glasses used for wearing are formed immediately.

Different degrees of myopia lenses have the same fixed optical center point and the same physical size, and the physical dimensions of different forms of sports glasses frames are not less than the physical size of myopia lenses, and myopia lenses can be quickly accommodated in the frames of sports glasses. It can be assembled into sports glasses for trial use. When the user selects the corresponding sports glasses frame according to their own sports needs, the position of the lens in the frame can be adjusted by setting different degrees of myopia lenses in the frame of the sports glasses. The optical center point of the assembled myopia glasses conforms to the pupil spacing of the two eyes of the user, and the trial effect is obtained immediately at the scene, so that the most suitable user degree of myopia lens can be selected, and the motion is suitable for the user's personal motion myopia. Glasses, greatly reducing the cost of the purchase, convenient and fast. In addition, the selected myopia lenses can also match different styles of sports glasses frames under the same sports requirements, without the need to purchase additional lenses.

It is also provided with a structural component for adjusting the optical center point of the sports myopia, the structural component comprising a nose bridge and/or a lens sleeve. A telescopic mechanism is arranged in the nose bridge. The optical center point composite user needs of the assembled myopia glasses can be adjusted by changing the nose bridge size, changing the nose bridge telescopic length or the lens sleeve size.

The myopia lens is a color changing lens, a resin lens, a polarizing lens, a dimming anti-blue lens or an explosion-proof lens. The myopia lens is a convex or concave lens or a plano-concave lens.

Another technical solution of the present invention is: a modular assembly method for sports glasses for terrestrial use, selecting a product that meets the user's demand from the finished products of different degrees of myopia lenses having the same physical size and the same fixed optical center point. Myopia lens; from different types of sports glasses frame with physical size not less than the physical size of each myopic lens, select the sports glasses frame that meets the user's needs; set the selected myopia lens in the frame of the sports glasses, so that after assembly The optical center point of the sports myopia glasses coincides with the pupil distance of the user's eyes, and immediately forms the sports myopia glasses for wearing.

It is further provided with a step of adjusting the optical center point of the assembled myopia glasses by the structural member to coincide with the pupil distance of the user's eyes.

It also has the step of adjusting the optical center point of the assembled myopia glasses to match the pupil distance of the user's eyes by replacing the nose bridges of different sizes.

It also has a step of adjusting the length of the nose bridge by adjusting the telescopic structure in the nasal bridge, and adjusting the optical center point of the assembled sports myopia glasses to match the distance between the pupils of the two eyes of the user.

It also has the step of adjusting the optical center point of the assembled sports myopia glasses to match the pupil distance of the user's eyes by replacing the lens sleeves of different sizes.

The invention has the advantages that the various sports glasses frames can be directly combined without replacing the myopia lens, and the flexible adjustment can be realized according to the distance between the optical center points of the two eyes of the user, which is extremely convenient and fast. The advantages of sex and low cost.

DRAWINGS

1 is a schematic view showing the relationship between a myopic lens and various sports glasses frames according to Embodiment 1 of the present invention;

2 is a schematic view showing the combination of a myopia lens and a sports eyeglass frame according to Embodiment 1 of the present invention;

3 is a schematic view showing the combination of a myopia lens and a sports eyeglass frame according to Embodiment 1 of the present invention;

4 is a schematic view showing the position of an optical center point in Embodiment 1 of the present invention;

Figure 5 is a schematic view showing a telescopic structure of a nose bridge according to Embodiment 1 of the present invention;

6 is a schematic view showing a telescopic structure of a nose bridge according to Embodiment 1 of the present invention;

7 is a schematic view showing the operation of replacing a frame or a headband in Embodiment 1 of the present invention;

Figure 8 is a schematic view of Embodiment 2 of the present invention;

Figure 9 is a schematic view of Embodiment 3 of the present invention;

Figure 10 is a schematic view of a sports sunglasses according to Embodiment 4 of the present invention;

Figure 11 is a schematic view of a sports mirror according to Embodiment 5 of the present invention;

1, myopia lens, 1b, myopia lens, 2, sports glasses frame, 2b, sports glasses frame, 21, nose bridge, 21a, nose bridge, 211a, telescopic structure, 22, frame, 23, frame, 24, headband , 3b, lens cover, 4c, sports sunglasses, 5c, sports mirror.

detailed description

Example 1:

1-4 is a modular assembly system for sports glasses for terrestrial use, comprising different degrees of finished myopia lenses 1 and different types of sports glasses frames 2, wherein each of the myopic lenses 1 has the same physical size. And the same fixed optical center point, the physical size of each of the sports glasses frame 2 is not less than the physical size of each of the myopic lenses 1, and each of the myopia lenses 1 can be disposed in each of the sports glasses frames 2, and the opticals of the assembled sports myopia glasses The center point coincides with the pupil distance of the user's eyes, and immediately forms the sports myopia glasses for wearing.

A modular assembly method for sports glasses for terrestrial use, from the different degrees of finished myopia lens 1 having the same physical size and the same fixed optical center point, selecting a myopic lens 1 that meets the user's demand degree; the physical size is not less than In the different types of sports glasses frames 2 of physical dimensions of each myopia lens 1, a sports eyeglass frame 2 that meets the user's needs is selected; the selected myopia lens 1 is placed in the sports eyeglass frame 2 to make the assembled sports glasses The optical center point is consistent with the pupil distance of the user's eyes, and immediately forms the sports myopia glasses for wearing.

Different degrees of myopia lens 1 have the same fixed optical center point and the same physical size, and the physical size of different forms of sports eyeglass frame 2 is not less than the physical size of myopia lens 1, and myopia lens 1 can be quickly accommodated in sports glasses. In the frame 2, the field can be assembled into the sports glasses for trial use. When the user selects the corresponding sports glasses frame according to his own sports needs, he can pass the frame in the sports glasses. 2 sets the myopia lens 1 of different degrees. By adjusting the position of the lens in the frame, the optical center point of the assembled myopia glasses conforms to the pupil spacing of the two eyes of the user, and the try-on effect is obtained immediately at the scene, so that the most suitable one is selected. The myopia lens of the user degree is assembled into the most suitable sports myopia glasses for the user, which greatly reduces the cost of the purchase, and is convenient and quick. In addition, the selected myopia lenses can also match different styles of sports glasses frames under the same sports requirements, without the need to purchase additional lenses.

The myopia lens 1 is a color changing lens, a resin lens, a polarizing lens, a dimming anti-blue lens or an explosion-proof lens. The myopia lens 1 is a convex-concave lens or a plano-concave lens.

Different types of sports glasses frames 2 adjust the installation of the myopia lens 1 by adding structural components, and adjust the optical center point suitable for the user, so that the user can use various types of sports glasses without replacing the myopia lens 1. Frame 2 is combined. As shown in FIG. 2, the eyeglass frame 2 is composed of a nose bridge 21 and a frame 22 combined with the nose bridge 21 and a frame 23 combined with the frame 22, and the above-mentioned fabric means is in this paragraph. In the embodiment, the myopia lens 1 can be directly combined with the sports glasses frame 2.

When the user wants to choose to purchase the sports glasses frame 2, the user can first select the myopia lens 1 (for a single fixed size) that matches the user's own myopia, and then select the sports glasses frame 2 that meets his needs. After the fixation, the myopia lens 1 can be directly combined with the sports glasses frame 2, and after the combination is completed, the nose bridge 21 or the frame 22 of different sizes can be replaced to change the distance of the myopia lens 1 to meet the user's needs. The optical center point, in this way, through the above assembly, try-on and experience, the user can quickly select the myopia sports glasses that meet their own needs, and can be directly completed and taken away on the spot. In addition, myopia lenses can be curved or curved myopia lenses, so regardless of the shape of the lens, its modular sports frame can be combined.

Please refer to FIG. 5-6, which is a schematic diagram of the telescopic structure of the nasal bridge of the present invention. As can be clearly seen from the figure, the nasal bridge 21a has a telescopic structure 211a. Thus, the adjustment means change the nasal bridge or the frame in addition to the foregoing application. The size is adjusted outside the optical center point, and the size of the nose bridge 21a can be directly changed by the telescopic structure 211a on the nose bridge 21a, so that the user can reach the appropriate optical center point without continuously replacing the nose bridge 21a.

Please refer to FIG. 7 , which is a schematic diagram of the operation of replacing the frame or the headband according to the present invention. As can be clearly seen from the figure, the user can disassemble and replace the frame 23 according to the movement requirement to be the frame 23 conforming to the movement or Headband 24 to achieve the right movement.

Example 2

Please refer to FIG. 8 , which is another embodiment of the present invention. As can be clearly seen from the figure, when the sports eyeglass frame 2b to be selected by the user cannot directly combine with the myopia lens 1b, a lens cover can be utilized. 3b as a means of bridging, firstly, after the myopia lens 1b and the lens cover 3b are assembled, and then the lens cover 3b and the sports eyeglass frame 2b are combined, the myopic lens 1b and the lens cover 3b can be combined with each other. It is worth mentioning that the structure can be a card type, and the user can combine the lens group 1b, the lens cover 3b and the sports eyeglass frame 2b by using a card holder without using any lock. The tool is very convenient.

Example 3:

Please refer to FIG. 9 , which is still another embodiment of the present invention. As can be clearly seen from the figure, when the eyeglass frame 2b cannot be directly combined with the myopia lens 1b, the lens can be utilized. The 3b is used as a bridging means. First, the myopic lens 1b and the lens cover 3b are first assembled, and then the lens cover 3b is combined with the moving lens frame 2b, so that the myopic lens 1b and the lens cover 3b can be mutually In combination, it is worth mentioning that the structure can be a card type, and the user can combine the lens group 1b, the lens cover 3b and the sports eyeglass frame 2b by using a card, without using any The locking tool is very convenient.

Example 4

Referring to FIG. 10, which is a further preferred embodiment of the present invention, it can be seen from the figure that the assembly method of the present invention can be applied to a sports sunglasses 4c having an antiperspirant flow. Other technical features are the same as those in Embodiment 1, and are not described herein.

Example 5:

Referring to FIG. 11, which is an embodiment of the present invention, it can be seen from the figure that the assembling method of the present invention can also be applied to the head mounted sports mirror 5c. Other technical features are the same as those in Embodiment 1, and are not described herein.

The detailed description above is a detailed description of a possible embodiment of the present invention, which is not intended to be limiting The scope of the invention is to be construed as being limited by the scope of the invention.

Claims

A modular assembly system for sports glasses for terrestrial, characterized in that it comprises finished products of different degrees of myopia lenses and different types of sports glasses frames, wherein each of the myopic lenses has the same physical size and the same fixed optical center point. The physical size of each of the sports glasses frames is not less than the physical size of each of the myopic lenses, and each of the myopia lenses may be disposed in each of the sports glasses frames, and the optical center points of the assembled sports myopia glasses are consistent with the pupil distances of the user's eyes. Immediately form sports myopia glasses for use.
The modular assembly system for sports glasses for terrestrial use according to claim 1, characterized in that it is further provided with a structural component for adjusting the optical center point of the sports myopia glasses.
The modular assembly system for sports glasses for terrestrial use according to claim 2, wherein the structural components comprise a nose bridge and/or a lens sleeve.
The modular assembly system for sports glasses for terrestrial use according to claim 3, wherein the nose bridge is provided with a telescopic mechanism.
The modular assembly system for sports glasses for terrestrial use according to claim 1 or 2 or 3 or 4, wherein the myopia lens is a color changing lens, a resin lens, a polarizing lens, a dimming anti-blue lens or an explosion-proof lens. .
The modular assembly system for sports glasses for terrestrial use according to claim 1 or 2 or 3 or 4, wherein the myopia lens is a convex-concave lens or a plano-concave lens.
A modular assembly method for sports glasses for terrestrial use, characterized in that: from a finished product of different degrees of myopia lenses having the same physical size and the same fixed optical center point, selecting a myopic lens that meets the user's demand degree; The different types of sports glasses frames with a size not less than the physical size of each myopic lens are selected, and the selected sports glasses frame is arranged in the frame of the sports glasses to make the optical of the assembled sports glasses. The center point coincides with the pupil distance of the user's eyes, and immediately forms the sports myopia glasses for wearing.
The modular assembly method for sports glasses for terrestrial use according to claim 7, characterized in that it is further provided with an optical center point of the sports myopia glasses adjusted by the structural components and a pupil distance between the eyes of the user. Matching steps.
The modular assembly method for sports glasses for terrestrial according to claim 8, characterized in that Yu: It also has a step of adjusting the optical center point of the sports myopia glasses matched with the user's two-eye pupil distance by replacing the nose bridges of different sizes.
The modular assembly method for sports glasses for terrestrial use according to claim 8, characterized in that: it further comprises changing the length of the nose bridge by adjusting the telescopic structure in the nasal bridge, and adjusting the optical center point of the assembled myopia glasses. The step of matching the pupil distance of the user's eyes.
The modular assembly method for sports glasses for terrestrial use according to claim 8, characterized in that: it is further provided with two optical center points of the sports myopia glasses and the user by adjusting the lens sleeves of different sizes. The step of matching the eye pupil distance.