CN218272970U

CN218272970U - Integrated goggles

Info

Publication number: CN218272970U
Application number: CN202222421291.4U
Authority: CN
Inventors: 周杨; 俞灿强
Original assignee: Xiamen Tanuo Optical Technology Co ltd
Current assignee: Xiamen Tanuo Optical Technology Co ltd
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2023-01-10
Anticipated expiration: 2032-09-13

Abstract

The utility model discloses an integrative goggles, including the goggles lens, the goggles lens sets up the radian along human face curve, the goggles lens includes left goggles lens, right goggles lens, left dioptric lens, right dioptric lens, left goggles lens and right goggles lens symmetry set up and splice together, left side inlay the hole is seted up at the middle part of left goggles lens, left side inlay the hole and be equipped with left dioptric lens, inlay the hole on a left side in cooperation embedding of left dioptric lens, right side inlay the hole in the middle part of right goggles lens is seted up, right side inlay the hole and be equipped with right dioptric lens, inlay the hole on the right side in cooperation of right dioptric lens, left dioptric lens and right dioptric lens are the lens that has the diopter. The utility model discloses increased on the basis of goggles and corrected eyesight function, the at utmost remains the streamlined of integrative goggles itself and prevents wind the design, and overall structure is firm, simple, and technology is unique, and the greatly reduced processing degree of difficulty improves the yield.

Description

Integrative goggles

Technical Field

The utility model belongs to the technical field of the glasses processing, concretely relates to integrative goggles.

Background

Goggles, also called as wind-proof goggles, are designed for riding people at first, and compared with common eyeglasses, the windproof goggles have stronger wrapping property, can fully isolate human eyes from the outside, and prevent dust and air current from entering the human eyes during riding, so the windproof eyeglasses are set to be eyeglasses for protecting the eyes of a wearer in a popular way.

At present, goggles with two forms are available on the market, one is an integrated goggle, the outline shape of the integrated goggle is directly cut by a whole lens, and the other is a common spectacle similar to a double-lens, and two separated lenses are embedded on a spectacle frame; the goggles in the two forms have certain sphere-like radians and are used for fitting eyes of a human body, generally, the radian is closer to the eyes, the wrapping performance is better, and the wind-proof capacity is better.

However, in terms of the current production technology, the goggles in two forms do not have the function of correcting vision, taking the near vision lens in the dioptric lens as an example, the near vision lens is a concave lens, and the integrated goggles have a narrow processing space at one side of the lens close to the eye because the whole lens has a radian, so that the processing of the high-precision concave lens in the narrow and limited space has extremely high requirements on processing equipment and processes, and the current production technology cannot be realized; because the radian of myopia lens is less, and the whole radian of goggles is great and be "streamlined", if with double-lens replacement for myopia lens, then the whole pitch arc of goggles is "non-streamlined" to the myopia lens has increased the windward side, makes prevent wind the effect and descends, consequently, double-lens goggles is also not fit for assembling myopia lens.

Through retrieval, a pair of windproof glasses with a patent number of CN200720170823.4 discloses that the windproof glasses are worn while the myopia glasses are worn, and particularly, a space for the myopia glasses to be placed (abducted) is reserved on an inner liner at the rear part of a glasses frame, so that eyes of a wearer can prevent wind and correct vision. However, wearing two pairs of glasses at the same time can cause the eyes to be stressed heavily and increase the discomfort of the eyes. Therefore, the existing windproof glasses have certain limitations.

In view of the immaturity of the glasses technology and the imperfect fusion of the functions of wind prevention and vision correction, the market scale of the wind prevention and vision correction glasses is smaller at present, so that a technology for solving the problem of the current industry situation is urgently needed to be developed to develop the market.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrative goggles has increased and has corrected visual function, and the at utmost remains the streamlined of integrative goggles itself and prevent wind the design, and overall structure is firm, simple.

To achieve the above object, the solution of the present invention is: the utility model provides an integrative goggles, including the goggles lens, the goggles lens sets up along the curved radian of human face, the goggles lens includes left goggles lens, right goggles lens, left dioptric lens, right dioptric lens, left goggles lens and right goggles lens symmetry set up and splice together, the hole is inlayed on a left side is seted up at the middle part of left goggles lens, the hole is inlayed on a left side is equipped with left dioptric lens, inlay the hole on a left side in left dioptric lens cooperation embedding, inlay the hole on the right side in the middle part of right goggles lens, it is equipped with right dioptric lens to inlay the hole on the right side, inlay the hole on the right side in right dioptric lens cooperation embedding right side, left dioptric lens and right dioptric lens are the lens that has the diopter.

Preferably, the left and right insert holes have the same structure.

According to the preferable scheme, the left inlaying hole penetrates through the middle part of the left goggle lens, the aperture of the left inlaying hole on the outer side of the left goggle lens is an outer aperture, the aperture of the left inlaying hole on the inner side of the left goggle lens is an inner aperture, and the outer aperture is smaller than the inner aperture; the outside diameter of the left dioptric lens is smaller than the inside diameter, the outside diameter of the left dioptric lens is matched with the outer aperture of the left inlaying hole, and the inside diameter of the left dioptric lens is matched with the inner aperture of the left inlaying hole.

Preferably, the outer side of the left dioptric lens is provided with an outer boss structure, and the outer boss structure is obliquely transited to the inner aperture.

Preferably, the outer aperture of the left insert hole is in an inclined transition to the inner aperture, the inclination angle changes in a nonlinear manner, the outer hole contracts radially inwards by a section of diameter and then expands to the inner aperture, so that a smooth inner boss structure is formed between the outer aperture and the inner aperture, and correspondingly, the outer side of the left dioptric lens contracts inwards by a section of diameter and then expands to the inner side.

Preferably, the inclination angle is controlled to be 1 to 10 °.

Preferably, the dioptric lens is a myopic lens, a hyperopic lens or an astigmatic lens.

Preferably, the goggles lens and the diopter lens are tinted or non-tinted lenses.

Preferably, the shape of the dioptric lens is square, circular, polygonal or irregular.

Preferably, the goggle lens is provided with a nose pad part.

After the scheme is adopted, the utility model discloses a gain effect lies in: the utility model discloses a goggles lens has designed half left goggles lens and right goggles lens, reduce the radian that the goggles lens adds man-hour, the processing degree of difficulty has been reduced, the problem that the goggles lens can't process out the dioptric lens because of the radian is too big has been overcome, then left goggles lens and right goggles lens can carry out the amalgamation equipment again, original radian recovers, the streamlined structure of goggles itself has been remain, still have good effect of preventing wind, the structure is firm, and is light and handy, and simultaneously, possess the diopter again, correct eyesight, make the function of goggles stronger, the integration of the two of goggles lens and dioptric lens has been opened, establish the basis for the lens processing is diversified.

Drawings

Fig. 1 is a schematic view of an overall structure of an integrated goggles according to an embodiment of the present invention;

fig. 2 is a schematic exploded view of a goggle lens according to an embodiment of the present invention;

fig. 3 is a schematic top view (assembled state) of a goggle lens according to an embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is a schematic view of the structure of the second left dioptric lens and the left inlay hole according to the embodiment of the present invention.

Description of reference numerals:

1. goggles lenses; 11. a left goggle lens; 12. a right goggle lens; 13. a left inlaying hole; 14. a right inlaying hole;

2. a refractive lens; 21. a left refractive lens; 22. a right refractive lens; 23. an outer boss structure; 24. an inner boss structure.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. Obviously, the described embodiments are preferred embodiments of the invention and should not be considered as excluding other embodiments. Based on the embodiment of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

the utility model provides an integrative goggles, as shown in figure 1, including goggles lens 1, combine figure 3, goggles lens 1 sets up along the curved radian of human face, combine figure 2, goggles lens 1 includes left goggles lens 11, right goggles lens 12 and dioptric lens 2, left goggles lens 11 and right goggles lens 12 symmetry set up and the centre splices together, dioptric lens 2 includes left dioptric lens 21 and right dioptric lens 22, left side inlays hole 13 is seted up at the middle part of left goggles lens 11, supply left dioptric lens 21 cooperation embedding, right side inlays hole 14 is seted up at the middle part of right goggles lens 12, supply right dioptric lens 22 cooperation embedding. The size of the left dioptric lens 21 is consistent with the size of the left inlaid hole 13, and the size of the right dioptric lens 22 is consistent with the size of the right inlaid hole 14, in the first embodiment, both the left dioptric lens 21 and the right dioptric lens 22 are goggle lenses 1 with diopter, that is, the left dioptric lens 21 and the right dioptric lens 22 are processed by arranging the remaining goggle lenses 1 at the positions of the left inlaid hole 13 and the right inlaid hole 14, so that the left dioptric lens 21 and the left inlaid hole 13 can be matched, and the right dioptric lens 22 and the right inlaid hole 14 can be matched. Certainly, on the premise of ensuring the matching, the left dioptric lens 21 can be processed independently from the non-goggle lens 1, and the scheme is not limited.

The left and right insert

holes

13 and 14 have the same structure. Taking the left insert hole 13 as an example, the left insert hole 13 penetrates the middle part of the left goggle lens 11, and the hole diameter of the left insert hole 13 outside the left goggle lens 11 is the outer hole diameter L ₁ The aperture of the left inlaying hole 13 at the inner side of the left goggle lens 11 is an inner aperture L ₂ The outer aperture being smaller than the inner aperture, i.e. L ₁ ＜L ₂ (ii) a Outside diameter L of left diopter lens 21 ₃ Less than inside diameter L ₄ I.e. L ₃ ＜L ₄ (ii) a Outside diameter L of left diopter lens 21 ₃ Outer diameter L of the left insert hole 13 ₁ Fitting, inside diameter L of left diopter lens 21 ₄ Inner diameter L of the left insert hole 13 ₂ And (5) matching. In the first embodiment, the outer side of the left dioptric lens 21 is provided with the outer boss structure 23, as shown in fig. 4, the outer boss structure 23 is in inclined transition to the inner aperture, the outer boss structure 23 improves the stability of the left dioptric lens 21, the inclined transition facilitates the insertion of the left dioptric lens 21 into the left inlay hole 13, and further, the inclined transition can be designed to be in a smooth arc shape; the inclination angle is controlled to be 1-10 degrees, the angle range of 5-7 degrees is optimal, the embedded structure is not easy to see from the front surface and the back surface in use vision and appearance, and the integral integrity of the goggles is improved.

The dioptric lens 2 is selected to be a near-sighted lens, a far-sighted lens or an astigmatic lens according to the actual requirement of a user. The shape of the dioptric lens 2 can be any shape required by processing, such as square, circle, polygon, abnormity, etc.

The goggles lens 1 and the dioptric lens 2 can be colored lenses or colorless lenses, or lenses with different colors can be selected, and the goggles lens 1 on the outer ring of the dioptric lens 2 has a buffering effect on instant light change so as to reduce the influence of light mutation on human eyes.

The utility model also provides an integrative goggles preparation method, including following step:

s1, preparing a goggle lens 1: processing the raw material of the goggle lens 1 under the corresponding conditions of temperature, humidity and time, and then processing and molding the processed raw material of the goggle lens 1 according to the required specification to obtain a whole piece of goggle lens 1;

s2, splitting: cutting the half-middle of the goggle lens 1 prepared in the step S1 to obtain a left goggle lens 11 and a right goggle lens 12, wherein the cut parts are subsequent splicing parts, and a high-precision cutting technology, such as nano-scale laser cutting, can be adopted, so that no gap can be seen from the appearance of the final splicing part;

s3, hole digging: after cutting, the radian of the left goggle lens 11 and the right goggle lens 12 is smaller than that of the whole goggle lens 1, then a left embedding hole 13 and a right embedding hole 14 are respectively cut in the middle of the left goggle lens 11 and the right goggle lens 12 with small radians, and cut lens base materials are obtained;

s4, diopter processing: performing diopter processing on the cut lens base materials in an optical power garage to obtain a left diopter lens 21 and a right diopter lens 22;

s5, assembling: embedding the left dioptric lens 21 into the left embedding hole 13 to obtain an integrated left goggle lens 11, embedding the right dioptric lens 22 into the right embedding hole 14 to obtain an integrated right goggle lens 12, and finally splicing the two left goggle lenses 11 and the right goggle lenses 12 together to obtain the integrated goggle lens 1.

Further optimization, in step S3, the outer apertures of the left and right insert holes 13 and 14 are cut in the middle of the outer sides of the left and

right goggle lenses

11 and 12 in a single cut, and the purpose of the cutting is to preserve the integrity of the goggle lens 1 to the maximum extent so as to be embedded in a more matched and aligned manner, and then the transition portions between the inner apertures of the left and right insert holes 13 and 14 and the inner and outer apertures are cut out from the inner side one or more times, that is, most of the subsequent cutting is completed on the inner side, and the integrity of the outer side of the goggle is better preserved.

The utility model discloses the use can directly be worn as no mirror frame goggles to final goggles lens 1 who makes, and goggles lens 1 is equipped with nose support portion and supplies the nasal part to support and lean on, and the picture frame also can be cup jointed at the outer fringe to final goggles lens 1 who makes, wears the use as the goggles of taking the picture frame.

Example two:

the second embodiment is different from the first embodiment in that: as shown in fig. 5, the outer aperture of the left insert hole 13 is obliquely transited to the inner aperture, the inclination angle is non-linearly changed, the outer aperture can be inwardly contracted by a section of diameter and then expanded to the inner aperture, so that a smooth inner convex structure 24 is formed between the outer aperture and the inner aperture, adaptively, the left dioptric lens 21 is also designed to be outwardly inwardly contracted by a section of diameter and then expanded to the inner side, and then the left dioptric lens 21 is fittingly inserted into the left insert hole 13, therefore, the left dioptric lens 21 can be easily inserted into the left insert hole 13 without forming the outer convex structure 23 of the first embodiment, the assembly is easier, and the left insert hole 13 can also be stably fixed.

In the description of the present invention, it is to be understood that the terms "outer", "outside", "inner", "middle", "both sides", and the like are defined relative to the structures shown in the drawings, and they are relative terms, and thus may be changed according to the positions and the use states. Therefore, these and other directional terms should not be construed as limiting terms.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the design of the present application, and all equivalent changes made according to the design key of the present application fall within the protection scope of the present application.

Claims

1. The utility model provides an integrative goggles, a serial communication port, including the goggles lens, the goggles lens sets up the radian along human face curve, the goggles lens includes left goggles lens, right goggles lens, left dioptric lens, right dioptric lens, left goggles lens and right goggles lens symmetry set up and splice together, left side inlay the hole is seted up at the middle part of left goggles lens, left side inlay the hole and be equipped with left dioptric lens, inlay the hole on a left side in cooperation embedding of left dioptric lens, right side inlay the hole in the middle part of right goggles lens is seted up, right side inlay the hole and be equipped with right dioptric lens, inlay the hole on the right side in cooperation embedding of right dioptric lens, left dioptric lens and right dioptric lens are the lens that has the diopter.

2. A unitary goggle according to claim 1 wherein: the left and right insert holes have the same structure.

3. A unitary goggle according to claim 2 wherein: the left inlaying hole penetrates through the middle part of the left goggle lens, the aperture of the left inlaying hole on the outer side of the left goggle lens is an outer aperture, the aperture of the left inlaying hole on the inner side of the left goggle lens is an inner aperture, and the outer aperture is smaller than the inner aperture; the outside diameter of left dioptric lens is less than the inside diameter, and the outside diameter of left dioptric lens cooperatees with the outer aperture of left inlay hole, and the inside diameter of left dioptric lens cooperatees with the inner aperture of left inlay hole.

4. A body goggle according to claim 3 wherein: the outer side of the left dioptric lens is provided with an outer boss structure, and the outer boss structure is in inclined transition to the inner aperture.

5. A body goggle according to claim 3 wherein: the outer aperture of the left inlay hole is in inclined transition to the inner aperture, the inclination angle is in nonlinear change, the outer aperture is radially contracted inwards by a section of diameter and then is expanded to the inner aperture, so that a smooth inner boss structure is formed between the outer aperture and the inner aperture, and correspondingly, the left dioptric lens is expanded to the inner side after the outer side is contracted inwards by a section of diameter.

6. A body goggle according to claim 4 or 5 wherein: the inclined angle is controlled to be 1-10 degrees.

7. A body goggle according to claim 1 wherein: the dioptric lens is a near-sighted lens, a far-sighted lens or an astigmatic lens.

8. A body goggle according to claim 1 wherein: the goggles lens and the dioptric lens are colored or colorless lenses.

9. A body goggle according to claim 1 wherein: the shape of the dioptric lens is square, round, polygonal or irregular.

10. A body goggle according to claim 1 wherein: the goggle lens is provided with a nose support part.