CN111474741A

CN111474741A - Sunglasses assembly of single-piece lens

Info

Publication number: CN111474741A
Application number: CN201910062882.7A
Authority: CN
Inventors: 黄保明
Original assignee: Tsair Yuarn Industrial Co ltd
Current assignee: Tsair Yuarn Industrial Co ltd
Priority date: 2019-01-23
Filing date: 2019-01-23
Publication date: 2020-07-31

Abstract

The invention relates to a sunglasses component simulating a single-piece lens, which comprises a secondary spectacle frame, a sunshade optical lens group and a main spectacle frame; the auxiliary spectacle frame group is arranged on the main spectacle frame, an upper frame part, a lower frame part, a side frame part and a nose bridge area of the auxiliary spectacle frame are attached to the base part to define two spectacle frame group vertical holes, and convex ribs are arranged on the upper frame part, the lower frame part and the side frame part; the sunshade optical lens group comprises two opposite sunshade optical lenses, the side edge sections of the two sunshade optical lenses facing each other are provided with parallel sections which can be jointed and leaned against each other, one side of the two sunshade optical lenses facing the face of a wearer is provided with a concave section which is flatly attached to the nose bridge area and leaned against the base, and the side edges of the two sunshade optical lenses corresponding to the convex ribs of the auxiliary spectacle frame are provided with embedded grooves in a surrounding way so that the convex ribs are correspondingly embedded into the embedded grooves; therefore, the two sunshade optical lenses can be stably connected in parallel to form the sunglasses imitating a single-piece lens, and the sunglasses component forms the effect of the simulation single-piece sunshade lens with the optical correction function.

Description

Sunglasses assembly of single-piece lens

Technical Field

The invention relates to a sunglasses component simulating a single-piece lens, in particular to a sunglasses component simulating a single-piece lens formed by connecting two pieces of sunshade optical lenses in parallel.

Background

The optical lens for correcting vision is a concave lens or a convex lens, which has a thickness, and the thickness increases with the increase of the power, and sunglasses with good eye covering effect usually have good covering property, and the curvature of the lens with good covering property needs to be larger to correspond to the human face, however, the curvature of the optical lens is usually gentle, so that no sunglasses with the optical lens made into a single lens are available in the market.

For example, the TW 381797 "lens structure" taiwan patent application mainly discloses that a first lens using sunglass lenses is cut into a frame shape, and two corresponding assembling holes are formed, and then a second lens having vision correction function is embedded and fixed in the assembling holes, thereby providing a lens that a user can see objects clearly by using optical lenses while using sunglass lenses to prevent strong light from directly irradiating eyes. Although the lens has the advantage that various types can be cut out through the first lens, the joint line trace of the second lens and the first lens can be clearly seen from the appearance, and the integrity of the lens is influenced.

As another example, TW315346 "glasses fixing structure with sub-frame" taiwan patent application, it mainly installs the sub-frame with optical correction lens on the inner surface of the main frame combined with the sun lens, so that when the glasses are viewed from the external, the sub-frame will not be seen due to the shielding of the sun lens, and the integrity of the sunglasses is not affected. However, the structure adds a pair of glasses frames on the main glasses frame, which results in the heavy weight of the whole glasses and increases the trouble and discomfort when wearing.

Reference is made to the invention of taiwan patent application No. TW 106108659, whose relative case is US15/612, 303, which is a solar spectacle assembly of a single-piece lens applied by the applicant, and which is a positive improvement scheme mainly proposed for the above-mentioned TW 381797 "lens structure" and TW315346 "spectacle fixing structure with auxiliary frame" missing of taiwan novel patent case, the scheme includes a sun-shading optical lens set, a lens frame and a nose pad element; the sunshade optical lens group comprises two opposite sunshade optical lenses, wherein the side sections of the two sunshade optical lenses facing each other are provided with a connecting section which can be connected and leaned against each other, and the connecting section extends downwards to form an inserting part; the nose pad element is provided with an embedding groove for embedding the periphery of the inner side of the sunshade optical lens, the embedding groove is further provided with a jack part, the jack part is used for correspondingly inserting and holding the inserting parts of the two sunshade optical lenses, and clamping force which is close to each other is generated for the two sunshade optical lenses so that the two sunshade optical lenses can be stably connected together to form the sunglasses imitating a single lens; therefore, the sunglasses component forms the effect of a simulation single-chip type sunshade lens with the optical correction function.

Now, the applicant of the present invention has developed another kind of sunglasses assembly with a single-piece lens, which can improve the above-mentioned drawbacks of TW 381797 "lens structure" and TW315346 "glasses fixing structure with auxiliary frame".

Disclosure of Invention

The invention aims to provide a sunglass assembly which adopts a double-piece type optical lens to be connected into a similar single-piece type lens effect.

In order to achieve the above object, the present invention provides a sunglasses assembly with quasi-single-piece lenses, which comprises a pair of frames, a sunshade optical lens set and a main frame; wherein:

the auxiliary lens frame comprises an upper frame part, a lower frame part, two side frame parts and a nose bridge region attaching base part, wherein two ends of the upper frame part and two ends of the lower frame part are respectively connected with the two side frame parts, the middle section of the upper frame part and the middle section of the lower frame part are connected with the nose bridge region attaching base part, so that two lens group standing holes are defined by the upper frame part, the lower frame part, the side frame parts and the nose bridge region attaching base part, and convex ribs are arranged on the inner peripheral surfaces of the upper frame part, the lower frame part and the side frame parts corresponding to the lens group standing holes;

the sunshade optical lens group comprises two opposite sunshade optical lenses, the side sections of the two sunshade optical lenses facing each other are provided with parallel sections which can be jointed and leaned against each other, one side of the two sunshade optical lenses facing the face of a wearer is provided with a depressed area which is flatly attached to the nose bridge area and leaned against the base part, and the peripheries of the two sunshade optical lenses corresponding to the convex ribs of the auxiliary spectacle frame are provided with embedding grooves in a surrounding way, so that the convex ribs are correspondingly embedded into the embedding grooves;

the main picture frame is provided with a channel for the upper frame part of the auxiliary picture frame to be embedded and positioned, and the channel comprises a groove body which is surrounded by an outer surface wall, an inner surface wall corresponding to the outer surface wall and a top wall connected with the top end of the inner surface wall and the top end of the outer surface wall; the upper frame part of the auxiliary mirror frame is assembled and positioned in the groove channel of the main mirror frame.

Therefore, the two sunshade optical lenses can be stably connected in parallel to form the sunglasses imitating a single-piece lens, and the sunglasses component forms the effect of the simulation single-piece sunshade lens with the optical correction function.

The sunglasses assembly with the single-piece-like lens comprises a main frame, a pair of auxiliary frames, a pair of fixing pieces and a pair of auxiliary frames, wherein the main frame is provided with a positioning hole corresponding to the positioning hole, and the fixing pieces are inserted into the positioning hole from the group of positioning holes to combine and position the auxiliary frames and the main frames together.

In the above-mentioned sunglasses assembly with quasi-single-piece lenses, the positioning hole is disposed at the position where the upper frame portion of the auxiliary frame is attached to the base portion corresponding to the nose bridge region.

The above-mentioned sunglasses assembly with single-piece-like lens, wherein the upper frame portion of the auxiliary frame is formed with two engaging blocks adjacent to the side frame portions, the main frame is provided with two engaging slots corresponding to the two engaging blocks, and the two engaging blocks are respectively inserted into the two engaging slots, so that the combination between the auxiliary frame and the main frame is more stable.

The sunglasses assembly simulating the single-piece lens is characterized in that the inner wall of the main spectacle frame is provided with an embedding hole which penetrates through the inner wall and is communicated with the channel, the bottom of the inner wall extends upwards to be provided with a through hole corresponding to the embedding hole, and the through hole is communicated with the embedding hole; the sunglasses assembly of the pseudo-single-piece lens further comprises a pressing piece, an elastic piece and a positioning pin, the pressing piece is correspondingly embedded in the embedding hole, the pressing piece comprises a pressing part, the pressing part extends outwards to form a connecting rod section, a movable positioning groove with a downward opening is formed in the bottom of the connecting rod section corresponding to the through hole, an accommodating groove with an outward opening is formed in the connecting rod section, and inverted hook parts respectively extend towards the left side and the right side of the connecting rod section; the elastic piece is correspondingly accommodated in the accommodating groove of the pressing piece, and one end of the elastic piece, which protrudes out of the opening of the accommodating groove, is abutted against the outer wall of the main spectacle frame; the positioning pin penetrates through the through hole of the main mirror frame and the movable positioning groove of the pressing piece to position the pressing piece in the embedding hole; the auxiliary mirror frame is provided with a groove for the connecting rod section to pass through at the connecting rod section corresponding to the pressing piece, and positioning holes are arranged at the two sides of the groove corresponding to the reverse hook part; after the upper frame part of the auxiliary mirror frame is embedded into the channel of the main mirror frame, the positioning hole is hooked through the inverted hook part, and the auxiliary mirror frame is fixed on the main mirror frame.

In the above-mentioned sunglasses assembly with quasi-single-piece lenses, the outer wall of the frame body is provided with a convex part facing the elastic member, and the convex part is used for positioning and limiting one end of the elastic member.

The invention also provides a sunglasses assembly simulating a single-piece lens, which comprises a pair of spectacle frames, a sunshade optical lens group and a main spectacle frame; wherein:

the auxiliary lens frame comprises an upper frame part, a lower frame part, two side frame parts and a nose bridge region attaching base part, wherein two ends of the upper frame part and two ends of the lower frame part are respectively connected with the two side frame parts, the middle section of the upper frame part and the middle section of the lower frame part are connected with the nose bridge region attaching base part, so that two lens group standing holes are defined by the upper frame part, the lower frame part, the side frame parts and the nose bridge region attaching base part, and embedding grooves are arranged on the inner peripheral surfaces of the upper frame part, the lower frame part and the side frame parts, which correspond to the lens group standing holes;

the sunshade optical lens group comprises two opposite sunshade optical lenses, the side sections of the two sunshade optical lenses facing each other are provided with splicing sections which can be spliced and leaned against each other, one side of the two sunshade optical lenses facing the face of a wearer is provided with a depressed area which is flatly attached to the nose bridge area and leaned against the base part, the peripheries of the two sunshade optical lenses corresponding to the embedding grooves of the auxiliary spectacle frame are annularly provided with convex ribs, and the convex ribs are embedded into the embedding grooves correspondingly;

the main mirror frame is provided with a channel for the embedding and positioning of the upper frame part of the auxiliary mirror frame, and the channel comprises a groove body which is surrounded by an outer surface wall, an inner surface wall corresponding to the outer surface wall and a top wall connected with the top end of the inner surface wall and the top end of the outer surface wall; the upper frame part of the auxiliary mirror frame is assembled and positioned in the groove channel of the main mirror frame.

The invention has the advantages that:

the invention utilizes the concave areas of the two sunshade optical lenses to be attached to the nose bridge area of the auxiliary spectacle frame to be attached to the base part, and simultaneously, the convex ribs of the auxiliary spectacle frame are correspondingly embedded through the embedding grooves of the two sunshade optical lenses, so that the parallel sections of the two sunshade optical lenses can be really jointed and attached to each other, and the effect of simulating a single-piece sunshade optical lens is generated.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1: the invention discloses a three-dimensional exploded view of a sunglasses component simulating a single-piece lens;

FIG. 2: the other direction stereo exploded view of the sunglasses component simulating the single-piece lens is disclosed;

FIG. 3: the invention discloses a three-dimensional view after the assembly of the sunglasses assembly part of a single-piece-like lens;

FIG. 4: the invention discloses a combined front view of a sunglasses component simulating a single-piece lens;

FIG. 5: the invention discloses a combined side sectional view of a sunglasses component simulating a single-piece lens;

FIG. 6: an assembled side sectional view of yet another embodiment of the quasi-monolithic lens sunglass assembly of the present invention;

FIG. 7: the invention discloses a three-dimensional exploded view of another embodiment of the sunglasses component simulating a single-piece lens;

FIG. 8: an assembled side sectional view of another embodiment of the inventive sunglass assembly simulating a one-piece lens;

FIG. 9: the combined top view section of another embodiment of the sunglasses component simulating a single-piece lens of the invention;

FIG. 10: another embodiment of the quasi-single piece type lens sunglasses assembly of the present invention is an assembled top view cross-section of pressing the pressing member to detach the auxiliary frame.

The reference numbers illustrate:

1 auxiliary mirror frame

11 upper frame part

111 locating hole

112 clamping block

12 lower frame part

13 side frame part

14 nasal bridge region abutting base

15 vertical hole of lens group

16 ribs

17 caulking groove

18 grooves

19 positioning hole

2 sunshade optical lens group

21 sun-shading optical lens

211 parallel connection section

212 recessed region

213 caulking groove

214 ribs

3 main mirror frame

31 frame body

311 outer side wall

312 inner wall

313 top wall

314 set of holes

315 convex part

32 nose bridge

33 channel

331 card slot

34 fastener

35 inserting hole

36 perforation

5 pressing piece

51 pressing part

52 connecting rod segment

53 movable positioning groove

54 container

55 barb part

6 elastic member

7 positioning pin

Detailed Description

In order to clearly understand the technical solution, the purpose and the effect of the present invention, a detailed description of the present invention will be described with reference to the accompanying drawings.

Referring to fig. 1, 2 and 3, hereinafter "outer" refers to the side away from the face of the wearer and "inner" refers to the side toward the face of the wearer.

The invention relates to a sunglasses component simulating a single-piece lens, which comprises an auxiliary frame 1, a sunshade optical lens group 2 and a main frame 3; wherein:

the auxiliary frame 1 comprises an upper frame portion 11, a lower frame portion 12, two side frame portions 13 and a nose bridge region attaching base portion 14, wherein two ends of the upper frame portion 11 and two ends of the lower frame portion 12 are respectively connected with the two side frame portions 13, the nose bridge region attaching base portion 14 is connected with the middle section of the upper frame portion 11 and the middle section of the lower frame portion 12, two lens assembly vertical holes 15 are defined by the upper frame portion 11, the lower frame portion 12, the side frame portions 13 and the nose bridge region attaching base portion 14, and convex ribs 16 are arranged on the surfaces of the upper frame portion 11, the lower frame portion 12 and the side frame portions 13 adjacent to the lens assembly vertical holes 15;

the sunshade optical lens set 2 includes two opposite sunshade optical lenses 21, the side edge sections of the two sunshade optical lenses 21 facing each other are provided with a joint section 211, the joint sections 211 of the two sunshade optical lenses 21 can be jointed and leaned against each other, one side (i.e. the inner side) of the two sunshade optical lenses 21 facing the face of the wearer is provided with a concave area 212, and after the two sunshade optical lenses 21 are jointed and leaned against each other by the joint section 211, the two concave areas 212 can be just flatly clung to the nose bridge area and lean against the base 14, the side edge of the two sunshade optical lenses 21 corresponding to the convex rib 16 of the auxiliary frame 1 is provided with an embedding groove 213 in a ring, and the convex rib 16 can be correspondingly embedded into the embedding groove 213 (see fig. 5);

the main frame 3 includes a frame body 31 and a nose bridge 32 integrally connected to a middle section of the frame body 31, the frame body 31 is provided with a slot 33 for fitting and positioning the upper frame portion 11 of the sub-frame 1, and the slot 33 includes a groove surrounded by an outer surface wall 311 of the frame body 31, an inner surface wall 312 corresponding to the outer surface wall 311, and a top wall 313 connected to a top end of the inner surface wall 312 and a top end of the outer surface wall 311.

During assembly, the convex rib 16 of the sub-frame 1 is correspondingly embedded by the embedding groove 213 of the two sunshade optical lenses 21, the concave region 212 of the two sunshade optical lenses 21 is correspondingly flatly attached to the nose bridge region of the sub-frame 1 and is attached to the base 14, and the connecting sections 211 of the two sunshade optical lens sets 2 are connected in parallel, so that the two sunshade optical lens sets 2 are stably connected in parallel to form a quasi-single-piece sunshade optical lens, and then the upper frame portion 11 of the sub-frame 1 is embedded and positioned in the groove 33 of the main frame 3, so that the sub-frame 1 is assembled and fixed on the main frame 3, and a sunglasses with a quasi-single-piece lens as shown in fig. 4 can be formed, and the sunglasses assembly forms the effect of a quasi-single-piece sunshade lens with an optical correction function.

The auxiliary frame 1 is connected to the bridge region at the middle section of the upper frame portion 11 and the middle section of the lower frame portion 12 to be attached to the base portion 14, so that the shape of the two lens assembly holes 15 after molding can be further limited, and the two lens assembly holes 15 are prevented from being easily deformed by stress, which affects the stability of the two sunshade optical lenses 21 assembled in the two lens assembly holes 15.

Referring to fig. 1 to 4, the upper frame portion 11 of the sub-frame 1 is provided with a positioning hole 111, the inner wall 312 of the frame body 31 of the main frame 3 is provided with a set of holes 314 corresponding to the positioning hole 111, and a fixing member 34 is inserted into the positioning hole 111 from the set of holes 314 to combine and position the sub-frame 1 and the main frame 3 together. The positioning hole 111 is disposed on the upper frame portion 11 of the sub-frame 1 corresponding to the nose bridge region and contacting the base portion 14.

In addition, in order to make the combination between the auxiliary frame 1 and the main frame 3 more stable, the upper frame portion 11 of the auxiliary frame 1 and the portions adjacent to the two side frame portions 13 are formed with locking blocks 112, the slot grooves 33 of the main frame 3 corresponding to the two locking blocks 112 are provided with clamping grooves 331 therein, and the two locking blocks 112 are respectively correspondingly inserted into the two clamping grooves 331. Thus, the auxiliary spectacle frame 1 and the main spectacle frame 3 are embedded by the fixing piece 34 which is positioned corresponding to the nose bridge region and is attached to the base 14 through the middle part, and the clamping blocks 112 at the two sides are clamped with the clamping grooves 331, so that the combination between the auxiliary spectacle frame 1 and the main spectacle frame 3 is more stable.

Referring to fig. 6, in another embodiment of the present invention, grooves 17 are formed on the surfaces of the upper frame portion 11, the lower frame portion 12 and the side frame portions 13 adjacent to the lens assembly holes 15, and ribs 214 are formed around the sides of the two sunshade optical lenses 21 corresponding to the grooves 17 of the sub-frame 1, the ribs 214 being inserted into the grooves 17, which also enables the two sunshade optical lenses 21 to be assembled on the sub-frame 1.

Referring to fig. 7 to 10, another embodiment of the sunglasses assembly with quasi-single-piece lenses according to the present invention is shown. Wherein, the inner wall 312 of the main mirror frame 3 is provided with an embedding hole 35 penetrating the inner wall 312 and communicating with the channel 33, and the bottom of the inner wall 312 is provided with a through hole 36 extending upward corresponding to the embedding hole 35, so that the through hole 36 communicates with the embedding hole 35; the sunglasses assembly of the pseudo-single-piece lens further comprises a pressing piece 5, an elastic piece 6 and a positioning pin 7, wherein the pressing piece 5 is correspondingly embedded in the embedding hole 35, the pressing piece 5 comprises a pressing part 51, a connecting rod section 52 is extended outwards from the pressing part 51, a movable positioning groove 53 with a downward opening is arranged at the bottom of the connecting rod section 52 corresponding to the through hole 36, a containing groove 54 with an outward opening is arranged on the connecting rod section 52, and inverted hook parts 55 are respectively extended from the left side and the right side of the connecting rod section 52 (the left side in fig. 7 is left, and the right side is right); the elastic element 6 is correspondingly accommodated in the accommodating groove 54 of the pressing element 5, and one end of the elastic element 6, which protrudes out of the opening of the accommodating groove 54, is pressed against the inner surface of the outer wall 311 of the main lens frame 3; the positioning pin 7 is inserted into the through hole 36 of the main lens frame 3 and the movable positioning slot 53 of the pressing piece 5, so as to position the pressing piece 5 in the embedding hole 35; the auxiliary lens frame 1 is provided with a groove 18 corresponding to the connecting rod section 52 of the pressing member 5 for the connecting rod section 52 to pass through, and positioning holes 19 are provided at two sides of the groove 18 corresponding to the inverted hook part 55; the upper frame portion 11 of the sub-frame 1 is fitted into the groove 33 of the main frame 3, and then the positioning hole 19 is hooked by the inverted hook portion 55, so that the sub-frame 1 is fixed to the main frame 3.

In addition, a protrusion 315 is further disposed on the outer wall 311 of the frame 31 facing the elastic member 6, and the protrusion 315 is used for positioning and limiting one end of the elastic member 6.

In practical assembly, after the accommodating groove 54 of the pressing member 5 is inserted into the elastic member 6, the pressing member 5 is inserted into the insertion hole 35 of the main lens frame 3, and at this time, the protrusion 315 is used for positioning and limiting the elastic member 6, and is correspondingly inserted into the through hole 36 of the main lens frame 3 and the movable positioning groove 53 of the pressing member 5 through the positioning pin 7, so that the pressing member 5 can be fixed in the insertion hole 35.

When assembling the lens, the pressing portion 51 of the pressing member 5 is pressed to compress the elastic member 6, so that the barb portion 55 of the pressing member 5 is displaced away from the path of the auxiliary rim 1 inserted into the channel 33 of the main rim 3, at this time, the auxiliary rim 1 can be inserted into the channel 33, the groove 18 of the auxiliary rim 1 is embedded into the connecting rod section 52 of the pressing member 5, and then the pressing member 5 is released, the pressing member 5 is reset by the elastic restoring force of the elastic member 6, and the barb portion 55 is embedded into the positioning hole 19 of the auxiliary rim 1, so as to achieve the effect of stably assembling the auxiliary rim 1 on the main rim 3.

When the sub-frame 1 is to be removed, the pressing portion 51 of the pressing member 5 is pressed again to separate the hook 55 from the positioning hole 19 of the sub-frame 1, so that the sub-frame 1 can be removed.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. Any equivalent changes and modifications that can be made by one skilled in the art without departing from the spirit and principles of the invention should fall within the protection scope of the invention. It should be noted that the components of the present invention are not limited to the above-mentioned whole application, and various technical features described in the present specification can be selected to be used alone or in combination according to actual needs, so that the present invention naturally covers other combinations and specific applications related to the invention.

Claims

1. A sunglasses component simulating a single-piece lens is characterized in that the sunglasses component simulating the single-piece lens comprises an auxiliary frame, a sunshade optical lens group and a main frame; wherein:

the sunshade optical lens group comprises two opposite sunshade optical lenses, the side sections of the two sunshade optical lenses facing each other are provided with parallel sections which can be jointed and leaned against each other, one side of the two sunshade optical lenses facing the face of a wearer is provided with a depressed area which is flatly attached to the nose bridge area and leaned against the base part, the peripheries of the two sunshade optical lenses corresponding to the convex ribs of the auxiliary spectacle frame are provided with embedding grooves in a surrounding way, and the convex ribs are correspondingly embedded into the embedding grooves;

2. The sunglass assembly according to claim 1, wherein the upper frame portion of the auxiliary frame has two engaging blocks formed adjacent to the two side frame portions, the main frame has two engaging grooves corresponding to the two engaging blocks, the two engaging blocks are respectively engaged with the two engaging grooves, the upper frame portion of the auxiliary frame has positioning holes, the main frame has holes corresponding to the positioning holes, and a fixing member is inserted into the positioning holes from the holes to fix the auxiliary frame and the main frame together.

3. The sunglass assembly with quasi-monolithic lenses of claim 2, wherein the positioning hole is formed in the upper frame portion of the sub-frame corresponding to the base portion of the bridge region.

4. The sunglass assembly with quasi-single-piece lenses as claimed in claim 1, wherein the inner wall of the main frame has an insertion hole penetrating through the inner wall and communicating with the channel, and the bottom of the inner wall has a through hole extending upward corresponding to the insertion hole, the through hole communicating with the insertion hole; the sunglasses assembly of the pseudo-single-piece lens further comprises a pressing piece, an elastic piece and a positioning pin, the pressing piece is correspondingly embedded in the embedding hole, the pressing piece comprises a pressing part, the pressing part extends outwards to form a connecting rod section, a movable positioning groove with a downward opening is formed in the bottom of the connecting rod section corresponding to the through hole, an accommodating groove with an outward opening is formed in the connecting rod section, and inverted hook parts respectively extend towards the left side and the right side of the connecting rod section; the elastic piece is correspondingly accommodated in the accommodating groove of the pressing piece, and one end of the elastic piece, which protrudes out of the opening of the accommodating groove, is abutted against the inner surface wall of the main spectacle frame; the positioning pin penetrates through the through hole of the main mirror frame and the movable positioning groove of the pressing piece to position the pressing piece in the embedding hole; the auxiliary mirror frame is provided with a groove for the connecting rod section to pass through at the connecting rod section corresponding to the pressing piece, and positioning holes are arranged at the two sides of the groove corresponding to the reverse hook part; after the upper frame part of the auxiliary mirror frame is embedded into the channel of the main mirror frame, the positioning hole is hooked through the inverted hook part, and the auxiliary mirror frame is fixed on the main mirror frame.

5. The sunglass assembly with quasi-monolithic lens of claim 4, wherein the outer wall of the channel is provided with a protrusion facing the elastic member, the protrusion being used to position and limit one end of the elastic member.

6. A sunglasses component simulating a single-piece lens is characterized in that the sunglasses component simulating the single-piece lens comprises an auxiliary frame, a sunshade optical lens group and a main frame; wherein:

7. The sunglass assembly according to claim 6, wherein the upper frame portion of the auxiliary frame has two engaging blocks formed adjacent to the two side frame portions, the main frame has two engaging slots corresponding to the two engaging blocks, the two engaging blocks are respectively engaged with the two engaging slots, the upper frame portion of the auxiliary frame has positioning holes, the main frame has assembling holes corresponding to the positioning holes, and a fixing member is inserted into the positioning holes from the assembling holes to fix the auxiliary frame and the main frame together.

8. The sunglass assembly with quasi-monolithic lenses of claim 7, wherein the positioning hole is formed in the upper frame portion of the sub-frame corresponding to the abutment base of the bridge region.

9. The sunglass assembly with quasi-monolithic lenses as claimed in claim 6, wherein the inner wall of the main frame has a hole penetrating through the inner wall and communicating with the channel, and the bottom of the inner wall has a through hole extending upward corresponding to the hole, the through hole communicating with the hole; the sunglasses assembly of the pseudo-single-piece lens further comprises a pressing piece, an elastic piece and a positioning pin, the pressing piece is correspondingly embedded in the embedding hole, the pressing piece comprises a pressing part, the pressing part extends outwards to form a connecting rod section, a movable positioning groove with a downward opening is formed in the bottom of the connecting rod section corresponding to the through hole, an accommodating groove with an outward opening is formed in the connecting rod section, and inverted hook parts respectively extend towards the left side and the right side of the connecting rod section; the elastic piece is correspondingly accommodated in the accommodating groove of the pressing piece, and one end of the elastic piece, which protrudes out of the opening of the accommodating groove, is abutted against the inner surface wall of the main spectacle frame; the positioning pin penetrates through the through hole of the main mirror frame and the movable positioning groove of the pressing piece to position the pressing piece in the embedding hole; the auxiliary mirror frame is provided with a groove for the connecting rod section to pass through at the connecting rod section corresponding to the pressing piece, and positioning holes are arranged at the two sides of the groove corresponding to the reverse hook part; after the upper frame part of the auxiliary mirror frame is embedded into the channel of the main mirror frame, the positioning hole is hooked through the inverted hook part, and the auxiliary mirror frame is fixed on the main mirror frame.

10. The sunglass assembly of claim 9 wherein the channel has a protrusion facing the resilient member, the protrusion being configured to position and restrain an end of the resilient member.