CN113954379A - Cambered surface lens attaching protective film system and method - Google Patents

Abstract

The invention relates to a cambered surface lens attaching protective film system and a method, comprising a goggle body; two parallel arc-shaped slide ways are arranged on the outer surface of the goggles body; a mirror surface attaching part is arranged between the two parallel arc-shaped slide ways, an end part mounting hole is arranged at least one end part of the mirror surface attaching part, and a film covering body is arranged on the outer surface of the goggles body; the film body is at least paved on the mirror surface attaching part and/or the arc-shaped slideway; the invention has reasonable design, compact structure and convenient use.

Description

Cambered surface lens attaching protective film system and method

Technical Field

The invention relates to a cambered surface lens attaching protective film system and a cambered surface lens attaching protective film method.

Background

At present, the lenses of curved surface lenses and spherical surface lenses of goggles, swimming goggles and the like are exposed and are easy to scratch or stain in most production and sale processes, and the appearance and the use of products are influenced. The material that the lens used is generally glass or PC plastic lens, the general electrostatic film laminating protection of using of plane lens producer, the consumer tears off the electrostatic film lens when using and totally can directly wear, but goggles swimming goggles lens most is bigger curved surface or sphere lens, the lens protection film generally uses the electrostatic film of PVC material, the electrostatic adsorption capacity is not very big, paste often curved surface at the curved surface and cause electrostatic film both ends can warp and drop, sphere lens electrostatic film is ordinary laminating, because the sphere requires electrostatic film also can paste the reality corresponding sphere, but the electrostatic film is generally plane flat or the package, so the sphere lens can not laminate the electrostatic protection film at all.

Disclosure of Invention

The invention aims to solve the technical problem of providing a cambered lens attaching protective film system and a cambered lens attaching protective film method. The invention aims at the analysis and demonstration of the prior art method, can be attached to the surface of the lens by heating, vacuum adsorption and deformation of the electrostatic film by utilizing the similar principle of body-attached packaging equipment, can be tested and verified by different thicknesses of 0.05-0.2mm, is analyzed and improved, and invents a feasible, safe and reliable attaching method of the spherical and cylindrical lens protective film.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a cambered mirror comprises a goggle body; two parallel arc-shaped slide ways are arranged on the outer surface of the goggles body; a mirror surface attaching part is arranged between the two parallel arc-shaped slide ways, an end part mounting hole is arranged at least one end part of the mirror surface attaching part, and a film covering body is arranged on the outer surface of the goggles body;

the film body is laid on the mirror surface attaching part and/or the arc-shaped slide way at least.

As a further improvement of the above technical solution:

the end part transition part is arranged at the end part of the arc-shaped slideway.

A cambered lens attaching protective film system is a film laminating device for laminating a cambered lens; the device comprises a film coating lower base with a film coating negative pressure pipe and a heater;

a film covering cover plate is hinged to the film covering arc-shaped bottom plate, and the lower part of the film covering cover plate is buckled with the upper surface of the inner cavity of the film covering base to form a sealed space;

a film-coated arc-shaped bottom plate is arranged in the inner cavity of the film-coated lower base; film-coating side positioning plates are arranged at two sides of the film-coating arc-shaped bottom plate, film-coating end positioning steps are arranged at two ends of the film-coating arc-shaped bottom plate,

a fixed seat with a C-shaped opening is arranged on the buckling surface of the film covering cover plate, and process channels are respectively arranged on two sides of the fixed seat;

the film-coated arc-shaped bottom plate is used for placing the goggles body and is attached to the inner surface of the goggles body;

the inner side wall of the film-coated side positioning plate is used for positioning and contacting with two sides of the goggles body;

the film covering end positioning step is used for positioning and contacting with at least one end of the goggles body;

the C-shaped opening is used for being pressed on the outer surface of the goggles body;

the process channel is in press fit with the arc-shaped slideway.

The gluing device is used for gluing the outer surface of the goggle body to form an arc-shaped slideway and comprises an equipment support with a base slotted hole for inserting a bolt;

a base positioning hole is formed in the equipment support and used for inserting a positioning pin;

the equipment support is provided with a glue dispensing machine head, and a glue dispensing rubber tube is arranged on the glue dispensing machine head and used for gluing operation.

The gluing device is matched with a gluing tool which comprises a tool base; the tool base is provided with an installation slot and a positioning process hole;

the mounting slot is connected with the slotted hole of the base through a bolt,

the positioning process hole is connected with the base positioning hole through a positioning pin;

a rotary horizontal main shaft is arranged on the tool base, a central sleeve body for mounting a clamping fixture is arranged on the rotary horizontal main shaft, and a mounting back nut is arranged at the end part of the rotary horizontal main shaft;

the rotary horizontal main shaft is connected with a rotary driving handle or a rotary power head;

a jackscrew hole is formed in the central sleeve body, a middle web plate is arranged on the central sleeve body, and a lower process arc plate and an upper positioning arc plate which are connected end to end are arranged on the outer side of the middle web plate; radial rib plates and circumferential rib plates are distributed on the middle web plate;

two ends of the upper positioning arc plate are provided with side positioning steps and a plurality of positioning through holes; a step side wall is arranged on the side positioning step;

the inner surface of the goggles body is in contact with the inner surface of the upper positioning arc plate in a fitting manner;

the two ends of the goggle body are in contact with the side wall of the step and/or the end mounting holes are in positioning contact with the positioning through holes.

A method for attaching a protective film to a cambered surface lens executes the following steps;

s1, coating glue on the outer surface of the goggles body, and curing to form two parallel arc slideways;

and S2, the film body is heated and vacuumized to be adsorbed on the outer surface of the goggle body.

As a further improvement of the above technical solution:

in the step S1, in step S1,

s1.1, firstly, attaching the inner surface of a goggle body to contact with the inner surface of an upper positioning arc plate; then, positioning and contacting the end mounting hole with the positioning through hole through a positioning pin; secondly, a central sleeve body is arranged on the rotary horizontal main shaft, and a mounting back nut is arranged at the end part of the rotary horizontal main shaft for fastening;

s1.2, firstly, connecting a positioning process hole with a base positioning hole through a positioning pin, installing a tool base, and connecting an installation groove with a base groove hole through a bolt;

s1.3, firstly, adjusting the height and the angle of a dispensing rubber tube; then, driving the rotating horizontal main shaft or the glue dispensing rubber tube to walk according to the program to perform glue coating operation;

and S1.4, after spot gluing is finished, drying and curing.

A cambered surface lens is laminated with the protective film method, in step S2, at first, place the goggles body on the arc base plate of tectorial membrane and laminate the medial surface of the goggles body, the inside wall of the side locating plate of tectorial membrane positions and contacts with both sides of the goggles body, the end positioning step of tectorial membrane positions and contacts with at least one end of the goggles body; then, buckling the film covering cover plate, and buckling the lower part of the film covering cover plate on the upper surface of the inner cavity of the film covering base to form a sealed space; secondly, the film covering body is pulled and placed on the outer surface of the goggles body; thirdly, the C-shaped opening is pressed on the outer surface of the goggles body, and the process channel is in press fit with the arc-shaped slide way; and then, starting heating and vacuumizing through a film-coated negative pressure tube, so that the film-coated body is pulled to be attached to the goggle body.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic view of the mask structure of the present invention.

FIG. 2 is a schematic view of the structure of the coating film of the present invention.

Fig. 3 is a schematic view of the bonding structure of the present invention.

Fig. 4 is a schematic view of the glue application structure of the present invention.

Fig. 5 is a schematic diagram of the gluing work structure of the invention.

Fig. 6 is another view structure diagram of the glue application of the invention.

Wherein: 1. A goggle body; 2. an arc-shaped slideway; 3. a mirror surface attaching part; 4. an end mounting hole; 5. an end transition portion; 6. a film covering body; 7. gluing tools; 8. a gluing device; 9. a film covering device; 10. a tooling base; 11. installing a slot; 12. positioning the fabrication hole; 13. rotating the horizontal main shaft; 14. mounting a mould; 15. mounting a back nut; 16. a central sleeve body; 17. a jackscrew hole; 18. an intermediate web; 19. a lower process arc plate; 20. an upper positioning arc plate; 21. a radial rib plate; 22. a circumferential rib plate; 23. a side positioning step; 24. positioning the through hole; 25. a step side wall; 26. an equipment support; 27. a base slot; 28. a base positioning hole; 29. a dispensing head; 30. dispensing a rubber tube; 31. a base under the membrane; 32. laminating an arc bottom plate; 33. laminating a negative pressure pipe; 34. covering a film cover plate; 35. a film-covering side positioning plate; 36. a film-covering end positioning step; 37. a fixed seat; 38. a process channel; 39. and C-shaped openings.

Detailed Description

As shown in fig. 1-6, the arc mirror of the present embodiment includes a goggle body 1; two parallel arc-shaped slide ways 2 are arranged on the outer surface of the goggles body 1; a mirror surface attaching part 3 is arranged between the two parallel arc-shaped slide ways 2, an end part mounting hole 4 is arranged at least one end part of the mirror surface attaching part 3, and a film coating body 6 is arranged on the outer surface of the goggles body 1; the invention can realize low-resistance sliding of the outer cover (not shown) along the mirror surface by designing sliding, does not damage the mirror surface, plays a role in guiding, and is more convenient to install and replace.

As the embodiment, the coating body 6 is at least paved on the mirror surface attaching part 3 and/or the arc-shaped slide way 2, so that the protective effect is achieved, and the body is prevented from being scratched.

As the embodiment, the end part transition part 5 is arranged at the end part of the arc-shaped slideway 2, so that the transition is smooth, the process is reasonable, and the fracture is avoided.

As an example, a coating device 9 for coating an arc mirror; it comprises a film-coating lower base 31 with a film-coating negative pressure pipe 33 and a heater;

a film covering cover plate 34 is hinged on the film covering arc-shaped bottom plate 32, and the lower part of the film covering cover plate 34 is buckled on the upper surface of the inner cavity of the film covering base 31 to form a sealed space;

a film-coated arc-shaped bottom plate 32 is arranged in the inner cavity of the film-coated lower base 31; the film-coating side positioning plates 35 are arranged at the two sides of the film-coating arc-shaped bottom plate 32, the film-coating end positioning steps 36 are arranged at the two ends of the film-coating arc-shaped bottom plate 32,

a fixed seat 37 with a C-shaped opening 39 is arranged on the buckling surface of the film covering cover plate 34, and process channels 38 are respectively arranged on two sides of the fixed seat 37;

the film-covered arc-shaped bottom plate 32 is used for placing the goggles body 1 and is attached to the inner surface of the goggles body 1;

the inner side wall of the film-coating side positioning plate 35 is used for positioning and contacting with the two sides of the goggles body 1;

the film covering end positioning step 36 is used for positioning and contacting with at least one end of the goggles body 1;

the C-shaped opening 39 is pressed on the outer surface of the goggles body 1;

the process channel 38 is matched with the arc-shaped slideway 2 in a pressing fit mode. As this embodiment, it is possible to achieve good adhesion of the heated coating film to the body without generating bubbles or the like.

As an embodiment, the gluing device 8 for gluing the outer surface of the goggles body 1 to form the arc-shaped slideway 2 comprises a device support 26 with a base slot 27 for inserting a bolt; the equipment support is simple equipment in the drawing and can be matched with a polar coordinate mechanical arm.

A base positioning hole 28 is formed in the device support 26 for inserting a positioning pin; thereby achieving the positioning.

A dispenser head 29 is provided on the apparatus support 26, and a dispenser hose 30 is provided on the dispenser head 29 for dispensing.

As an embodiment, the gluing device 8 is matched with a gluing tool 7, which comprises a tool base 10; the tool base 10 is provided with an installation slot 11 and a positioning process hole 12; thereby facilitating the bolt connection and the positioning of the positioning pin.

The mounting slot 11 is connected with the base slotted hole 27 through a bolt to realize fixation.

The positioning process hole 12 is connected with the base positioning hole 28 through a positioning pin;

a rotary horizontal main shaft 13 is arranged on the tool base 10, a central sleeve body 16 for mounting a clamping fixture 14 is arranged on the rotary horizontal main shaft, and a mounting back nut 15 is arranged at the end part of the rotary horizontal main shaft 13; thereby realizing fixing and realizing rotary support. Preferably, the device can be matched with a ratchet pawl, a dial and the like, and can be stopped at any position and read the numerical value. A conventional means such as a clutch may be employed.

As an embodiment, the rotary horizontal main shaft 13 is connected with a rotary driving handle or a rotary power head; and realizing power driving. Of course, the fixed mode can also be adopted, and the glue dispensing forming of the track is realized through the rotation of the glue dispenser.

A jackscrew hole 17 is arranged on the central sleeve body 16, a middle web plate 18 is arranged on the central sleeve body 16, and a lower process arc plate 19 and an upper positioning arc plate 20 which are connected end to end are arranged outside the middle web plate 18; radial rib plates 21 and circumferential rib plates 22 are distributed on the middle web plate 18; the supporting device is light in weight, is fixed through the jackscrew, and is clamped and supported through the rib plates.

As an embodiment, two ends of the upper positioning arc plate 20 are provided with side positioning steps 23 and a plurality of positioning through holes 24; a step side wall 25 is arranged on the side positioning step 23;

the inner surface of the goggles body 1 is in contact with the inner surface of the upper positioning arc plate 20;

the two ends of the goggles body 1 are in contact with the step side wall 25 and/or the end mounting holes 4 are in positioning contact with the positioning through holes 24. Thereby realizing positioning support.

As an embodiment, the method for attaching a protection film to a cambered lens of the embodiment performs the following steps;

s1, coating glue on the outer surface of the goggles body 1, and curing to form two parallel arc slideways 2;

and S2, the film body 6 is adsorbed on the outer surface of the goggles body 1 in a heating and vacuumizing way.

As an example, in step S1,

s1.1, firstly, attaching the inner surface of a goggle body 1 to contact with the inner surface of an upper positioning arc plate 20; then, the end mounting hole 4 is in positioning contact with the positioning through hole 24 through a positioning pin; secondly, a central sleeve 16 is arranged on the rotary horizontal main shaft 13, and a mounting back nut 15 is arranged at the end part of the rotary horizontal main shaft 13 for fastening;

s1.2, firstly, connecting the positioning process hole 12 with a base positioning hole 28 through a positioning pin, installing the tooling base 10, and connecting the installation slot 11 with a base slot hole 27 through a bolt;

s1.3, firstly, adjusting the height and the angle of the glue dispensing rubber tube 30; then, driving the rotating horizontal main shaft 13 or the glue dispensing rubber tube 30 to walk according to the program to perform glue coating operation;

and S1.4, after spot gluing is finished, drying and curing.

As shown in fig. 1-6, in the method for attaching a protection film to a cambered lens in this embodiment, in step S2, first, the goggle body 1 is placed on the film-coated arc-shaped bottom plate 32 and attached to the inner side surface of the goggle body 1, the inner side wall of the film-coated side positioning plate 35 is in positioning contact with the two sides of the goggle body 1, and the film-coated end positioning step 36 is in positioning contact with at least one end of the goggle body 1; then, buckling the film covering cover plate 34, and buckling the upper surface of the inner cavity of the film covering base 31 below the film covering cover plate 34 to form a sealed space; secondly, the film covering body 6 is pulled and placed on the outer surface of the goggles body 1; thirdly, the C-shaped opening 39 is pressed on the outer surface of the goggles body 1, and the process channel 38 is in press fit with the arc-shaped slide way 2; then, heating is started and vacuum is pumped through the film coating negative pressure pipe 33, so that the film coating body 6 is pulled to be attached to the goggles body 1.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention. The technical contents not described in detail in the present invention are all known techniques.

Claims (7)

1. An arc mirror, characterized in that: comprises a goggle body (1); two parallel arc-shaped slide ways (2) are arranged on the outer surface of the goggles body (1); a mirror surface attaching part (3) is arranged between the two parallel arc-shaped slide ways (2), at least one end part of the mirror surface attaching part (3) is provided with an end part mounting hole (4), and the outer surface of the goggles body (1) is provided with a film coating body (6);

the film body (6) is at least paved on the mirror surface attaching part (3) and/or the arc-shaped slideway (2).

2. The arc mirror of claim 1, wherein: an end transition part (5) is arranged at the end part of the arc-shaped slideway (2).

3. The utility model provides an cambered surface lens laminating protection film system which characterized in that: a film coating device (9) for coating the arc mirror; it comprises a film coating lower base (31) with a film coating negative pressure pipe (33) and a heater;

a film covering cover plate (34) is hinged on the film covering arc-shaped bottom plate (32), and the lower part of the film covering cover plate (34) is buckled with the upper surface of the inner cavity of the film covering base (31) to form a sealed space;

a film coating arc-shaped bottom plate (32) is arranged in the inner cavity of the film coating lower base (31); two sides of the film-coated arc-shaped bottom plate (32) are provided with film-coated side positioning plates (35), two ends of the film-coated arc-shaped bottom plate (32) are provided with film-coated end positioning steps (36),

a fixed seat (37) with a C-shaped opening (39) is arranged on the buckling surface of the film covering cover plate (34), and process channels (38) are respectively arranged on two sides of the fixed seat (37);

the film-coated arc-shaped bottom plate (32) is used for placing the goggles body (1) and is attached to the inner surface of the goggles body (1);

the inner side wall of the film covering side positioning plate (35) is used for being in positioning contact with the two sides of the goggles body (1);

the film covering end positioning step (36) is used for positioning and contacting at least one end of the goggles body (1);

the C-shaped opening (39) is used for being pressed on the outer surface of the goggles body (1);

the process channel (38) is in press fit with the arc-shaped slide way (2).

4. The cambered lens fitting protective film system according to claim 3, wherein: the gluing device (8) is used for gluing the outer surface of the goggle body (1) to form an arc-shaped slideway (2), and comprises an equipment support (26) with a base slotted hole (27) for inserting a bolt;

a base positioning hole (28) is arranged on the equipment support (26) and used for inserting a positioning pin;

the equipment support (26) is provided with a glue dispensing machine head (29), and a glue dispensing rubber tube (30) is arranged on the glue dispensing machine head (29) and is used for gluing.

5. The cambered lens fitting protective film system according to claim 4, wherein: the gluing device (8) is matched with a gluing tool (7) which comprises a tool base (10); the tool base (10) is provided with an installation slot (11) and a positioning process hole (12);

the mounting groove (11) is connected with the base slotted hole (27) through a bolt,

the positioning process hole (12) is connected with the base positioning hole (28) through a positioning pin;

a rotary horizontal main shaft (13) is arranged on the tool base (10), a central sleeve body (16) for mounting a clamping fixture (14) is arranged on the rotary horizontal main shaft, and a mounting back nut (15) is arranged at the end part of the rotary horizontal main shaft (13);

the rotary horizontal main shaft (13) is connected with a rotary driving handle or a rotary power head;

a jackscrew hole (17) is arranged on the central sleeve body (16), a middle web plate (18) is arranged on the central sleeve body (16), and a lower process arc plate (19) and an upper positioning arc plate (20) which are connected end to end are arranged on the outer side of the middle web plate (18); radial rib plates (21) and circumferential rib plates (22) are distributed on the middle web plate (18);

two ends of the upper positioning arc plate (20) are provided with side positioning steps (23) and a plurality of positioning through holes (24); a step side wall (25) is arranged on the side positioning step (23);

the inner surface of the goggles body (1) is in contact with the inner surface of the upper positioning arc plate (20) in a fitting manner;

the two ends of the goggles body (1) are in contact with the step side wall (25) and/or the end mounting holes (4) are in positioning contact with the positioning through holes (24).

6. A method for attaching a protective film to a cambered surface lens is characterized by comprising the following steps: the following steps are executed;

s1, coating glue on the outer surface of the goggle body (1), and curing to form two parallel arc slideways (2);

s2, the film body (6) is heated and vacuumized to be adsorbed on the outer surface of the goggles body (1).

7. The method for sticking the protective film to the cambered surface lens according to claim 6, wherein the method comprises the following steps: in the step S1, in step S1,

s1.1, firstly, attaching the inner surface of a goggle body (1) to contact with the inner surface of an upper positioning arc plate (20); then, the end mounting hole (4) is in positioning contact with the positioning through hole (24) through a positioning pin; secondly, a central sleeve body (16) is arranged on the rotary horizontal main shaft (13), and a mounting back nut (15) is arranged at the end part of the rotary horizontal main shaft (13) for fastening;

s1.2, firstly, connecting a positioning process hole (12) with a base positioning hole (28) through a positioning pin, installing a tooling base (10), and connecting an installation slot (11) with a base slotted hole (27) through a bolt;

s1.3, firstly, adjusting the height and the angle of the glue dispensing rubber tube (30); then, driving the rotating horizontal main shaft (13) or the glue dispensing rubber tube (30) to walk according to the programming to perform glue coating operation;

and S1.4, after spot gluing is finished, drying and curing.

Images