CN109031575B - Optical member having surface protective film - Google Patents

Abstract

The invention discloses an optical component with a surface protection film, which structurally comprises a slide hole, a rotary adjusting button, an optical main body and a mounting seat, wherein the slide hole is arranged on the front surface of the optical main body, the rotary adjusting button is arranged in the slide hole and is in clearance fit, a certain protection effect is exerted on an inner lens through a protection film mechanism to prevent the inner lens from being scratched, the angle of the inner lens is adjusted through adjusting the rotary lens mechanism, the angle of the inner lens is more comprehensive, the vibration of the inner lens is reduced through the work of a vibration reduction mechanism during adjustment, the normal work of the inner lens is ensured, the inner lens meshed with an adjusting outer clamping ring is subjected to plane rotation angle adjustment through adjusting the outer clamping ring to prevent an operator from directly touching the inner lens, so that the inner lens is printed with fingerprints, and a left lifting mechanism and a right lifting mechanism are simultaneously operated through adjusting a first rotary adjusting mechanism and a second rotary mechanism, the upper and lower positions of the inner lens are moved, so that the light-gathering focal length effect of the inner lens is better.

Description

Optical member having surface protective film

Technical Field

The invention relates to the field of optical members with surface protection films, in particular to an optical member with a surface protection film.

Background

As optoelectronic devices nowadays increasingly use optical lenses, for example: digital camera, cell-phone camera, network camera's camera lens, lighting apparatus, solar energy chip etc. use optical lens's multiple photoelectric device to the small volume is taught nowadays to portable, but this prior art is carrying out optical lens angle of regulation limited, and optical lens can produce the vibration when carrying out work, will influence optical lens's normal use like this, cause spotlight focus to go wrong.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: have surface protection film optical member, its structure includes slide opening, rotation adjusting knob, optics main part, mount pad, lift adjustment knob, the slide opening is established at optics main part front surface, the rotation adjusting knob is installed inside the slide opening and is adopted clearance fit, the rotation adjusting knob is installed inside the optics main part and mechanical connection through the embedding mode, optics main part lower surface fixed mounting is at the mount pad upper surface, the lift adjustment knob is installed at optics main part left side surface lower extreme.

The optical main body comprises a shell, a rotary lens mechanism, a protective film mechanism, a vibration reduction mechanism, a first rotary adjusting mechanism, a left lifting mechanism, a second rotary mechanism and a right lifting mechanism, wherein a lifting adjusting button is arranged at the lower end of the left surface of the shell, the rotary lens mechanism is fixedly arranged at the middle part of the upper end in the shell, the middle end of the rotary lens mechanism is welded with the rotary adjusting button and is mechanically connected with the rotary adjusting button, the upper surface of the rotary lens mechanism is attached to the lower surface of the protective film mechanism, the upper end of the vibration reduction mechanism is fixedly arranged at the lower surface of the rotary lens mechanism, the lower end of the vibration reduction mechanism is fixedly arranged in the shell, the left end of the first rotary adjusting mechanism penetrates through the inner part of the lower end of the left side of the shell, the left end of the first rotary adjusting mechanism is welded with, the left side elevating system upper end fixed mounting is at rotatory lens mechanism left end lower surface, the second slewing mechanism left end welds and mechanical connection with first rotation adjustment mechanism right-hand member mutually, the second slewing mechanism upper end is connected with right side elevating system, right side elevating system fixed mounting is at rotatory lens mechanism right-hand member lower surface.

As a further optimization of the technical solution, the rotary lens mechanism includes a driving wheel, a lens clamping ring, a left belt, a left ratchet wheel, a left pawl, a right belt, a right ratchet wheel, a right pawl, a moving shaft, and a fixed shaft rail, the driving wheel is welded and mechanically connected to the rotary adjusting knob, the driving wheel is fixedly installed at the middle end outside the lens clamping ring, the upper surface of the lens clamping ring is attached to the protective film mechanism, the driving wheel is movably connected to the left ratchet wheel through the left belt, the left ratchet wheel is fixedly installed at the lower left corner of the lens clamping ring, the left ratchet wheel is engaged with the left pawl, the driving wheel is movably connected to the right ratchet wheel through the right belt, the right ratchet wheel is fixedly installed at the lower right corner of the lens clamping ring, the right ratchet wheel is engaged with the right pawl, the moving shaft is fixedly installed on the driving wheel and located at the same circle center, the movable shaft is arranged in the fixed shaft rail and adopts clearance fit.

As a further optimization of the technical scheme, the lens clamping ring comprises an outer clamping ring and an inner lens, the outer clamping ring is mounted outside the inner lens and is meshed with the inner lens, the middle end of the outer clamping ring is welded with the driving rotating wheel and is mechanically connected with the driving rotating wheel, the lower surface of the left end of the outer clamping ring is attached to the upper surface of the left lifting mechanism, the lower surface of the right end of the outer clamping ring is attached to the upper surface of the right lifting mechanism, and the lower end of the outer clamping ring is welded to the upper end of the vibration reduction mechanism.

As a further optimization of the technical solution, the protective film mechanism includes an adhesive layer and a protective film, the lower surface of the adhesive layer is attached to the upper surface of the inner lens, and the upper surface of the adhesive layer is attached to the lower surface of the protective film.

As a further optimization of this technical scheme, damping mechanism includes the gag lever post, goes up fixed block, damping spring, lower fixed block, supports the stock, the gag lever post upper end welds in outer clamp ring lower surface, it installs at outer clamp ring lower surface to go up the fixed block, it installs inside damping spring upper end to go up the fixed block, the damping spring upper end is laminated with outer clamp ring lower surface mutually, damping spring lower extreme internally mounted has lower fixed block, lower fixed block lower surface welds in supporting the stock upper surface, it is inside at the shell to support stock fixed mounting.

As a further optimization of this technical scheme, first rotation adjustment mechanism includes that rotary rod, first rope receive and release roller, first rope, first backup pad, first fixed pulley, the rotary rod left end runs through inside the lower extreme of shell left side, the rotary rod left end welds in lift adjustment button right flank surface and mechanical connection, the rotary rod middle part is equipped with first rope and receives and releases roller and mechanical connection, first rope receives and releases the roller and is connected with first rope lower extreme, first backup pad fixed mounting is on the inside left surface of shell, first backup pad right-hand member is equipped with first fixed pulley, first rope is connected with first fixed pulley, first rope upper end is connected with left side elevating system lower extreme, the rotary rod right-hand member welds and mechanical connection with second rotating mechanism left side lower extreme mutually.

As a further optimization of the technical scheme, the left side lifting mechanism comprises a left reset spring, a left air pressure chamber, a left piston rod, a left moving pin shaft and a left slide rail, the left reset spring is connected with the upper end of the first rope, the left reset spring is installed inside the lower end of the left air pressure chamber, the left piston rod runs through the left air pressure chamber, the lower end of the left piston rod is attached to the upper end of the left reset spring, the left piston rod is provided with the left moving pin shaft, the left moving pin shaft is installed inside the left slide rail and adopts clearance fit, and the upper surface of the left slide rail is fixedly installed on the lower surface of the left end of the outer clamping ring.

As a further optimization of the technical scheme, the second rotating mechanism comprises a connecting rotating rod, a rod seat, a second rope winding and unwinding roller, a second rope, a second supporting plate and a first fixed pulley, the left end of the connecting rotating rod is welded with the right end of the rotating rod, the connecting rotating rod penetrates through the inside of the rod seat and is in clearance fit, the lower surface of the rod seat is fixedly installed at the middle end of the bottom surface inside the shell, the right end of the connecting rotating rod is provided with the second rope winding and unwinding roller and is in mechanical connection, the second rope winding and unwinding roller is connected with the lower end of the second rope, the second supporting plate is fixedly installed on the right side surface inside the shell, the left end of the second supporting plate is provided with the first fixed pulley, the first fixed pulley is connected with the second rope, and the upper end of the second rope is connected with the right.

As a further optimization of this technical scheme, right side elevating system includes right reset spring, right pneumatic chamber, right piston rod, right side movable pin axle, right slide rail, right side reset spring is connected with second rope upper end, right side reset spring installs at the inside lower extreme of right pneumatic chamber, right side piston rod runs through in right pneumatic chamber inside and adopt clearance fit, right side piston rod lower extreme and the laminating of right reset spring upper end, right side piston rod upper end is equipped with right movable pin axle, right side movable pin axle is installed inside right slide rail and adopt clearance fit, right side slide rail upper surface fixed mounting is at outer clamp ring right-hand member lower surface.

Advantageous effects

The invention has a surface protection film optical component, a mounting seat is arranged on a proper position, a driving rotating wheel is rotated to drive a lens clamping ring to rotate by rotating a rotation adjusting button, so that the left end and the right end of an inner lens on the lens clamping ring rotate, the angle of the inner lens is adjusted, the angle of the inner lens is more comprehensive, the protective film plays a certain protection effect on the inner lens by using the combination of an adhesive layer and the protective film at the upper end of the inner lens, the mirror surface of the inner lens is prevented from being scratched, a left side ratchet wheel rotates by the transmission of a left side belt, the inner lens is prevented from sliding downwards when rotating to a certain angle by a left pawl, the position of the upper end of a damping spring is limited by a limiting rod on a damping mechanism, the damping spring is prevented from deviating, and the vibration generated in the process of adjusting the inner lens is damped by, the inner lens is prevented from vibrating too much to ensure normal work, and the inner lens meshed with the adjusting outer clamping ring is subjected to plane rotation for angle adjustment by adjusting the outer clamping ring, so that an operator does not directly touch the inner lens with hands to prevent the inner lens from being printed with fingerprints to influence light condensation; make first rotation adjustment mechanism and second slewing mechanism work through rotatory lift adjusting button, first rope on the first rotation adjustment mechanism receive and releases the roller and rotate, loosens to put to first rope and makes left reset spring reset, and the left piston rod of left reset spring upper end pushes up, with left slide rail up jack-up, and same second slewing mechanism drives right side elevating system work, and at this moment the inner lens shifts up for spotlight focus effect is more.

Based on the prior art, the inner lens is protected to a certain extent by the protective film mechanism, the inner lens is prevented from being scratched, the inner lens is subjected to angle adjustment by adjusting the rotary lens mechanism, the angle of the inner lens is more comprehensive, vibration of the inner lens is reduced by the work of the vibration damping mechanism during adjustment, the inner lens can normally work, the inner lens meshed with the adjusting outer clamping ring is subjected to plane rotation angle adjustment by adjusting the outer clamping ring, an operator is prevented from directly touching the inner lens, the inner lens is printed with fingerprints, the left lifting mechanism and the right lifting mechanism simultaneously work by adjusting the first rotary adjusting mechanism and the second rotary mechanism, the upper position and the lower position of the inner lens are moved, and the light-gathering focal length effect of the inner lens is better.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an optical member with a surface protective film according to the present invention.

Fig. 2 is a cross-sectional view of an optical member having a surface protective film according to the present invention.

FIG. 3 is a detailed structural diagram of the optical member with a surface protection film according to the present invention.

FIG. 4 is a schematic view of a lens ring structure with an optical member having a surface protection film according to the present invention.

In the figure: a sliding hole-1, a rotary adjusting button-2, an optical body-3, a mounting seat-4, a lifting adjusting button-5, a shell-31, a rotary lens mechanism-32, a protective film mechanism-33, a vibration damping mechanism-34, a first rotary adjusting mechanism-35, a left lifting mechanism-36, a second rotary mechanism-37, a right lifting mechanism-38, a driving rotating wheel-321, a lens clamping ring-322, a left belt-323, a left ratchet-324, a left pawl-325, a right belt-326, a right ratchet-327, a right pawl-328, a moving shaft-329, a fixed shaft rail-3210, an outer clamping ring-3221, an inner lens-3222, an adhesive layer-331, a protective film-332, a limiting rod-341, a left pawl-328, a right pawl-328, a moving shaft-329, a fixed, The device comprises an upper fixing block-342, a damping spring-343, a lower fixing block-344, a long supporting rod-345, a rotating rod-351, a first rope retraction roller-352, a first rope-353, a first supporting plate-354, a first fixed pulley-355, a left return spring-361, a left air pressure chamber-362, a left piston rod-363, a left moving pin-364, a left sliding rail-365, a connecting rotating rod-371, a rod seat-372, a second rope retraction roller-373, a second rope-374, a second supporting plate-375, a first fixed pulley-376, a right return spring-381, a right air pressure chamber-382, a right piston rod-383, a right moving pin-384 and a right sliding rail-385.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-4, the present invention provides an optical component with a surface protection film, which includes a slide hole 1, a rotation adjusting knob 2, an optical body 3, a mounting seat 4, and a lifting adjusting knob 5, wherein the slide hole 1 is disposed on the front surface of the optical body 3, the rotation adjusting knob 2 is mounted inside the slide hole 1 and is in clearance fit, the rotation adjusting knob 2 is mounted inside the optical body 3 by means of embedding and is mechanically connected, the lower surface of the optical body 3 is fixedly mounted on the upper surface of the mounting seat 4, and the lifting adjusting knob 5 is mounted at the lower end of the left side surface of the optical body 3.

The optical body 3 comprises a shell 31, a rotary lens mechanism 32, a protective film mechanism 33, a vibration reduction mechanism 34, a first rotary adjusting mechanism 35, a left lifting mechanism 36, a second rotary mechanism 37 and a right lifting mechanism 38, wherein the lower end of the left surface of the shell 31 is provided with a lifting adjusting button 5, the rotary lens mechanism 32 is fixedly arranged at the middle part of the upper end inside the shell 31, the middle end of the rotary lens mechanism 32 is welded with a rotary adjusting button 2 and is mechanically connected with the rotary lens mechanism, the upper surface of the rotary lens mechanism 32 is attached to the lower surface of the protective film mechanism 33, the upper end of the vibration reduction mechanism 34 is fixedly arranged at the lower surface of the rotary lens mechanism 32, the lower end of the vibration reduction mechanism 34 is fixedly arranged inside the shell 31, the left end of the first rotary adjusting mechanism 35 runs through the lower end inside the left end of the shell 31, the left end of the first rotary adjusting, the left lifting mechanism 36 is connected with the upper end of the first rotating adjusting mechanism 35, the upper end of the left lifting mechanism 36 is fixedly installed on the lower surface of the left end of the rotating lens mechanism 32, the left end of the second rotating mechanism 37 is welded and mechanically connected with the right end of the first rotating adjusting mechanism 35, the upper end of the second rotating mechanism 37 is connected with the right lifting mechanism 38, the right lifting mechanism 38 is fixedly installed on the lower surface of the right end of the rotating lens mechanism 32, the rotating lens mechanism (32) comprises a driving rotating wheel (321), a lens clamping ring (322), a left belt 323, a left ratchet wheel 324, a left pawl 325, a right belt 326, a right ratchet wheel, a right pawl 328, a moving shaft 329 and a fixed shaft rail 3210, the driving rotating wheel 321 is welded and mechanically connected with the rotating adjusting button 2, the driving rotating wheel 321 is fixedly installed at the middle end outside the lens clamping ring 322, the upper surface of the lens holder 322 is attached to the protective film mechanism 33, the driving wheel 321 is movably connected to the left ratchet wheel 324 through the left belt 323, the left ratchet wheel 324 is fixedly mounted at the lower left corner of the lens holder 322, the left ratchet wheel 324 is engaged with the left pawl 325, the driving wheel 321 is movably connected to the right ratchet wheel 327 through the right belt 326, the right ratchet wheel 327 is fixedly mounted at the lower right corner of the lens holder 322, the right ratchet wheel 327 is engaged with the right pawl 328, the moving shaft 329 is fixedly mounted on the driving wheel 321 and located at the same center, the moving shaft 329 is mounted inside the fixed shaft rail 3210 and is in clearance fit, the lens holder 322 includes an outer holder 3221 and an inner lens 3222, the outer holder 3221 is mounted outside the inner lens 3222 and engaged with each other, the middle outer holder 3221 is welded to the driving wheel 321 and mechanically connected to the outer holder 3221, the lower surface of the left end of the outer clamping ring 3221 is attached to the upper surface of the left lifting mechanism 36, the lower surface of the right end of the outer clamping ring 3221 is attached to the upper surface of the right lifting mechanism 38, the lower end of the outer clamping ring 3221 is welded to the upper end of the vibration reduction mechanism 34, the protective film mechanism 33 comprises an adhesive layer 331 and a protective film 332, the lower surface of the adhesive layer 331 is attached to the upper surface of the inner lens 3222, the upper surface of the adhesive layer 331 is attached to the lower surface of the protective film 332, the vibration reduction mechanism 34 comprises a limiting rod 341, an upper fixing block 342, a vibration reduction spring 343, a lower fixing block 344 and a support long rod 345, the upper end of the limiting rod 341 is welded to the lower surface of the outer clamping ring 3221, the upper fixing block 342 is mounted inside the upper end of the vibration reduction spring 343, the lower surface of the lower fixing block 344 is welded to the upper surface of the long supporting rod 345, the long supporting rod 345 is fixedly installed inside the housing 31, the first rotation adjusting mechanism 35 includes a rotating rod 351, a first rope winding and unwinding roller 352, a first rope 353, a first supporting plate 354 and a first fixed pulley 355, the left end of the rotating rod 351 penetrates through the inside of the lower end of the left side of the housing 31, the left end of the rotating rod 351 is welded to the right side surface of the lifting adjusting knob 5 and is mechanically connected, the first rope winding and unwinding roller 352 is arranged in the middle of the rotating rod 351 and is mechanically connected, the first rope winding and unwinding roller 352 is connected with the lower end of the first rope 353, the first supporting plate 354 is fixedly installed on the left side surface of the inside of the housing 31, the right end of the first supporting plate 354 is provided with the first fixed pulley 355, the first rope 353 is connected with the first fixed pulley, the right end of the rotating rod 351 is welded and mechanically connected with the lower left end of the second rotating mechanism 37, the left lifting mechanism 36 comprises a left return spring 361, a left air pressure chamber 362, a left piston rod 363, a left moving pin 364 and a left sliding rail 365, the left return spring 361 is connected with the upper end of the first rope 353, the left return spring 361 is installed inside the lower end of the left air pressure chamber 362, the left piston rod 363 penetrates through the left air pressure chamber 362, the lower end of the left piston rod 363 is attached to the upper end of the left return spring 361, the upper end of the left piston rod 363 is provided with the left moving pin 364, the left moving pin 364 is installed inside the left sliding rail 365 and is in clearance fit, the upper surface of the left sliding rail 365 is fixedly installed on the lower surface of the left end of the outer clamping ring 3221, and the second rotating mechanism 37 comprises a connecting rotating rod 371, a rod seat 372, a second rope roller 373, the left end of the connecting rotating rod 371 is welded with the right end of the rotating rod 351, the connecting rotating rod 371 penetrates through the rod base 372 and is in clearance fit, the lower surface of the rod base 372 is fixedly arranged at the middle end of the bottom surface in the shell 31, the right end of the connecting rotating rod 371 is provided with a second rope take-up and pay-off roller 373 and is mechanically connected, the second rope take-up and pay-off roller 373 is connected with the lower end of a second rope 374, the second support plate 375 is fixedly arranged at the right side surface in the shell 31, the left end of the second support plate 375 is provided with a first fixed pulley 376, the first fixed pulley 376 is connected with the second rope 374, the upper end of the second rope 374 is connected with the right lifting mechanism 38, the right lifting mechanism 38 comprises a right return spring 381, a right air pressure chamber 382, a right piston rod 383, a right moving pin 384 and a right sliding rail 385, the right return spring 381 is connected with the upper end of, the right return spring 381 is installed at the lower end inside the right pneumatic chamber 382, the right piston rod 383 penetrates through the inside of the right pneumatic chamber 382 and is in clearance fit, the lower end of the right piston rod 383 is attached to the upper end of the right return spring 381, a right moving pin shaft 384 is arranged at the upper end of the right piston rod 383, the right moving pin shaft 384 is installed inside the right slide rail 385 and is in clearance fit, and the upper surface of the right slide rail 385 is fixedly installed on the lower surface of the right end of the outer clamping ring 3221.

The principle of the invention is as follows: the mounting seat 4 is mounted at a proper position, the driving wheel 321 is rotated to drive the lens clamping ring 322 to rotate by rotating the rotation adjusting knob 2, so that the left end and the right end of the inner lens 3222 on the lens clamping ring 322 are rotated, the angle of the inner lens 3222 is adjusted, the angle adjusted by the inner lens 3222 is more comprehensive, the protective film 332 has a certain protective effect on the inner lens 3222 by the combined use of the adhesive layer 331 and the protective film 332 at the upper end of the inner lens 3222, the mirror surface of the inner lens 3222 is prevented from being scratched, the left ratchet 324 is rotated by the transmission of the left side belt 323, the inner lens 3222 is prevented from sliding downwards when the angle is adjusted by the left ratchet pawl 325, the position of the upper end of the vibration reducing spring 343 is limited by the limiting rod 341 on the vibration reducing mechanism 34, the vibration reducing spring 343 is prevented from deviating, and vibration generated in the adjustment process of the inner lens 3222 is reduced by the, the inner lens 3222 is prevented from vibrating too much to ensure normal operation, and the inner lens 3222 meshed with the adjusting outer clip 3221 is subjected to plane rotation for angle adjustment by adjusting the outer clip 3221, so that an operator does not directly touch the inner lens 3222 with a hand, and the inner lens 3222 is prevented from being printed with fingerprints to influence light condensation; the first rotating adjusting mechanism 35 and the second rotating mechanism 37 work by rotating the lifting adjusting button 5, the first rope winding and unwinding roller 352 on the first rotating adjusting mechanism 35 rotates, the first rope 353 is released to enable the left return spring 361 to reset, the left piston rod 363 at the upper end of the left return spring 361 pushes up the left sliding rail 365, the second rotating mechanism 37 drives the right lifting mechanism 38 to work, and at the moment, the inner lens 3222 moves upwards, so that the effect of the light-gathering focal length is better.

The left ratchet wheel of the present invention is defined as a gear with rigid toothed surface or friction surface on the outer or inner edge, and is an important component of ratchet mechanism.

The invention solves the problem that the adjustment angle of the optical lens is limited, and the optical lens can vibrate during operation, thereby influencing the normal use of the optical lens and causing the problem of the focusing focal length, through the mutual combination of the above components, the invention is provided with a rotating lens mechanism 32, a protective film mechanism 33, a vibration reduction mechanism 34, a first rotating adjustment mechanism 35, a left lifting mechanism 36, a second rotating mechanism 37 and a right lifting mechanism 38, the inner lens 3222 is protected to a certain extent through the protective film mechanism 33, the scratch of the inner lens 3222 is prevented, the angle adjustment of the inner lens 3222 is carried out through adjusting the rotating lens mechanism 32, the adjustment angle of the inner lens 3222 is more comprehensive, the vibration of the inner lens 3222 is reduced through the work of the vibration reduction mechanism 34 during the adjustment, the normal work of the inner lens 3222 is ensured, through adjusting the outer clamping ring 3221, the inner lens 3222 engaged with the adjusting outer clip 3221 is rotated in a plane to adjust an angle, so that an operator is prevented from directly touching the inner lens 3222, the inner lens 3222 is printed with fingerprints, the left lifting mechanism 36 and the right lifting mechanism 38 are simultaneously operated by adjusting the first rotating adjusting mechanism 35 and the second rotating mechanism 37, the upper position and the lower position of the inner lens 3222 are moved, and the light-gathering focal length effect of the inner lens 3222 is better.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. Have surface protection film optics component, its structure includes slide opening (1), rotation adjusting knob (2), optics main part (3), mount pad (4), lift adjusting knob (5), its characterized in that: the optical lens is characterized in that the sliding hole (1) is formed in the front surface of the optical main body (3), the rotary adjusting button (2) is installed inside the sliding hole (1) and is in clearance fit, the rotary adjusting button (2) is installed inside the optical main body (3) in an embedding mode and is mechanically connected, the lower surface of the optical main body (3) is fixedly installed on the upper surface of the installation seat (4), and the lifting adjusting button (5) is installed at the lower end of the left side surface of the optical main body (3);

the optical main body (3) comprises a shell (31), a rotary lens mechanism (32), a protective film mechanism (33), a vibration reduction mechanism (34), a first rotary adjusting mechanism (35), a left lifting mechanism (36), a second rotating mechanism (37) and a right lifting mechanism (38), wherein a lifting adjusting button (5) is arranged at the lower end of the left surface of the shell (31), the rotary lens mechanism (32) is fixedly installed at the middle part of the upper end inside the shell (31), the middle end of the rotary lens mechanism (32) is welded and mechanically connected with the rotary adjusting button (2), the upper surface of the rotary lens mechanism (32) is attached to the lower surface of the protective film mechanism (33), the upper end of the vibration reduction mechanism (34) is fixedly installed at the lower surface of the rotary lens mechanism (32), the lower end of the vibration reduction mechanism (34) is fixedly installed inside the shell (31), and the left end of the first rotary adjusting mechanism (35) runs through the lower end of the shell (31), the left end of the first rotating adjusting mechanism (35) is welded with the right side surface of the lifting adjusting button (5), the left lifting mechanism (36) is connected with the upper end of the first rotating adjusting mechanism (35), the upper end of the left lifting mechanism (36) is fixedly installed on the lower surface of the left end of the rotating lens mechanism (32), the left end of the second rotating mechanism (37) is welded and mechanically connected with the right end of the first rotating adjusting mechanism (35), the upper end of the second rotating mechanism (37) is connected with the right lifting mechanism (38), and the right lifting mechanism (38) is fixedly installed on the lower surface of the right end of the rotating lens mechanism (32);

the rotary lens mechanism (32) comprises a driving rotating wheel (321), a lens clamping ring (322), a left belt (323), a left ratchet wheel (324), a left stopping pawl (325), a right belt (326), a right ratchet wheel (327), a right stopping pawl (328), a moving shaft (329) and a fixed shaft rail (3210), wherein the driving rotating wheel (321) is welded and mechanically connected with a rotary adjusting button (2), the driving rotating wheel (321) is fixedly arranged at the middle end outside the lens clamping ring (322), the upper surface of the lens clamping ring (322) is attached to a protective film mechanism (33), the driving rotating wheel (321) is movably connected with the left ratchet wheel (324) through the left belt (323), the left ratchet wheel (324) is fixedly arranged at the lower left corner of the lens clamping ring (322), the left ratchet wheel (324) is engaged with the left stopping pawl (325), and the driving rotating wheel (321) is movably connected with the right ratchet wheel (327) through the right belt (326), the right side ratchet wheel (327) is fixedly arranged at the right lower corner of the lens clamping ring (322), the right side ratchet wheel (327) is meshed with a right stopping pawl (328), the moving shaft (329) is fixedly arranged on the driving rotating wheel (321) and is positioned at the same circle center, and the moving shaft (329) is arranged inside the fixed shaft rail (3210) and adopts clearance fit.

2. The optical member with a surface protective film according to claim 1, wherein: the lens clamping ring (322) comprises an outer clamping ring (3221) and an inner lens (3222), the outer clamping ring (3221) is installed outside the inner lens (3222) and is meshed with the inner lens (3222), the middle end of the outer part of the outer clamping ring (3221) is welded to the driving rotating wheel (321) and is mechanically connected with the driving rotating wheel, the lower surface of the left end of the outer clamping ring (3221) is attached to the upper surface of the left lifting mechanism (36), the lower surface of the right end of the outer clamping ring (3221) is attached to the upper surface of the right lifting mechanism (38), and the lower end of the outer clamping ring (3221) is welded to the upper end of the vibration reduction mechanism (34).

3. The optical member with a surface protective film according to claim 1, wherein: the protective film mechanism (33) comprises an adhesive layer (331) and a protective film (332), wherein the lower surface of the adhesive layer (331) is attached to the upper surface of the inner lens (3222), and the upper surface of the adhesive layer (331) is attached to the lower surface of the protective film (332).

4. The optical member with a surface protective film according to claim 2, wherein: damping mechanism (34) include gag lever post (341), go up fixed block (342), damping spring (343), lower fixed block (344), support stock (345), gag lever post (341) upper end welds in outer clamp ring (3221) lower surface, it installs at outer clamp ring (3221) lower surface to go up fixed block (342), it installs inside damping spring (343) upper end to go up fixed block (342), damping spring (343) upper end is laminated with outer clamp ring (3221) lower surface mutually, damping spring (343) lower extreme internally mounted has lower fixed block (344), lower fixed block (344) lower surface welds in support stock (345) upper surface, support stock (345) fixed mounting is inside in shell (31).

5. The optical member with a surface protective film according to claim 1, wherein: the first rotating adjusting mechanism (35) comprises a rotating rod (351), a first rope winding and unwinding roller (352), a first rope (353), a first supporting plate (354) and a first fixed pulley (355), the left end of the rotating rod (351) penetrates through the inside of the lower end of the left side of the shell (31), the left end of the rotating rod (351) is welded on the right side surface of the lifting adjusting button (5) and is mechanically connected, the first rope winding and unwinding roller (352) is arranged in the middle of the rotating rod (351) and is mechanically connected, the first rope winding and unwinding roller (352) is connected with the lower end of the first rope (353), the first supporting plate (354) is fixedly installed on the left side surface of the inside of the shell (31), the first fixed pulley (355) is arranged at the right end of the first supporting plate (354), the first rope (353) is connected with the first fixed pulley (355), and the upper end of the first rope (353) is connected with the lower end, the right end of the rotating rod (351) is welded and mechanically connected with the left lower end of the second rotating mechanism (37).

6. The optical member with a surface protective film according to claim 1 or 5, wherein: left side elevating system (36) include left reset spring (361), left pneumatic chamber (362), left piston rod (363), left removal round pin axle (364), left slide rail (365), left side reset spring (361) are connected with first rope (353) upper end, left side reset spring (361) are installed inside left pneumatic chamber (362) lower extreme, left side piston rod (363) run through inside left pneumatic chamber (362), left side piston rod (363) lower extreme is laminated with left reset spring (361) upper end mutually, left side piston rod (363) upper end is equipped with left removal round pin axle (364), left side removal round pin axle (364) are installed inside left slide rail (365) and are adopted clearance fit, left side slide rail (365) upper surface fixed mounting is at outer clamp ring (3221) left end lower surface.

7. The optical member with a surface protective film according to claim 1, wherein: the second rotating mechanism (37) comprises a connecting rotating rod (371), a rod seat (372), a second rope collecting and releasing roller (373), a second rope (374), a second support plate (375) and a first fixed pulley (376), the left end of the connecting rotating rod (371) is welded with the right end of a rotating rod (351), the connecting rotating rod (371) penetrates through the rod seat (372) and is in clearance fit, the lower surface of the rod seat (372) is fixedly installed at the middle end of the bottom surface inside the shell (31), the right end of the connecting rotating rod (371) is provided with the second rope collecting and releasing roller (373) and is mechanically connected, the second rope collecting and releasing roller (373) is connected with the lower end of the second rope (374), the second support plate (375) is fixedly installed on the right side surface inside the shell (31), the left end of the second support plate (375) is provided with the first fixed pulley (376), and the first fixed pulley (376) is connected with the second rope (374), the upper end of the second rope (374) is connected with the right lifting mechanism (38).

8. The optical member with a surface protective film according to claim 1 or 7, wherein: right side elevating system (38) include right reset spring (381), right pneumatic chamber (382), right piston rod (383), right side removal round pin axle (384), right slide rail (385), right side reset spring (381) is connected with second rope (374) upper end, right side reset spring (381) is installed at the inside lower extreme of right pneumatic chamber (382), right side piston rod (383) runs through inside and adopting clearance fit in right pneumatic chamber (382), right side piston rod (383) lower extreme is laminated with right reset spring (381) upper end mutually, right side piston rod (383) upper end is equipped with right side removal round pin axle (384), right side removal round pin axle (384) is installed inside and adopting clearance fit in right slide rail (385), right side slide rail (385) upper surface fixed mounting is at outer clamp ring (3221) right-hand member lower surface.

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