CN115826179A - Integrated precise optical lens frame capable of adjusting laser beam - Google Patents

Abstract

The invention discloses an integrated precise optical lens frame capable of adjusting laser beams, which comprises: the main body unit comprises a lens cone through hole formed in the mounting plate through the mounting plate, the two ends of the lens cone through hole are in threaded connection with matched mounting pressing rings, and fastening lugs in symmetrical positions are fixedly mounted at the lower end of the side wall of the mounting plate; the lens switching unit comprises a rotating shaft and a hollow gear, wherein the rotating shaft is rotatably connected with the center of the mounting plate, the hollow gear is fixedly arranged at one end of the rotating shaft, one end of the rotating shaft penetrates through the side wall of the mounting plate, and the side wall of the rotating shaft is fixedly connected with a plurality of groups of lens cone mounting cylinders through a plurality of groups of uniformly distributed connecting columns. According to the invention, the pressing ring, the lens cone fixing ring, the lens cone mounting barrel and the lens barrel do not need to be dismounted, so that the time required for reciprocating dismounting of the lens, the pressing ring, the lens barrel and the lens cone mounting barrel is saved, the efficiency of an optical experiment is improved, the lens barrel can be accurately finely adjusted and calibrated in the vertical direction and the horizontal direction, and the accuracy of an optical experiment result is improved.

Description

Integrated precise optical lens frame capable of adjusting laser beam

Technical Field

The invention relates to the technical field of optical experimental equipment, in particular to an integrated precise optical lens frame capable of adjusting laser beams.

Background

In various experiments related to optics, various lenses with different focal lengths are needed to focus, expand, transmit, split and adjust azimuth angles with high precision, various optical elements are fixed on optical frames with different types, the azimuth angles of the optical elements are further adjusted by adjusting the optical frames, and then laser beams are transformed.

The integrated precision optical lens mirror holder that present optical experiment adopted generally includes mount pad, mirror holder seat, lens cone and clamping ring and constitutes, and it is under the experiment demand that needs adjust laser beam, needs frequent change lens cone, and during the installation lens cone at every turn, all need in the time repeatedly to dismantle lens cone, lens cone frame retainer plate, clamping ring and mirror holder seat to fix with the bolt, it is all longer to lead to carrying out the required time of optical experiment at every turn, further reduced optical experiment efficiency.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above-mentioned problems of the conventional integrated precision optical lens frame capable of adjusting a laser beam.

Therefore, an object of the present invention is to provide an integrated precision optical lens frame capable of adjusting a laser beam, which is suitable for solving the problems that a lens barrel needs to be frequently replaced when an experiment requiring adjustment of a laser beam is required, and the lens barrel, a pressing ring and a frame seat need to be repeatedly disassembled and fixed by bolts each time the lens barrel is installed, so that the time required for each optical experiment is long, and the optical experiment efficiency is further reduced.

In order to solve the technical problems, the invention provides the following technical scheme: an integrated precision optical lens mount for adjusting a laser beam, comprising:

the main body unit comprises a lens cone through hole formed in the mounting plate through the mounting plate, the two ends of the lens cone through hole are in threaded connection with matched mounting pressing rings, and fastening lugs in symmetrical positions are fixedly mounted at the lower end of the side wall of the mounting plate;

lens switching unit, it includes and locates to rotate the pivot of being connected and the fixed hollow gear who sets up in pivot one end with mounting panel center, and pivot one end runs through the mounting panel lateral wall setting, the pivot lateral wall is through the spliced pole fixedly connected with multiunit lens cone installation section of thick bamboo, every all install the lens cone of matching in the lens cone installation section of thick bamboo, set up the cavity that matches with spliced pole and lens cone installation section of thick bamboo in the mounting panel, mounting panel one side lateral wall threaded connection has first screw thread post, fixed cover is equipped with the first little tooth post with hollow gear engagement on the first screw thread post.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the lens switching unit further comprises a lens barrel mounting assembly a which comprises a transverse elastic sheet and a vertical elastic sheet which are mounted on the inner wall of the lens barrel mounting cylinder, the transverse elastic sheet and the vertical elastic sheet are connected with the inner wall of the lens barrel mounting cylinder through elastic columns which are uniformly distributed in multiple groups, a wire guide hole and a vertical pressing opening are mounted on the lens barrel mounting cylinder, the wire guide hole corresponds to the transverse elastic sheet in position and is connected with each transverse elastic sheet in position, each transverse elastic sheet is fixedly connected with the side wall of the lens barrel, and the vertical pressing opening corresponds to the vertical elastic sheet in position.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the lens mirror holder is still including the horizontal fine setting calibration unit, and it includes fixed mounting at the stay cord of lens section of thick bamboo one end and the wire section of thick bamboo that matches with the wire guide, hollow gear keeps away from one side rotation of mounting panel and installs the receipts line pole, the stay cord passes wire guide, wire section of thick bamboo, spliced pole, pivot in proper order and is fixed around establishing on the receipts line pole that corresponds, and sets up the line hole of crossing that matches with the stay cord on the hollow gear lateral wall, the fixed cover of one end that hollow gear was kept away from to receipts line pole is equipped with the second gear wheel, hollow gear lateral wall threaded connection has second screw thread post, fixed cover is equipped with the little tooth post of second with second gear wheel mesh on the second screw thread post.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the lens mirror holder still includes vertical fine setting calibration unit, and it includes fine setting box and the horizontal slip mounting of fixed mounting lateral wall one end on the mounting panel and goes up the slope piece in the fine setting box, fine setting box one end threaded connection has the threaded rod, the threaded rod runs through fine setting box inwards and go up slope piece one end and rotate and be connected, fine setting box inner chamber lower part is provided with down the slope piece, and down the slope piece and finely tune box lower extreme inner wall and be connected through multiunit evenly distributed's spacing telescopic link, every all overlap on the spacing telescopic link and be equipped with corresponding reset spring, the slope spout has been seted up on the slope piece down, the slope slider that lateral wall fixedly connected with and slope spout match under the slope piece, the vertical briquetting of lateral wall fixedly connected with vertical briquetting down has, and vertical briquetting runs through the setting of lateral wall and lens cone installation section of thick bamboo on the mounting panel downwards in proper order.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the one end fixedly connected with fixed ear that the lateral wall is close to the threaded rod on the fine setting box, fixed ear rotates and is connected with the little tooth post of third, threaded rod top fixedly connected with and the little tooth post engaged with third gear wheel of third.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: one end of the upper inclined block far away from the threaded rod and the inner wall of the fine adjustment box are fixedly connected with a transverse telescopic rod.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the main part unit still includes plate body installation component, and it includes the hoop of hugging closely with the mounting panel matching, it establishes on the multiunit guide bar to embrace to tightly encircle the slip cap, embrace to hoop the recess that the mounting panel corresponds on the lateral wall, every the fastening ear with embrace tightly to hoop all through the fastening bolt fastening connection that corresponds, and embrace tightly to hoop the lower extreme and seted up a strip type opening, strip type opening female connection has the positioning bolt that corresponds.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the side wall is seted up multiunit evenly distributed's locating hole on the hoop of holding tightly, lateral wall fixedly connected with and the reference column of locating hole matching under the mounting panel.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: the side wall of the hollow gear is fixedly provided with a guide wheel matched with the pull rope, and each pull rope is wound on the guide wheel.

As a preferable aspect of the integrated precision optical lens frame capable of adjusting laser beam according to the present invention, wherein: and an auxiliary support ring matched with the rotating shaft is fixedly arranged in the mounting plate, and the rotating shaft is rotatably connected with the auxiliary support ring.

The invention has the beneficial effects that: when different lenses are required to be switched and used, the mounting pressing ring is unscrewed, the first threaded column is rotated at the moment, the first small toothed column on the first threaded column drives the hollow gear to rotate, the rotating shaft rotates along with the first small toothed column, the connecting column fixedly connected to the rotating shaft drives the lens barrel mounting cylinder and the lens barrel to move to the position aligned with the through hole of the lens barrel, and the first threaded column stops rotating at the moment;

after the lens barrel corresponds to the through hole of the lens barrel, when the transverse position of the lens barrel needs to be finely adjusted, the second threaded column positioned at the top of the hollow fluted disc is rotated in the forward direction, the second small toothed column fixedly arranged on the second threaded column drives the second large gear to rotate along with the second threaded column, the take-up rod tightens the pull rope along with the second threaded column, the pull rope penetrating through the wire guide hole, the wire guide barrel, the connecting column, the rotating shaft and the hollow gear pulls the lens barrel along with the second threaded column, otherwise, the second threaded column is rotated in the reverse direction, and the transverse elastic sheet pulls the lens barrel to move towards the other side along with the second threaded column, so that the lens is finely adjusted in the horizontal direction;

need carry out the fine adjustment to the lens-barrel in vertical direction, forward rotation third little tooth post this moment, it drives the threaded rod through the third gear wheel and rotates, forward rotation along with the threaded rod, the piece inclines and extrudes down the piece that inclines through the cooperation of slope slider with the slope spout, fixed mounting inserts the vertical orientation of vertical pressure mouth in downwards at the vertical briquetting of the lower extreme of piece that inclines and finely tunes the lens-barrel, when comparatively conveniently switching over the lens-barrel, can carry out accurate fine setting calibration to the lens-barrel in vertical direction and horizontal direction again, the accuracy of optical experiment result has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic diagram of an integrated precision optical lens frame with adjustable laser beam according to the present invention;

FIG. 2 is a schematic view of a mounting plate, a mounting clamping ring and a fastening lug of an integrated precision optical lens frame with adjustable laser beam according to the present invention;

FIG. 3 is a schematic view of a lens switching unit of an integrated precision optical lens holder according to the present invention;

FIG. 4 is a schematic view of a lens barrel mounting assembly of an integrated precision optical lens holder with adjustable laser beam according to the present invention;

FIG. 5 is a schematic diagram of a lateral fine-tuning calibration unit of an integrated precision optical lens frame with adjustable laser beam according to the present invention;

FIG. 6 is a schematic diagram of a vertical fine tuning calibration unit of an integrated precision optical lens holder with adjustable laser beam according to the present invention;

FIG. 7 is a block diagram of an integrated precision optical lens holder with adjustable laser beam according to the present invention;

fig. 8 is a schematic view of a connection structure of a positioning bolt and a clasping hoop of an integrated precision optical lens frame capable of adjusting laser beams according to the present invention.

Description of the drawings: 100 main body unit, 101 mounting plate, 101a plate body mounting assembly, 1011 clasping hoop, 1013 positioning hole, 1014 positioning bolt, 1015 guide rod, 102 fastening lug, 103 lens barrel through hole, 104 mounting clamping ring, 200 lens switching unit, 201 rotating shaft, 202 connecting column, 203 lens barrel mounting cylinder, 203a lens barrel mounting assembly, 2031 transverse elastic sheet, 2032 vertical elastic sheet, 2033 elastic column, 2034 wire guide hole, 2035 vertical pressing port, 204 lens barrel, 205 auxiliary support ring, 206 first threaded column, 207 first small toothed column, 208 hollow gear, 300 transverse fine adjustment calibration unit, 301 second threaded column, 302 second small toothed column, 303 second large gear, 304 wire take-up rod, 305 pull rope, 306 guide wheel, 307 wire guide hole, 308 wire guide cylinder, 400 vertical fine adjustment calibration unit, fine adjustment box, 401 fixing lug, 403 third small toothed column, 404 third large gear, 405 threaded rod, 406 upper inclined block, 407 lower block, 408 inclined slider, 410 inclined chute, 412, 411 sliding block, 413 transverse reset telescopic rod.

Detailed description of the preferred embodiments

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Furthermore, the present invention is described in detail with reference to the drawings, and for convenience of illustration, the cross-sectional views illustrating the device structures are not enlarged partially according to the general scale when describing the embodiments of the present invention, and the drawings are only exemplary, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Referring to fig. 1 to 8, an embodiment of the present invention provides an integrated precision optical lens holder capable of adjusting a laser beam, including a body unit 100, a lens switching unit 200, a lateral fine-tuning alignment unit 300, and a vertical fine-tuning alignment unit 400.

The main body unit 100 comprises a lens barrel through hole 103 formed in the mounting plate 101 by the mounting plate 101, wherein two ends of the lens barrel through hole 103 are in threaded connection with matched mounting pressing rings 104, and fastening lugs 102 with symmetrical positions are fixedly mounted at the lower end of the side wall of the mounting plate 101;

the lens switching unit 200 comprises a rotating shaft 201 rotatably connected with the center of the mounting plate 101 and a hollow gear 208 fixedly arranged at one end of the rotating shaft 201, one end of the rotating shaft 201 penetrates through the side wall of the mounting plate 101, an auxiliary support ring 205 matched with the rotating shaft 201 is fixedly arranged in the mounting plate 101, the rotating shaft 201 is rotatably connected with the auxiliary support ring 205, the matching stability of the rotating shaft 201 and the mounting plate 101 is improved through the arrangement of the auxiliary support ring 205, the side wall of the rotating shaft 201 is fixedly connected with a plurality of groups of lens barrel mounting cylinders 203 through a plurality of groups of uniformly distributed connecting columns 202, matched lens barrels 204 are arranged in each lens barrel mounting cylinder 203, cavities matched with the connecting columns 202 and the lens barrel mounting cylinders 203 are formed in the mounting plate 101, a first threaded column 206 is in threaded connection with the side wall of the mounting plate 101, and a first small toothed column 207 meshed with the hollow gear 208 is fixedly sleeved on the first threaded column 206, the diameter ratio of the first small toothed column 207 to the hollow gear 208 is 1:4, and the thickness of the first small toothed column 207 is greater than four times the thickness of the hollow gear 208.

The lens switching unit 200 further includes a lens barrel mounting assembly 203a, which includes a horizontal elastic piece 2031 and a vertical elastic piece 2032 mounted on the inner wall of the lens barrel mounting cylinder 203, and the horizontal elastic piece 2031 and the vertical elastic piece 2032 are all connected with the inner wall of the lens barrel mounting cylinder 203 through a plurality of groups of elastic columns 2033 uniformly distributed, the lens barrel mounting cylinder 203 is mounted with a wire guide 2034 and a vertical pressing port 2035, the wire guide 2034 corresponds to the horizontal elastic piece 2031, each horizontal elastic piece 2031 is fixedly connected with the side wall of the lens barrel 204, and the vertical pressing port 2035 corresponds to the vertical elastic piece 2032.

The transverse fine-adjustment calibration unit 300 comprises a pull rope 305 fixedly mounted at one end of a lens barrel 204 and a wire guide barrel 308 matched with a wire guide hole 2034, a wire take-up rod 304 is rotatably mounted at one side of a hollow gear 208 far away from a mounting plate 101, the pull rope 305 sequentially passes through the wire guide hole 2034, the wire guide barrel 308, a connecting column 202 and a rotating shaft 201 and is fixedly wound on the corresponding wire take-up rod 304, a wire through hole 307 matched with the pull rope 305 is formed in the side wall of the hollow gear 208, a guide wheel 306 matched with the pull rope 305 is fixedly mounted on the side wall of the hollow gear 208, each pull rope 305 is wound on the guide wheel 306, the pull rope 305 can be guided through the arrangement of the guide wheel 306, the pull rope 305 is convenient to tighten the pull rope 305, a second large gear 303 is fixedly sleeved at one end of the wire take-up rod 304 far away from the hollow gear 208, a second threaded column 301 is connected to the side wall of the hollow gear 208 in a threaded manner, a second small toothed column 302 meshed with the second large gear 303 is fixedly sleeved on the second threaded column 302, and the diameter of the third small toothed column 403 is far smaller than the diameter of the third large gear 404.

Vertical fine setting calibration unit 400 includes fine setting box 401 and the last sloping block 406 of lateral sliding installation in fine setting box 401 of fixed mounting lateral wall one end on mounting panel 101, fine setting box 401 one end threaded connection has threaded rod 405, fine setting box 401 is close to the one end fixedly connected with fixed ear 402 of threaded rod 405, fixed ear 402 rotates and is connected with third small tooth post 403, threaded rod 405 top fixedly connected with and third big gear 404 of third small tooth post 403 meshing, threaded rod 405 runs through fine setting box 401 and rotates with last sloping block 406 one end inwards to be connected, the one end that threaded rod 405 was kept away from to last sloping block 406 still fixedly connected with horizontal telescopic link 412 with fine setting box 401 inner wall, horizontal telescopic link 412 can carry out the auxiliary stay to the horizontal removal of last sloping block 406 in fine setting box 401, fine setting box 401 inner chamber lower part is provided with down sloping block 407, the slope of last sloping block 406 and the sloping block 407 slope is less than 15 degrees, and the lower sloping block 407 lower extreme inner wall of last sloping block 407 is connected through the spacing telescopic link 410 of multiunit evenly distributed, all the cover is equipped with corresponding reset spring 411 on every spacing telescopic link 410, the sloping block 407 has seted up the slope of slope chute 407, the slope chute matching with the lower side slope fixed wall of the last sloping block of the vertical sloping block mounting panel 101 and the vertical sloping block 413 that the slope is connected with the slope of the vertical sloping block 413 that the slope is connected with the vertical sloping block that the slope barrel is connected with the vertical sloping block 101 and is connected with the vertical sloping block that the slope mounting panel 101 and is connected with the slope lateral sliding connection has run through the slope lateral sliding connection.

Main unit 100 still includes plate body installation component 101a, it includes the hoop 1011 of holding tightly that matches with mounting panel 101, it establishes on multiunit guide bar 1015 to hold tightly to embrace hoop 1011 sliding sleeve, hold tightly to embrace the hoop 1011 upper side wall and offer the recess that mounting panel 101 corresponds, every tight ear 102 and the hoop 1011 of holding tightly all through the fastening bolt fastening connection that corresponds, hold tightly to hoop 1011 upper side wall and offer multiunit evenly distributed's locating hole 1013, mounting panel 101 lower side wall fixedly connected with and locating hole 1013 matched's reference column, through the cooperation of reference column and locating hole 1013, the positioning accuracy of holding hoop 1011 and mounting panel 101 has been improved, and hold tightly to hoop 1011 lower extreme and offered strip type opening, strip type opening female connection has corresponding positioning bolt 1014.

In the using process, when different lenses need to be switched and used, the mounting pressing ring 104 is unscrewed, the first threaded column 206 is rotated at the moment, the first small tooth column 207 on the first threaded column 206 drives the hollow gear 208 to rotate, the rotating shaft 201 rotates along with the first threaded column, the connecting column 202 fixedly connected to the rotating shaft 201 drives the lens barrel mounting cylinder 203 and the lens barrel 204 to move to the position aligned with the lens barrel through hole 103, and the first threaded column 206 is stopped rotating at the moment;

after the lens barrel 204 corresponds to the lens barrel through hole 103, when the transverse position of the lens barrel 204 needs to be fine-tuned, the second threaded column 301 located at the uppermost portion of the hollow fluted disc 208 is rotated in the forward direction, the second small toothed column 302 fixedly mounted on the second threaded column 301 drives the second large gear 303 to rotate therewith, the wire take-up rod 304 tightens the pull rope 305 therewith, the pull rope 305 penetrating through the wire guide hole 2034, the wire guide barrel 308, the connecting column 202, the rotating shaft 201 and the pull rope 305 of the hollow gear 208 pulls the lens barrel 204 therewith, otherwise, the second threaded column 301 is rotated in the reverse direction, the transverse elastic sheet 2031 pulls the lens barrel 204 to move towards the other side therewith, and thus the lens is fine-tuned in the horizontal direction;

when the lens barrel 204 needs to be finely adjusted in the vertical direction, the third small toothed column 403 is rotated in the forward direction, the third large gear 404 drives the threaded rod 405 to rotate, the upper inclined block 406 downwards presses the lower inclined block 407 through the matching of the inclined slide block 408 and the inclined slide slot 409 along with the forward rotation of the threaded rod 405, the vertical pressing block 413 fixedly installed at the lower end of the lower inclined block 407 is downwards inserted into the vertical pressing port 2035 to finely adjust the lens barrel 204 in the vertical direction, the lens barrel 204 can be conveniently switched, meanwhile, the lens barrel 204 can be finely adjusted and calibrated accurately in the vertical direction and the horizontal direction, and the accuracy of an optical experiment result is improved;

through holding hoop 1011 tightly, positioning bolt 1014 and guide bar 1015's cooperation, utilize the metal elastic deformation ability that the hoop 1011 self that holds tightly of metalwork possesses, when need holding hoop 1011 tightly and mounting panel 101 on guide bar 1015 is fixed, only need screw up positioning bolt 1014 this moment, along with the screwing up of positioning bolt 1014, hold hoop 1011 tightly to support tightly guide bar 1015, hold hoop 1011 tightly and mounting panel 101 no longer remove thereupon, on the contrary, unscrew positioning bolt 1014, then hold hoop 1011 tightly and no longer support tightly guide bar 1015 thereupon, hold hoop 1011 tightly and can remove at guide bar 1015 with mounting panel 101 thereupon.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. An integrated precision optical lens mount for adjusting a laser beam, comprising:

the lens barrel comprises a main body unit (100) and a clamping unit, wherein the main body unit comprises a lens barrel through hole (103) formed in a mounting plate (101), two ends of the lens barrel through hole (103) are in threaded connection with matched mounting pressing rings (104), and fastening lugs (102) which are symmetrical in position are fixedly mounted at the lower end of the side wall of the mounting plate (101);

lens switch unit (200), it includes pivot (201) and fixed hollow gear (208) that set up in pivot (201) one end of being connected with mounting panel (101) center department rotation, and pivot (201) one end runs through mounting panel (101) lateral wall setting, pivot (201) lateral wall is through spliced pole (202) fixedly connected with multiunit lens cone installation section of thick bamboo (203) of multiunit evenly distributed, every all install lens cone (204) of matching in lens cone installation section of thick bamboo (203), set up the cavity that matches with spliced pole (202) and lens cone installation section of thick bamboo (203) in mounting panel (101), mounting panel (101) a side wall threaded connection has first screw thread post (206), fixed cover is equipped with first little tooth post (207) with hollow gear (208) meshing on first screw thread post (206).

2. An integrated precision optical lens holder for laser beam modification according to claim 1, wherein: the lens switching unit (200) further comprises a lens barrel mounting assembly (203 a) which comprises a transverse elastic sheet (2031) and a vertical elastic sheet (2032) which are mounted on the inner wall of the lens barrel mounting cylinder (203), wherein the transverse elastic sheet (2031) and the vertical elastic sheet (2032) are connected with the inner wall of the lens barrel mounting cylinder (203) through a plurality of groups of elastic columns (2033) which are uniformly distributed, a wire guide hole (2034) and a vertical pressing port (2035) are mounted on the lens barrel mounting cylinder (203), the wire guide hole (2034) corresponds to the transverse elastic sheet (2031), each transverse elastic sheet (2031) is fixedly connected with the side wall of the lens barrel (204), and the vertical pressing port (2035) corresponds to the vertical elastic sheet (2032).

3. An integrated precision optical lens holder for laser beam modification according to claim 2, wherein: lens mirror holder still includes horizontal fine setting calibration unit (300), and it includes stay cord (305) of fixed mounting in lens section of thick bamboo (204) one end and wire cylinder (308) that matches with wire guide (2034), hollow gear (208) are kept away from one side rotation of mounting panel (101) and are installed wire take-up pole (304), stay cord (305) pass wire guide (2034), wire cylinder (308), spliced pole (202), pivot (201) in proper order and are fixed around establishing on corresponding wire take-up pole (304), and offer wire cross hole (307) that match with stay cord (305) on hollow gear (208) lateral wall, the fixed cover of one end that hollow gear (208) were kept away from in wire take-up pole (304) is equipped with second gear wheel (303), hollow gear (208) lateral wall threaded connection has second screw thread post (301), fixed cover is equipped with second gear wheel (302) with second gear wheel (303) meshing on second screw thread post (301).

4. An integrated precision optical lens holder for laser beam modification according to claim 1, wherein: the lens mirror holder still includes vertical fine setting calibration unit (400), and it includes fine setting box (401) and the last slope piece (406) of lateral sliding installation in fine setting box (401) of fixed mounting lateral wall one end on mounting panel (101), fine setting box (401) one end threaded connection has threaded rod (405), threaded rod (405) run through fine setting box (401) inwards with last slope piece (406) one end rotate and be connected, fine setting box (401) inner chamber lower part is provided with down slope piece (407), and down slope piece (407) and fine setting box (401) lower extreme inner wall are connected through spacing telescopic link (410) of multiunit evenly distributed, every all the cover is equipped with corresponding reset spring (411) on spacing telescopic link (410), slope spout (409) has been seted up on slope piece (407) down, go up slope slider (408) that slope piece (406) downside wall fixedly connected with and slope spout (409) match, slope piece (407) downside wall fixedly connected with vertical briquetting (413) down, and vertical briquetting (413) run through the mounting panel (101) upward lateral wall and set up lens cone (203) in proper order.

5. An integrated precision optical lens holder for laser beam modification according to claim 4, wherein: finely tune one end fixedly connected with fixed ear (402) that the lateral wall is close to threaded rod (405) on box (401), fixed ear (402) are rotated and are connected with third pinion post (403), threaded rod (405) top fixedly connected with and third pinion gear (404) of third pinion post (403) meshing.

6. An integrated precision optical lens holder for laser beam modification according to claim 4, wherein: one end of the upper inclined block (406) far away from the threaded rod (405) and the inner wall of the fine adjustment box (401) are fixedly connected with a transverse telescopic rod (412).

7. An integrated precision optical lens holder for laser beam modification according to claim 1, wherein: the main body unit (100) further comprises a plate body mounting assembly (101 a), the plate body mounting assembly comprises a holding hoop (1011) matched with the mounting plate (101), the holding hoop (1011) is slidably sleeved on the multiple groups of guide rods (1015), a groove corresponding to the mounting plate (101) is formed in the side wall of the holding hoop (1011), each holding ear (102) and the holding hoop (1011) are fixedly connected through corresponding fastening bolts, a strip-shaped opening is formed in the lower end of the holding hoop (1011), and a corresponding positioning bolt (1014) is in threaded connection with the strip-shaped opening.

8. An integrated precision optical lens holder for laser beam modification according to claim 7, wherein: embrace and tightly hoop (1011) the lateral wall and seted up multiunit evenly distributed's locating hole (1013), mounting panel (101) lower lateral wall fixedly connected with and locating hole (1013) the reference column that matches.

9. An integrated precision optical lens holder for laser beam modification according to claim 3, wherein: the side wall of the hollow gear (208) is fixedly provided with a guide wheel (306) matched with the pull rope (305), and each pull rope (305) is wound on the guide wheel (306).

10. An integrated precision optical lens holder for laser beam modification according to claim 3, wherein: an auxiliary support ring (205) matched with the rotating shaft (201) is fixedly installed in the installation plate (101), and the rotating shaft (201) is rotatably connected with the auxiliary support ring (205).

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