CN210282015U - Eight station lens bonding frocks of carousel formula - Google Patents

Abstract

The utility model provides a turntable type eight-station lens bonding tool, which relates to the technical field of tools and comprises a working platform; the working platform is provided with at least one fixing component for fixing the galvanometer motor and at least one swing arm component capable of rotating relative to the working platform; the swing arm assembly is provided with a lens positioning seat capable of moving along the vertical direction, and the lens positioning seat is positioned right above the galvanometer motor during bonding. The assembly efficiency of mirror motor and the mirror lens that shakes has been improved.

Description

Eight station lens bonding frocks of carousel formula

Technical Field

The utility model relates to a frock technical field particularly, relates to eight station lens bonding frocks of carousel formula.

Background

In the structure that lens and motor shaft are directly connected through bonding glue among the mirror vibration motor, the bonding process is important process, and the quality of bonding quality directly influences the final quality of mirror vibration motor, if the bonding quality is poor, can cause the mirror vibration motor frequency low, quality problems such as squeal when high-speed and can't normally work. When the lens bonds, need satisfy requirements such as the depth of parallelism, position degree, symmetry of lens and motor shaft axis, if do not adopt frock clamp to assist the bonding, will can't guarantee the lens quality of bonding.

However, in the prior art, the worker adopts a simple single tool, and although the bonding quality can be improved, the number of the required tools is large, the types of the tools are multiple, the operation of the worker is complex, the efficiency is low, and more money and energy are required to be invested in batch processing and debugging of the tools.

Therefore, it is an important technical problem to be solved by those skilled in the art to provide a rotating disc type eight-station lens bonding tool with high working efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an eight station lens bonding frocks of carousel formula to alleviate the technical problem that equipment shakes the mirror motor and shakes mirror lens work efficiency low among the prior art.

The embodiment of the utility model provides a turntable type eight-station lens bonding tool, which comprises a working platform;

the working platform is provided with at least one fixing component for fixing the galvanometer motor and at least one swing arm component capable of rotating relative to the working platform;

the swing arm assembly is provided with a lens positioning seat capable of moving along the vertical direction, and the lens positioning seat is positioned right above the galvanometer motor during bonding.

The embodiment of the present invention provides a first possible implementation manner, wherein the fixing assembly includes a positioning seat and a driving member disposed on the positioning seat;

the positioning seat is provided with a positioning surface, and the galvanometer motor is abutted against the positioning surface under the driving of the driving piece.

The embodiment of the utility model provides a second possible implementation mode, wherein, above-mentioned driving piece include magnet and with magnet fixed connection's threaded rod, set up on the positioning seat cavity and with the screw through-hole of cavity intercommunication, magnet holding in cavity, the free end of threaded rod wear out the screw through-hole and with handle fixed connection.

The embodiment of the present invention provides a third possible implementation manner, wherein the swing arm assembly includes a pillar and a cantilever;

the pillar is fixed to be set up on work platform, and the one end of cantilever is established on the pillar through first bearing flange cover, and the cantilever can rotate for the pillar.

In a fourth possible implementation manner provided by the embodiment of the present invention, a sliding seat is fixedly disposed on the cantilever, a sliding rail is disposed on the sliding seat, and the lens positioning seat is fixedly disposed on the sliding rail;

or, the cantilever is fixedly provided with a slide rail, and the lens positioning seat is arranged on the slide rail in a sliding manner.

In a fifth possible implementation manner provided by the embodiment of the present invention, the lens positioning seat is provided with a mounting groove for mounting a galvanometer lens, a spring plate for fixing the galvanometer lens, and a pressing plate for pressing the galvanometer lens; the lens positioning seat is provided with a mounting groove, an elastic sheet and a pressing plate, the mounting groove is used for mounting a galvanometer lens, the lower end of the mounting groove is open, the mounting groove comprises a first side wall and a second side wall which are oppositely arranged, a through hole is formed in the first side wall, one end of the elastic sheet is fixedly arranged on the first side wall, and the other end of the elastic sheet penetrates through the through hole and abuts against the galvanometer lens in the mounting groove; one end of the pressing plate is arranged on the lens positioning seat through the reset assembly, and the other end of the pressing plate is provided with a pressing block used for pressing the galvanometer lens.

A sixth possible implementation manner provided by the embodiment of the present invention, wherein an unthreaded hole is formed on the lens positioning seat, the reset assembly includes a pin shaft, a spring, a first screw and a second screw, the pin shaft is inserted into the unthreaded hole, and one end of the pin shaft is fixedly connected to the pressing plate through the first screw, and the other end of the pin shaft is provided with the second screw; the spring is sleeved on the second screw, wherein one end of the spring is abutted to the lens positioning seat, the other end of the spring is abutted to the nut of the second screw, and the spring enables the pressing plate to always have a tendency of moving towards the direction close to the lens positioning seat.

The embodiment of the present invention provides a seventh possible implementation manner, wherein the rotating disc type eight-station lens bonding tool further includes a base;

be provided with the bearing housing on the base, work platform passes through the second bearing flange setting and sheathes in at the bearing, and work platform can rotate relative to the bearing housing.

The embodiment of the utility model provides an eighth possible embodiment, wherein, be provided with a first magnet steel on the above-mentioned base, the work platform bottom is provided with a plurality ofly and the second magnet steel of first magnet steel adaptation, and is a plurality of the second magnet steel winds work platform's axis of rotation equidistant setting.

An embodiment of the present invention provides a ninth possible implementation manner, wherein, above-mentioned be provided with a plurality ofly on the work platform fixed subassembly and a plurality of the swing arm subassembly, it is a plurality of fixed subassembly winds work platform's axis of rotation equidistant setting, it is a plurality of the swing arm subassembly is respectively with a plurality of fixed subassembly one-to-one sets up.

Has the advantages that:

the embodiment of the utility model provides a turntable type eight-station lens bonding tool, which comprises a working platform; the working platform is provided with at least one fixing component for fixing the galvanometer motor and at least one swing arm component capable of rotating relative to the working platform; the swing arm assembly is provided with a lens positioning seat capable of moving along the vertical direction, and the lens positioning seat is positioned right above the galvanometer motor during bonding.

When the vibrating mirror is used, a worker fixes the vibrating mirror motor by using the fixing assembly, fixes the vibrating mirror lens by using the lens positioning seat, and coats a bonding agent on the bottom of the vibrating mirror lens; then the staff rotates the rocking arm subassembly, makes the lens positioning seat rotate to directly over the fixed subassembly, then staff drive lens positioning seat downstream for in the bottom of the mirror lens that shakes inserts the mount pad at mirror motor top that shakes, keep a period, guarantee to shake the mirror lens and shake the mirror motor and be connected firmly, through such setting, improve the work efficiency of the mirror lens that shakes of mirror motor installation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a turntable type eight-station lens bonding tool provided in an embodiment of the present invention, wherein two fixing assemblies and two swing arm assemblies are arranged on the tool;

FIG. 2 is an enlarged view taken at D in FIG. 1;

fig. 3 is a side view of the turntable type eight-station lens bonding tool provided in the embodiment of the present invention;

FIG. 4 is a cross-sectional view A-A of FIG. 3;

fig. 5 is a top view of a fixing assembly in the turntable type eight-station lens bonding tool provided in the embodiment of the present invention;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5;

fig. 7 is a schematic view of a lens positioning seat in the turntable type eight-station lens bonding tool provided in the embodiment of the present invention when positioning a galvanometer lens;

fig. 8 is a side view of a lens positioning seat in the turntable type eight-station lens bonding tool provided in the embodiment of the present invention;

fig. 9 is a cross-sectional view of C-C in fig. 8.

Icon:

100-a working platform; 110-a base; 111-first magnetic steel; 120-a bearing sleeve; 121-support step; 130-second bearing flange; 140-bearing compression nut; 150-second magnetic steel;

200-a stationary component; 210-positioning seat; 220-a drive member; 230-a positioning surface; 240-threaded rod; 250-a handle;

300-a swing arm assembly; 301-a slide; 310-a slide rail; 320-a pillar; 330-cantilever;

400-lens positioning seat; 410-mounting grooves; 420-spring plate; 430-a press plate; 440-briquetting; 450-a reset component; 451-a pin shaft; 452-a spring; 453-first screw; 454-a second screw;

500-galvanometer motor; 600-galvanometer lens.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

Referring to fig. 1 to 9, the present embodiment provides a turntable type eight-station lens bonding tool, which includes a working platform 100; the working platform 100 is provided with at least one fixing component 200 for fixing the galvanometer motor 500 and at least one swing arm component 300 capable of rotating relative to the working platform 100; the swing arm assembly 300 is provided with a lens positioning seat 400 capable of moving along the vertical direction, and when bonding, the lens positioning seat 400 is located right above the galvanometer motor 500.

When the vibrating mirror is used, a worker fixes the vibrating mirror motor 500 by using the fixing assembly 200, fixes the vibrating mirror lens 600 by using the lens positioning seat 400, and coats a binder on the bottom of the vibrating mirror lens 600; then the staff rotates the rocking arm subassembly, makes lens positioning seat 400 change to directly over fixed subassembly 200, then staff drive lens positioning seat 400 downstream for shake mirror lens 600 the bottom insert shake mirror motor 500 the mount pad at top in, keep a period, guarantee to shake mirror lens 600 and shake mirror motor 500 and be connected firmly, through such setting, improve the work efficiency that shakes mirror lens 600 of mirror motor 500 installation.

Referring to fig. 1, 5 and 6, in an alternative of this embodiment, the fixing assembly 200 includes a positioning seat 210 and a driving member 220 disposed on the positioning seat 210; the positioning base 210 is provided with a positioning surface 230, and the galvanometer motor 500 is driven by the driving member 220 to abut against the positioning surface 230.

In the alternative of this embodiment, the positioning surface 230 is in a V shape, a C shape or a circular arc shape.

The mirror motor 500 abuts against the positioning surface 230 through the driving member 220, wherein the V-shaped, C-shaped or arc-shaped positioning surface 230 arranged on the positioning seat 210 can fix the axis of the mirror motor 500, so as to avoid the fixed mirror motor 500 from inclining, and the mirror motor 500 can be stably fixed through the arrangement.

Referring to fig. 5 and 6, in an alternative embodiment, the driving member 220 includes a magnet and a threaded rod 240 fixedly connected to the magnet, the positioning seat 210 is provided with a cavity and a threaded through hole communicated with the cavity, the magnet is accommodated in the cavity, and a free end of the threaded rod 240 penetrates through the threaded through hole and is fixedly connected to the handle 250.

Specifically, a concave cavity for mounting the magnet and a threaded through hole for mounting the threaded rod 240 are formed in the positioning seat 210, and the threaded through hole is communicated with the concave cavity, so that the threaded rod 240 can drive the magnet to move; for example, when the threaded rod 240 rotates clockwise, the magnet can be driven to be close to the mirror motor 500, so that the mirror motor 500 can be attracted, the mirror motor 500 is enabled to tightly lean against the positioning surface 230, when the threaded rod 240 rotates counterclockwise, the magnet can be driven to be away from the mirror motor 500, along with the increase of the distance between the magnet and the mirror motor 500, the mirror motor 500 is enabled to have no constraint force to abut against the positioning surface 230, a worker can take off the mirror motor 500 from the positioning surface 230, and then the mirror motor 500 is replaced with a new mirror motor 500.

Referring to fig. 1, in an alternative version of the present embodiment, the swing arm assembly 300 includes a support post 320 and a suspension arm 330; the supporting column 320 is fixedly disposed on the working platform 100, one end of the cantilever 330 is sleeved on the supporting column 320 through a first bearing flange, and the cantilever 330 can rotate relative to the supporting column 320.

Specifically, the cantilever 330 is disposed on the pillar 320 through the first bearing flange, the cantilever 330 is horizontal, and the cantilever 330 can rotate relative to the pillar 320, and the lens positioning seat 400 on the cantilever 330 can be driven to move together in the rotation process of the cantilever 330.

Wherein, lens positioning seat 400 can be located the swing arm and keep away from the one end of pillar 320, also can set up the middle part at the swing arm, as long as when bonding, the swing arm can drive lens positioning seat 400 and remove to shake mirror motor 500 directly over can.

Wherein, two limit stops are arranged on the pillar 320, and the swing angle of the cantilever 330 is limited by the limit stops. The connection of the limit stop with the strut 320 is located below the first bearing flange, and the limit stop can abut against the cantilever 330.

Referring to fig. 2, in an alternative of this embodiment, a sliding seat 301 is fixedly disposed on a cantilever 330, a sliding rail 310 is disposed on the sliding seat 301, and a lens positioning seat 400 is fixedly disposed on the sliding rail 310.

Of course, the sliding rail 310 may also be fixedly disposed on the cantilever 330, and the lens positioning seat 400 may be slidably disposed on the sliding rail 310. The lens positioning seat 400 can be slidably connected with the cantilever 330 in such a manner, so that the lens positioning seat 400 can be reliably moved in the vertical direction.

Specifically, a fixed slide 301 that is provided with for installing lens positioning seat 400 on cantilever 330, slidable is provided with slide rail 310 on the slide 301, the last fixed lens positioning seat 400 that is provided with of slide rail 310, and at the during operation, staff's manual promotion slide rail 310 makes slide rail 310 vertically reciprocate along slide 301 to drive lens positioning seat 400 vertically reciprocate.

Wherein, both ends of the slide rail 310 are provided with a limiting seat to prevent the slide rail 310 from separating from the slide base 301. The position that cantilever 330 is close to slide 301 can set up the stopper, stopper and spacing seat adaptation for block spacing seat, avoid spacing seat to strike slide 301.

The lens positioning seat 400 is fixed on the slide rail 310 by screws.

Specifically, in the second embodiment for installing the lens positioning seat 400, the cantilever 330 is fixedly provided with a slide rail 310, and the lens positioning seat 400 is slidably disposed on the slide rail 310. In operation, the worker can directly and manually push the lens positioning seat 400 to vertically move up and down.

Wherein, the two ends of the slide rail 310 are provided with limiting seats for limiting the lens positioning seat 400, so as to prevent the lens positioning seat 400 from separating from the slide rail 310.

The lens positioning seat 400 can be disposed on the slide rail 310 through the slide base 301.

Referring to fig. 1, 7, 8, and 9, in an alternative of this embodiment, an installation groove 410 for installing a galvanometer lens 600, an elastic sheet 420 for fixing the galvanometer lens 600, and a pressing plate 430 for pressing the galvanometer lens 600 are formed on the lens positioning seat 400; the lens positioning seat 400 is provided with a mounting groove 410, an elastic sheet 420 and a pressing plate 430, the mounting groove 410 is used for mounting the galvanometer lens 600, the lower end of the mounting groove is open, the mounting groove 410 comprises a first side wall and a second side wall which are oppositely arranged, wherein a through hole is formed in the first side wall, one end of the elastic sheet 420 is fixedly arranged on the first side wall, and the other end of the elastic sheet passes through the through hole and is abutted to the galvanometer lens 600 in the mounting groove 410; one end of the pressing plate 430 is disposed on the lens positioning seat 400 through the reset assembly 450, and the other end is disposed with a pressing block 440 for pressing the galvanometer lens 600.

Lens positioning seat 400 is used for fixing and location lens, and when using, in the staff will shake mirror lens 600 and install mounting groove 410, the lower extreme of mounting groove 410 is uncovered form, and when the vertical downstream of lens positioning seat 400, mounting groove 410 can not interfere the mirror lens 600 that shakes and shake mirror motor 500 and be connected.

After the galvanometer lens 600 is installed in the installation groove 410, the elastic sheet 420 drives the galvanometer lens 600 to abut against the second side wall, so that the central line of the galvanometer lens 600 is vertical and does not incline. The galvanometer mirror plate 600 is then pressed by the pressing plate 430 to prevent the galvanometer mirror plate 600 from being detached.

Wherein, the one side of briquetting 440 towards galvanometer lens 600 can set up the felt pad, avoids briquetting 440 to cause the damage to galvanometer lens 600.

Referring to fig. 7, 8 and 9, in an alternative of this embodiment, a lens positioning seat 400 is provided with an unthreaded hole, a reset assembly 450 includes a pin 451, a spring 452, a first screw 453 and a second screw 454, the pin 451 is inserted into the unthreaded hole, and one end of the pin is fixedly connected with a pressure plate 430 through the first screw 453, and the other end of the pin is provided with the second screw 454; the spring 452 is sleeved on the second screw 454, wherein one end of the spring 452 abuts against the lens positioning seat 400, the other end of the spring 452 abuts against the nut of the second screw 454, and the spring 452 enables the pressing plate 430 to have a tendency of moving towards the direction close to the lens positioning seat 400 all the time.

Specifically, when the reduction assembly 450 is assembled, the pin 451 is inserted into the optical hole, the pressing plate 430 is sleeved on the pin 451, and then the first screw 453 is screwed in, so that the pressing plate 430 is limited between the nut of the first screw 453 and the lens positioning seat 400; the spring 452 is then sleeved on the pin 451, and then the second screw 454 is screwed in, so that the spring 452 is confined between the nut of the second screw 454 and the lens positioning seat 400. When the galvanometer lens 600 is filled in the mounting groove 410, a worker firstly pulls the first screw 453 to enable the pressing block 440 on the pressing plate 430 to be far away from the mounting groove 410, so that the galvanometer lens 600 can be conveniently filled in the mounting groove 410, and then the first screw 453 is slowly put back to enable the pressing block 440 on the pressing plate 430 to be capable of pressing the column galvanometer lens 600.

The pin bush can be arranged in the unthreaded hole, the pin shaft 451 is protected through the pin bush, abrasion of the pin shaft 451 is reduced, and machining precision of the unthreaded hole can be reduced.

Referring to fig. 1, 3 and 4, in an alternative of this embodiment, the turntable type eight-station lens bonding tool further includes a base 110; the base 110 is provided with a bearing housing 120, the working platform 100 is disposed on the bearing housing 120 through a second bearing flange 130, and the working platform 100 can rotate relative to the bearing housing 120.

The base 110 supports the working platform 100, the bearing sleeve 120 is arranged on the base 110, the working platform 100 is arranged on the bearing sleeve 120 through the second bearing flange 130, the working platform 100 can rotate freely, and a user can rotate the working platform 100 conveniently.

Referring to fig. 1, 3 and 4, in an alternative of the present embodiment, a support step 121 and a bearing compression nut 140 are provided on the bearing housing 120, and the bearing compression nut 140 is located above the support step 121; the support step 121 abuts against the inner bearing ring of the second bearing flange 130; the compression nut is sleeved on the outer wall of the bearing sleeve 120, and the bottom of the compression nut is abutted against the inner bearing ring of the second bearing flange 130.

The inner ring of the bearing flange is supported by the support step 121, and the outer ring of the bearing flange is prevented from rubbing against the bearing sleeve 120.

Referring to fig. 1, 3, and 4, in an alternative of this embodiment, a first magnetic steel 111 is disposed on the base 110, and a plurality of second magnetic steels 150 adapted to the first magnetic steel 111 are disposed at equal angles at the bottom of the working platform 100.

When the staff works, the first magnetic steel 111 on the base 110 and one of the second magnetic steels 150 on the working platform 100 attract each other, so that the working platform 100 is prevented from rotating randomly, and the stable working platform 100 is provided for the staff to bond the galvanometer lens 600.

Wherein, the quantity of second magnet steel 150 is the same with the quantity of fixed subassembly 200, consequently, when staff rotated work platform 100 and carried out bonding work, first magnet steel 111 all can bond with one of them second magnet steel 150 to avoid work platform 100 to rock.

In the alternative of this embodiment, eight station lens bonding frock of carousel formula are provided with fixed subassembly 200 of multiunit and swing arm subassembly 300, and each group is along the direction of rotation equipartition of work platform 100.

Specifically, a fixed assembly 200 and a swing arm assembly 300 are combined to form a group of devices for mounting the galvanometer lens 600 on the galvanometer motor 500, a plurality of groups of fixed assemblies 200 and swing arm assemblies 300 are arranged on the working platform 100, and when the plurality of groups of fixed assemblies 200 and swing arm assemblies 300 are used, a worker does not need to move the position and only needs to rotate the working platform 100.

After the worker bonds the first group of galvanometer lenses 600 on the galvanometer motor 500, the working platform 100 is rotated to bond the next group of galvanometer lenses 600 and the galvanometer motor 500, and the like, so that the bonding of multiple groups on the working platform 100 is completed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides an eight station lens of carousel formula bonding frock which characterized in that includes: a work platform (100);

the working platform (100) is provided with at least one fixing assembly (200) for fixing a galvanometer motor (500) and at least one swing arm assembly (300) capable of rotating relative to the working platform (100), and the swing arm assembly (300) is provided with a lens positioning seat (400) capable of moving along the vertical direction;

and when bonding, the lens positioning seat (400) is positioned right above the galvanometer motor (500).

2. The rotating disc type eight-station lens bonding tool as claimed in claim 1, wherein the fixing assembly (200) comprises a positioning seat (210) and a driving member (220) arranged on the positioning seat (210);

the positioning seat (210) is provided with a positioning surface (230), and the galvanometer motor (500) is abutted on the positioning surface (230) under the driving of the driving piece (220).

3. The rotating disc type eight-station lens bonding tool as claimed in claim 2, wherein the driving member (220) comprises a magnet and a threaded rod (240) fixedly connected with the magnet, a cavity and a threaded through hole communicated with the cavity are formed in the positioning seat (210), the magnet is accommodated in the cavity, and a free end of the threaded rod penetrates through the threaded through hole and is fixedly connected with the handle (250).

4. The rotating disc type eight-station lens bonding tool as claimed in claim 1, wherein the swing arm assembly (300) comprises a support column (320) and a cantilever (330);

the pillar (320) is fixedly arranged on the working platform (100), one end of the cantilever (330) is sleeved on the pillar (320) through a first bearing flange, and the cantilever (330) can rotate relative to the pillar (320).

5. The rotating disc type eight-station lens bonding tool according to claim 4, wherein a sliding seat is fixedly arranged on the cantilever (330), a sliding rail is arranged on the sliding seat, and the lens positioning seat (400) is fixedly arranged on the sliding rail;

or, a slide rail is fixedly arranged on the cantilever (330), and the lens positioning seat (400) can be slidably arranged on the slide rail.

6. The rotating disc type eight-station lens bonding tool according to claim 5, wherein a mounting groove (410), an elastic sheet (420) and a pressing plate (430) are arranged on the lens positioning seat (400), the mounting groove (410) is used for mounting a galvanometer lens (600) and the lower end of the mounting groove is open, the mounting groove (410) comprises a first side wall and a second side wall which are oppositely arranged, a through hole is formed in the first side wall, one end of the elastic sheet (420) is fixedly arranged on the first side wall, and the other end of the elastic sheet passes through the through hole and abuts against the galvanometer lens (600) in the mounting groove (410); one end of the pressing plate (430) is arranged on the lens positioning seat (400) through a resetting component (450), and the other end of the pressing plate is provided with a pressing block (440) used for pressing the galvanometer lens (600).

7. The rotating disc type eight-station lens bonding tool according to claim 6, wherein a light hole is formed in the lens positioning seat (400), the reset assembly (450) comprises a pin shaft (451), a spring (452), a first screw (453) and a second screw (454), the pin shaft is arranged in the light hole in a penetrating manner, one end of the pin shaft is fixedly connected with the pressing plate through the first screw, and the other end of the pin shaft is provided with the second screw; the spring is sleeved on the second screw, wherein one end of the spring is abutted to the lens positioning seat, the other end of the spring is abutted to a nut of the second screw, and the spring enables the pressing plate to always have a tendency of moving towards the direction close to the lens positioning seat (400).

8. The rotating disc type eight-station lens bonding tool as claimed in any one of claims 1 to 7, further comprising a base (110);

the bearing sleeve (120) is arranged on the base (110), the working platform (100) is arranged on the bearing sleeve (120) through a second bearing flange (130), and the working platform (100) can rotate relative to the bearing sleeve (120).

9. The rotating disc type eight-station lens bonding tool according to claim 8, wherein a first magnetic steel (111) is arranged on the base (110), a plurality of second magnetic steels (150) matched with the first magnetic steel (111) are arranged at the bottom of the working platform (100), and the plurality of second magnetic steels (150) are arranged around the rotating axis of the working platform (100) at equal intervals.

10. The rotating disc type eight-station lens bonding tool according to claim 8, wherein a plurality of fixing assemblies (200) and a plurality of swing arm assemblies (300) are arranged on the working platform (100), the plurality of fixing assemblies (200) are arranged around a rotating axis of the working platform (100) at equal intervals, and the plurality of swing arm assemblies (300) are respectively arranged in one-to-one correspondence with the plurality of fixing assemblies (200).

Images