CN115229491A - Production equipment and method for anti-fog sealed lens module structure - Google Patents

Abstract

The invention relates to the technical field of medical instruments, in particular to production equipment for an anti-fog sealed lens module structure, which comprises a feeding part, a first assembling part, a second assembling part, a clamping part, a vacuum part, a screw fastening part and a glue sealing part, wherein the first assembling part and the second assembling part are in sliding connection with the feeding part; the problems that the existing lens processing device needs to frequently switch stations for processing, needs to clamp and position products for multiple times, is easy to lead out, has large processing error and low processing efficiency and the like are solved.

Description

Production equipment and method for anti-fog sealed lens module structure

Technical Field

The invention relates to the technical field of medical instruments, in particular to a production device and a method for an anti-fog sealed lens module structure.

Background

The medical industry has high requirements on the stability of products, the products are required to meet performance requirements under the conditions of high temperature and high humidity and changes of ambient temperature and humidity, and the detection results of medical instruments cannot be influenced by changes of environmental factors.

Chinese patent publication No. CN109702583A discloses an optical lens processing apparatus, wherein when an optical lens is edged, a hydrophilic grinding layer and a hydrophobic grinding layer are disposed on a grinding surface of an abrasive belt, and due to hydrophobic properties of the hydrophobic grinding layer, when edge burrs and the like of the lens are ground, the hydrophobic grinding layer can achieve sufficient contact between the grinding surface and the burrs of the optical lens, thereby removing the burrs.

The chinese patent publication No. CN108761708B discloses a lens module convenient for cleaning, which includes an inner casing, the inner casing is cylindrical and has openings at both ends, a lens group, a focusing motor, an infrared filter, an image sensor, and a circuit connecting plate are sequentially disposed in the inner casing, the image sensor, the focusing motor and the circuit connecting plate are connected by a wire, an outer casing is disposed outside the inner casing, the outer casing and the bottom of the inner casing are connected by a thread, a first light hole is disposed at an end of the outer casing close to the lens group, and a cleaning disc is rotatably mounted in the outer casing and close to the lens group.

However, the lens processing apparatus in the prior art has the following disadvantages:

1. in the conventional color recognition products on the market, when the environmental change is obvious, fog may appear in a lens module inside the device, so that the transmission of light is changed, and when the environmental change is serious, the fog enters the inside of a spectrometer to form diffraction, so that the measured data is inaccurate;

2. the existing lens processing device needs to frequently switch stations for processing, needs to clamp and position products for multiple times, and is easy to generate the conditions of large wire-outgoing processing error and low processing efficiency;

3. in the existing lens processing process, the overturning object and the moving object need to be moved manually, the working efficiency is low, the processing cost is high, flying dust is easily brought into a high-precision instrument, and the rejection rate is increased.

Disclosure of Invention

The invention aims to realize the production equipment of the anti-fog sealed lens module structure by adopting the technical scheme, and the production equipment comprises a feeding part, a first assembling part, a second assembling part, a clamping part, a vacuum part, a screw fastening part and a glue sealing part, wherein the first assembling part, the second assembling part and the feeding part are in sliding connection;

the first assembling part comprises a ring material lowering assembly, a lump material lowering assembly, a first assembling shell assembly, a single-bin storage assembly, a double-bin storage assembly and an assembling driving assembly, the ring material lowering assembly and the lump material lowering assembly are annularly and uniformly distributed at the bottom of the first assembling shell assembly, the single-bin storage assembly and the double-bin storage assembly are annularly and uniformly distributed in the first assembling shell assembly, and the assembling driving assembly is in transmission connection with the single-bin storage assembly and the double-bin storage assembly;

the assembly driving assembly comprises a stop sliding seat, a stop sliding rod, a stop connecting shaft, a stop rotating plate, an assembly gear, a stop abutting plate, an assembly gear ring, an assembly rotating shaft and a gear ring connecting frame, the bottom of the stop sliding shaft is coaxially fixedly connected with the top of the assembly gear, the top of the stop sliding rod is slidably connected with the stop sliding seat, one end of the stop sliding seat is fixedly connected to the top of the first assembly shell assembly, a stop spring is arranged in the stop sliding seat and abutted against the stop sliding rod, the stop rotating plate is connected with the top of the stop sliding seat through the stop connecting shaft and rotatably connected with the stop connecting shaft, a clamping groove is formed in the middle of the stop sliding rod, one end of the stop rotating plate is clamped in the clamping groove, the stop abutting plate is fixedly connected to the top of the assembly gear ring, the assembly rotating shaft is fixedly connected with the assembly gear ring through the gear ring connecting frame, the stop abutting against one end of the stop rotating plate and pushing the stop rotating plate to rotate around the stop connecting shaft, one end of the stop rotating plate is separated from the stop sliding rod, and the stop rotating plate is clamped in the clamping groove, and the assembly gear ring is meshed with the assembly gear ring.

Further, the single-bin storage component comprises a single-bin rotating block, a single-bin rotary table, a single-bin rotating plate, a single-bin combining rod, a single-bin abutting plate, a single-bin combining cylinder, a discharging rotary table, a discharging spiral ring, a storage single bin and a single-bin pulling block, wherein the single-bin rotating block is arranged at the bottom of the assembled gear;

the double-bin storage assembly comprises a double-bin shell, a material pushing fixture block, a material pushing connecting rod, a material pushing slider, a material pushing hinge rod, a material pushing rotating disc, two double-bin supports, double-bin springs and a material pushing slide rail, wherein the double-bin supports are symmetrically arranged in the middle of the double-bin shell, the double-bin springs are arranged at the bottom of one of the double-bin supports, the top of the material pushing rotating disc is connected with an assembly gear in a rotating mode, the material pushing rotating disc is arranged at the top of the double-bin support far away from the double-bin springs, a discharging spiral ring is arranged at the bottom of the material pushing rotating disc, the top of the material pushing rotating disc is rotatably connected with the material pushing rotating rod, two ends of the material pushing hinge rod are respectively hinged to the material pushing rotating rod and the material pushing slider, the material pushing slider is connected with the material pushing slider through the material pushing connecting rod, and the material pushing slide rail is arranged at the middle of the two double-bin supports, and two ends of the two double-bin supports are fixedly connected with the two double-bin supports.

Further, the ring material lowering assembly comprises a ring material connecting rod, a ring material abutting cylinder, wedge grooves, wedge blocks, a ring material spring and a ring material aligning cylinder, the ring material connecting rod is arranged in the middle of the storage single bin, the wedge grooves are annularly and uniformly distributed on the outer wall of the ring material connecting rod, the wedge blocks are connected with the wedge grooves through the ring material spring, the ring material abutting cylinder is fixedly connected to the bottom of the first assembly shell assembly, and the ring material aligning cylinder is in sliding connection with the wedge blocks;

the lump material is transferred the subassembly and is included lump material slide, lump material rebound barrel, lump material rebound rod, lump material slide, lump material down tube, lump material extension board and lump material counterpoint ring, lump material slide rigid coupling is in first equipment casing subassembly bottom, lump material rebound barrel rigid coupling is in lump material slide one side, lump material rebound rod and lump material rebound barrel sliding connection, lump material rebound rod and lump material counterpoint ring rigid coupling, lump material down tube and lump material counterpoint ring rigid coupling, lump material slide middle part and lump material down tube sliding connection, lump material slide rigid coupling is in one side of lump material extension board, lump material extension board and lump material slide middle part sliding connection.

Further, first equipment casing subassembly includes first equipment casing, a plurality of storehouse frame, equipment fastening block and equipment fastening spring, and is a plurality of the middle part of first equipment casing is arranged in to storehouse frame annular equipartition, and is a plurality of single storehouse demountable installation of storage is in storehouse frame middle part, the equipment fastening block supports the bottom that leans on single storehouse of storage, the equipment fastening block is connected with first equipment casing through equipment fastening spring, equipment fastening block and first equipment casing subassembly sliding connection.

Further, second equipment portion includes second equipment casing subassembly, second equipment unloading subassembly, second equipment drive assembly and second equipment storage assembly, second equipment unloading subassembly arranges the top of second equipment casing in, second equipment drive assembly and second equipment storage assembly arrange second equipment casing subassembly middle part in, second equipment casing subassembly is first equipment casing subassembly, second equipment drive assembly is equipment drive assembly, second equipment storage assembly transfers the subassembly for the lump material.

Further, the clamping part includes that centre gripping carousel, centre gripping pivot, cooperation link axle, centre gripping lifter, centre gripping lift cylinder, centre gripping returning face stock, centre gripping trip shaft and holding frame, centre gripping lifter bottom and centre gripping lift cylinder sliding connection, the centre gripping carousel rotates with centre gripping lifter top to be connected, the middle part of centre gripping carousel is arranged in to the centre gripping pivot, the cooperation links the axle and rotates with the centre gripping carousel to be connected, the cooperation links the axle and is connected with the transmission of equipment drive assembly, centre gripping carousel top is arranged in to centre gripping returning face stock annular equipartition, the centre gripping returning face stock rotates with the centre gripping returning face stock to be connected, holding frame and centre gripping returning face stock sliding connection.

Further, the glue sealing part comprises a glue sealing cam, a glue sealing roller, a glue sealing slide seat, a glue sealing spring, a glue sealing support plate, a glue sealing hinge block, a glue sealing rotary block, a glue sealing slide frame, a glue sealing hinge rod, a glue sealing slide sleeve, a glue sealing sucker, a first glue spraying head, a glue spraying rotary plate, a connecting seat rotary block, a glue sealing guide rail, a glue sealing slide plate and a second glue spraying head; the sealing rubber cam is rotationally connected with the clamping rotating shaft, the sealing rubber sliding seat is fixedly connected to one side of the clamping rotating disc, the sealing rubber roller is rotationally connected with one end of the sealing rubber supporting plate, the sealing rubber supporting plate is slidably connected with the sealing rubber sliding seat, the sealing rubber roller is abutted against the side edge of the sealing rubber cam, the two ends of the sealing rubber spring are connected with the sealing rubber supporting plate and the sealing rubber sliding seat, the sealing rubber hinging block is hinged with one end of the sealing rubber supporting plate arranged at the top, the sealing rubber sliding seat is rotationally connected with the sealing rubber hinging block through the sealing rubber rotating block, the sealing rubber hinging rods are symmetrically arranged at the two sides of the sealing rubber sliding seat, the first glue spraying head is arranged at the bottom of the sealing rubber hinging rod, the sealing rubber sliding sleeve is slidably connected with the bottom of the sealing rubber sliding sleeve, the sealing rubber sucking disc is movably connected with one end of the sealing rubber supporting plate arranged at the bottom, the sealing rubber guiding rail is rotationally connected with the sealing rubber rotating plate through the connecting seat rotating block, the sealing rubber sliding plate is symmetrically arranged at the two ends of the guiding rail, the sealing rubber sliding plate is slidably connected with the sealing rubber guiding rail, and the second glue spraying head is arranged on the sealing rubber sliding plate.

Further, screw fastening portion includes screw lift seat, screw lifter, screw even board, screw commentaries on classics piece, screw commentaries on classics board, screw slider and fastening commentaries on classics piece, screw lifter and screw lift seat sliding connection, the top of screw lifter is arranged in to screw even board, the screw changes the board and rotates with the screw even board through the screw and be connected, screw slider changes board bottom sliding connection with the screw, the screw slider bottom is arranged in to the fastening commentaries on classics piece.

Further, pay-off portion includes that the pay-off post, pay-off erect and say, pay-off circuit, pay-off slider, pay-off commentaries on classics piece, vacuum ring, vacuum slider and vacuum cover plate, vacuum portion includes that vacuum storehouse, vacuum ware and vacuum are even managed, the pay-off erects to say and arranges the pay-off post lateral wall in, the middle part of pay-off post is arranged in to the pay-off circuit, pay-off slider and pay-off circuit sliding connection, the pay-off changes the piece and is connected with the rotation of pay-off slider, the pay-off changes the piece and is connected with first equipment portion and second equipment portion, the bottom of pay-off post is arranged in to the vacuum ring, vacuum slider and vacuum ring sliding connection, the vacuum cover plate rigid coupling is in vacuum slider one side, the vacuum storehouse is connected with the vacuum ware through vacuum even pipe.

The invention also provides a method for producing the anti-fog sealed lens module structure, which comprises the following steps:

s1, fixing a lens mount on a clamping turntable through a clamping frame, moving a first assembling part and a second assembling part downwards until an assembling rotating shaft is matched and connected with a matching connecting shaft, and driving the lens mount fixed on the clamping frame to be aligned with a ring material lowering assembly and a block material lowering assembly by the rotation of the clamping turntable and the matching connecting shaft;

s2, the connecting shaft and the assembling rotating shaft are matched to synchronously rotate to drive the assembling gear ring to rotate, the stopping abutting plate abuts against one end of the stopping rotating plate and pushes the stopping rotating plate to rotate around the stopping connecting shaft, one end, clamped in the clamping groove, of the stopping rotating plate is separated from the stopping sliding rod, the assembling gear moves downwards to be meshed with the assembling gear ring, the assembling gear drives the single-bin rotating block and the unloading turntable to rotate, and the unloading spiral ring conveys a diaphragm in the single-bin turntable to the middle of the lump material lowering assembly and abuts against the top of the lump material supporting plate;

s3, the clamping lifting cylinder pushes the clamping lifting rod and the clamping turntable to move upwards; the top of the lens seat is abutted against the block aligning ring and pushes the block aligning ring to move upwards, the block inclined rod slides upwards along with the block aligning ring and drives the block sliding plate to move in the direction away from the axis of the block slideway, the block supporting plate is opened, the diaphragm is installed in the middle of the lens seat, the clamping lifting cylinder drives the lens seat to move downwards, and the clamping turntable is sequentially provided with the ground glass and the first spacing ring in the same way after rotating;

s4, when the lens base rotates to the bottom of the ring material lowering assembly, the clamping lifting cylinder drives the lens base to move upwards, the ring material aligning cylinder extends into the lens base and abuts against the top of the first spacer ring, the ring material aligning cylinder continues to move upwards under the action of thrust, the wedge block moves towards the axial direction of the ring material connecting rod under the action of force, and the O-shaped sealing ring arranged at the top of the wedge block falls to the outer side of the first spacer ring;

s5, installing the lens barrel and the spectrometer below the mode of S3, moving the fastening rotating block to fasten the lens barrel and the lens base by screws, and fastening the spectrometer and the lens barrel by screws;

s6, the feeding slide block drives the first assembly portion and the second assembly portion to move upwards, the first assembly portion and the second assembly portion are driven by the feeding rotary block to descend to a processing position after being turned for 180 degrees, the glue sealing cam pushes the glue sealing roller to move, a glue sealing support plate arranged on the top of the clamping rotary disc extends out along the glue sealing slide seat to push the lens seat to turn over, the glue sealing support plate arranged on the bottom of the clamping rotary disc pulls the bottom of the lens seat, and the lens seat is assisted to turn for 180 degrees;

s7, sequentially installing a second space ring, a first lens, a third space ring, a second lens, a fourth space ring and a third lens in the lens seat in the steps of S1-S3, driving a glue sealing part to paint epoxy glue on the top and the bottom of the lens, driving a clamping lifting cylinder to drive a clamping rotary table to move downwards into a vacuum chamber, sliding a vacuum sliding block along a vacuum ring to move a vacuum cover plate to the top of the vacuum chamber to seal the vacuum chamber, driving a vacuum device to slowly vacuumize the vacuum chamber, and closing the vacuum device when the pressure reaches-0.7 Kpa to ensure that the pressure in the vacuum chamber is constant and inconvenient, and taking out the lens after the epoxy glue is solidified.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. according to the invention, the switching of different stations is carried out by adopting a fixed station rotation mode, and all processes are completed by one-time clamping, so that the positioning error and the clamping time consumption caused by multiple times of clamping are avoided, and the processing quality and the processing efficiency of the equipment are improved;

2. the invention can realize automatic turnover double-sided assembly without manual auxiliary turnover, provides a good processing environment for processing the lens, improves the yield of the equipment and the service life of the lens, and saves labor cost and time consumption.

3. In the use process of the lens processed by the invention, as the interior of the lens has no air, the interior of the optical module can not be fogged when the temperature of the external environment changes; the whole optical module is in a sealed state, when the humidity of the external environment changes, moisture cannot enter the inside and the spectrometer, the measurement result cannot be influenced or the spectrometer cannot be damaged, and the finished product rate and the product quality of lens anti-fog processing are improved;

4. the invention completes a plurality of processing steps such as clamping, thread fastening, gluing, vacuum treatment and the like at the fixed station, thereby reducing the product damage during multiple moving and carrying.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof.

Drawings

The drawings of the invention are illustrated below.

Fig. 1 is a schematic structural view of a production apparatus for an antifogging sealed lens module structure according to the present invention;

FIG. 2 is a schematic structural diagram of a first assembly portion of a manufacturing apparatus for an anti-fogging lens module structure according to the present invention;

FIG. 3 is a partial enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural view of a ring material lowering assembly in a manufacturing apparatus of an anti-fogging lens module structure according to the present invention;

FIG. 5 is a schematic diagram of an internal structure of a first assembly portion of a manufacturing apparatus for an anti-fogging lens module structure according to the present invention;

FIG. 6 is a schematic structural view of a dual-bin storage assembly in a manufacturing apparatus for an anti-fogging sealed lens module structure according to the present invention;

FIG. 7 is a partial enlarged view of portion B of FIG. 6;

FIG. 8 is a schematic structural view of a dual-bin storage assembly in a manufacturing apparatus for an anti-fogging sealed lens module structure according to the present invention;

fig. 9 is a schematic view of an internal structure of a magazine storage assembly in a manufacturing apparatus of a sealed lens module structure for preventing fogging according to the present invention;

FIG. 10 is a schematic structural view (view angle I) of a clamping portion of a manufacturing apparatus for an anti-fogging lens module structure according to the present invention;

FIG. 11 is a schematic structural view (view angle two) of a clamping portion of a manufacturing apparatus for an anti-fogging lens module structure according to the present invention;

fig. 12 is a schematic structural diagram (structure one) of a sealant part in a production apparatus of an antifogging sealed lens module structure according to the present invention;

fig. 13 is a schematic structural view (structure two) of a sealant part in a production apparatus for an anti-fogging sealed lens module structure according to the present invention;

in the figure:

a feeding section 1; a feed column 101; a feeding shaft 102; a feeding loop 103; a feeding slide block 104; a feeding rotary block 105; a vacuum ring 106; a vacuum slider 107; a vacuum cover plate 108;

a first assembly section 2; a ring lowering assembly 201; a block lowering assembly 202; a first assembly housing assembly 203; a single-bin stocker assembly 204; a dual-bin magazine assembly 205; assembling the drive assembly 206; a block slide 207; block rebound barrel 208; block rebound rod 209; block slide 210; block diagonal rod 211; a block support plate 212; block alignment ring 213; a ring link 214; the loop material abuts against the barrel 215; a wedge groove 216; a wedge block 217; a ring spring 218; a ring material alignment barrel 219; a single bin rotary block 220; a single bin carousel 221; a single-bin rotary plate 222; a single bin closing rod 223; a single bin butt plate 224; a single bin combining cylinder 225; a discharge turntable 226; a discharge screw ring 227; a storage hopper 228; a single-bin pull block 229; a stop slider 230; a stopper slide bar 231; a stopper link shaft 232; a stopper rotating plate 233; an assembly gear 234; a stopper backup plate 235; assembling gear ring 236; assembling the rotating shaft 237; a ring gear link 238; a double-bin housing 239; a pushing fixture block 240; a pusher link 241; a pusher block 242; a pusher hinge 243; a pusher arm 244; a pusher carousel 245; a double bin rack 246; a double-bin spring 247; a first assembly housing 248; a bin rack 249; assembling the fastening block 250; assembling the fastening spring 251;

a second assembly portion 3; a second assembly housing assembly 301; a second assembly blanking assembly 302; a second assembly drive assembly 303;

a clamping part 4; a grip turntable 401; a clamping spindle 402; a mating coupling shaft 403; a clamping lifter 404; a gripping lifting cylinder 405; a clamping flipping base 406; a clamping roll-over shaft 407; a holder 408;

a vacuum unit (5); a vacuum bin 501; a vacuum 502; a vacuum connecting pipe 503;

a screw fastening portion 6; a screw lifting seat 601; a screw lifting rod 602; a screw connecting plate 603; a screw rotating block 604; a screw rotary plate 605; a screw slide 606; a fastening rotating block 607;

a sealant part 7; a glue sealing cam 701; a glue sealing roller 702; a glue-sealing slide carriage 703; a sealing rubber spring 704; a glue sealing support plate 705; a sealing glue hinge block 706; a sealing glue rotating block 707; a sealant carriage 708; a glue sealing hinge rod 709; a sealant sliding sleeve 710; a sealant suction cup 711; a first glue-spraying head 712; a glue spraying rotating plate 713; an adapter block 714; a sealant guide 715; a sealant slide 716; and a second glue jet 717.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the drawings.

In the description of the embodiments of the present invention, it should be noted that the terms "central", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but 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 thus, should not be construed as limiting the embodiments of the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the embodiments of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. Specific meanings of the above terms in the embodiments of the present invention can be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1, 2 and 5-7, the present invention provides a production apparatus for an antifogging sealed lens module structure, comprising a feeding portion 1, a first assembling portion 2, a second assembling portion 3, a clamping portion 4, a vacuum portion 5, a screw fastening portion 6 and a sealing portion 7, wherein the first assembling portion 2 and the second assembling portion 3 are slidably connected with the feeding portion 1, the clamping portion 4 is disposed at the bottom of the first assembling portion 2, the screw fastening portion 6 is rotatably connected with the top of the clamping portion 4, the sealing portion 7 is symmetrically slidably mounted at the top and the bottom of the clamping portion 4, and the vacuum portion 5 is disposed at the bottom of the clamping portion 4;

the first assembling part 2 comprises a ring material lowering component 201, a lump material lowering component 202, a first assembling shell component 203, a single-bin storage component 204, a double-bin storage component 205 and an assembling driving component 206, wherein the ring material lowering component 201 and the lump material lowering component 202 are annularly and uniformly distributed at the bottom of the first assembling shell component 203, the single-bin storage component 204 and the double-bin storage component are annularly and uniformly distributed in the first assembling shell component 203, and the assembling driving component 206 is in transmission connection with the single-bin storage component 204 and the double-bin storage component 205;

the assembly driving assembly 206 comprises a stop sliding seat 230, a stop sliding rod 231, a stop connecting shaft 232, a stop rotating plate 233, an assembly gear 234, a stop abutting plate 235, an assembly gear ring 236, an assembly rotating shaft 237 and a gear ring connecting frame 238, wherein the bottom of the stop sliding shaft 231 is coaxially and fixedly connected with the top of the assembly gear 234, the top of the stop sliding rod 231 is slidably connected with the stop sliding seat 230, one end of the stop sliding seat is fixedly connected with the top of the first assembly shell assembly 203, a stop spring abuts against the stop sliding rod 231 is arranged in the stop sliding seat 230, the stop rotating plate 233 is connected with the top of the stop sliding seat 230 through the stop connecting shaft 232, the stop rotating plate 233 is rotatably connected with the stop connecting shaft 232, a clamping groove is formed in the middle of the stop sliding rod 231, one end of the stop rotating plate 233 is clamped in the clamping groove, the stop abutting plate 235 is fixedly connected with the top of the assembly gear ring 236, the assembly rotating shaft 237 is fixedly connected with the assembly gear ring 236 through the gear ring connecting frame 238, the stop rotating plate 235 abuts against one end of the stop rotating plate 233 and pushes the stop rotating plate 233 to rotate around the stop connecting shaft 232, one end of the stop rotating plate 233 which is clamped in the clamping groove is separated from the stop sliding seat 231, and the assembly gear ring 236 is meshed with the assembly gear ring 236.

In the embodiment, the device comprises a feeding part 1, a first assembling part 2, a second assembling part 3, a clamping part 4, a vacuum part 5, a screw fastening part 6 and a sealing part 7, wherein the same number of different parts for assembling the clamping part 4 are arranged in the first assembling part 2 and the second assembling part 3, feeding is carried out through the feeding part 1, after all parts in the clamping part 4 are assembled, the first assembling part 2 and the second assembling part 3 move out of a working area through the feeding part 1 to supplement parts, the first assembling part 2 and the second assembling part 3 provided with new parts are placed to a station to continue working, the screw fastening part 6 carries out bolt fastening on the installed parts, after epoxy glue is coated on the top and the bottom of a lens by the sealing part 7, the lens is placed into the vacuum part 5 to carry out constant-pressure vacuum pumping treatment, the device needs to assemble a lens, a spacing ring, a light bar, ground glass, a lens barrel, a spectrometer and a sealing ring into a lens seat, and then air in the module is pumped out to form a state close to vacuum; in the use process, no air exists in the optical module, so that the interior of the optical module cannot be fogged when the temperature of the external environment changes; the whole optical module is in a sealed state, when the humidity of the external environment changes, moisture cannot enter the inside and the spectrometer, the measurement result cannot be influenced or the spectrometer cannot be damaged, and the finished product rate and the product quality of lens anti-fog processing are improved;

during assembly, the lens mount is placed on the clamping portion 5 at the same time, six-station simultaneous machining of the clamping portion 5 is achieved at one time, the assembly gear ring 236 is driven to rotate, the stop resisting plate 235 abuts against one end of the stop rotating plate 233 and pushes the stop rotating plate 233 to rotate around the stop connecting shaft 232, one end, clamped in the clamping groove, of the stop rotating plate 233 is separated from the stop sliding rod 231, the assembly gear 234 moves downwards to be meshed with the assembly gear ring 236, the assembly gear 234 drives the single-bin rotating block 220 and the discharging turntable 226 to rotate, the discharging spiral ring 227 conveys a diaphragm in the single-bin turntable 221 to the middle of the lump material lowering assembly 202 and abuts against the top of the lump material supporting plate 212, the stop resisting plate 235 serves as a switch for batch discharging of six discharging structures, the discharging spiral rings 227 are arranged on the single-bin storage assembly 204 and the double-bin storage assembly 205, batch discharging is achieved, and operability of the device is improved.

As shown in fig. 5-9, the single-bin storage assembly 204 includes a single-bin rotary block 220, a single-bin rotary disc 221, a single-bin rotary plate 222, a single-bin engaging rod 223, a single-bin abutting plate 224, a single-bin engaging cylinder 225, a discharge rotary disc 226, a discharge spiral ring 227, a single storage bin 228 and a single-bin pull block 229, the single-bin rotary block 220 is disposed at the bottom of an assembly gear 234, the single-bin rotary disc 221 is coaxially connected with the bottom of the single-bin rotary block 220, the single-bin engaging rod 223 is disposed at the bottom of the single-bin rotary disc 221, the single-bin rotary plate 222 is symmetrically disposed at two sides of the single-bin engaging rod 223, the top of the discharge rotary disc 226 is fixedly connected with the single-bin engaging cylinder 225 and the single-bin engaging rod 223, the single-bin abutting plate 224 is fixedly connected to one side of the single-bin engaging cylinder 225, the single-bin abutting plate 224 abuts against one side of the single-bin rotary plate 222, the discharge spiral ring 227 is fixedly connected to the bottom of the discharge rotary disc 226, the discharge spiral ring 227 is disposed inside the single storage bin 228, and the single storage bin pull block 229 is symmetrically disposed at two sides of the single storage bin 228;

the double-bin storage assembly 205 comprises a double-bin shell 239, a material pushing fixture block 240, a material pushing connecting rod 241, a material pushing slide block 242, a material pushing hinge rod 243, a material pushing rotating rod 244, a material pushing rotating disc 245, two double-bin supports 246, double-bin springs 247 and a material pushing slide 248, wherein the two double-bin supports 246 are symmetrically arranged in the middle of the double-bin shell 239, the double-bin springs 247 are arranged at the bottom of one double-bin support 246, the top of the material pushing rotating disc 245 is rotatably connected with an assembling gear 234, the material pushing rotating disc 245 is arranged at the top of the double-bin support 246 far away from the double-bin springs 247, a discharging spiral ring 227 is arranged at the bottom of the material pushing rotating disc 245, the top of the material pushing rotating disc 245 is rotatably connected with the material pushing rotating rod 244, two ends of the material pushing hinge rod 243 are respectively hinged with the material pushing rotating rod 244 and the material pushing slide block 242, the material pushing slide block 242 is slidably connected with the top of the double-bin shell 239, the material pushing fixture block 240 is connected with the material pushing fixture block 241, the material pushing slide 248 is arranged in the middle of the two double-bin supports 246, and two ends of the material pushing slide 248 are fixedly connected with the two double-bin supports 246.

As shown in fig. 2-5, the ring material lowering assembly 201 includes a ring material connecting rod 214, a ring material abutting barrel 215, wedge-shaped block grooves 216, wedge-shaped blocks 217, a ring material spring 218 and a ring material aligning barrel 219, the ring material connecting rod 214 is disposed in the middle of the storage single bin 228, the wedge-shaped block grooves 216 are uniformly and annularly disposed on the outer wall of the ring material connecting rod 214, the wedge-shaped blocks 217 are connected with the wedge-shaped block grooves 216 through the ring material spring 218, the ring material abutting barrel 215 is fixedly connected to the bottom of the first assembly housing assembly 203, and the ring material aligning barrel 219 is slidably connected with the wedge-shaped blocks 217;

block lowering assembly 202 includes block slide 207, block resilient tube 208, block resilient rod 209, block slide 210, block diagonal 211, block support plate 212, and block alignment ring 213, block slide 207 is fixedly connected to the bottom of first assembly housing assembly 203, block resilient tube 208 is fixedly connected to one side of block slide 207, block resilient rod 209 is slidably connected to block resilient tube 208, block resilient rod 209 is fixedly connected to block alignment ring 213, block diagonal 211 is fixedly connected to block alignment ring 213, the middle of block slide 210 is slidably connected to block diagonal 211, block slide 210 is fixedly connected to one side of block support plate 212, and block support plate 212 is slidably connected to the middle of block slide 207.

The first assembling shell assembly 203 comprises a first assembling shell 248, a plurality of bin frames 249, assembling fastening blocks 250 and assembling fastening springs 251, the bin frames 249 are annularly and uniformly distributed in the middle of the first assembling shell 248, the storage single bins 228 are detachably mounted in the middle of the bin frames 249, the assembling fastening blocks 250 abut against the bottoms of the storage single bins 228, the assembling fastening blocks 250 are connected with the first assembling shell 248 through the assembling fastening springs 251, and the assembling fastening blocks 250 are slidably connected with the first assembling shell assembly 203.

In this embodiment, the top of the lens mount abuts against the block alignment ring 213 and pushes the block alignment ring 213 to move upward, the block diagonal rod 211 slides upward along with the block alignment ring 213 and drives the block sliding plate 210 to move in the direction away from the axis of the block sliding way 207, the block support plate 212 is opened, the ring alignment barrel 219 extends into the lens mount and abuts against the top of the first spacer, the ring alignment barrel 219 continues to move upward under the thrust, the wedge 217 is forced to move in the direction of the axis of the ring connecting rod 214, the O-shaped sealing ring disposed on the top of the wedge 217 falls to the outside of the first spacer, and the storage single bin 228 is a detachable structure, so as to facilitate supplement of parts.

As shown in fig. 1, the second assembling portion 3 includes a second assembling housing component 301, a second assembling blanking component 302, a second assembling driving component 303 and a second assembling magazine component, the second assembling blanking component 302 is disposed on the top of the second assembling housing 301, the second assembling driving component 303 and the second assembling magazine component are disposed in the middle of the second assembling housing component 301, the second assembling housing component 301 is the first assembling housing component 248, the second assembling driving component 303 is the assembling driving component 206, and the second assembling magazine component is the block material lowering component 202.

As shown in fig. 10, the clamping portion 4 includes a clamping turntable 401, a clamping rotation shaft 402, a matching connecting shaft 403, a clamping lifting rod 404, a clamping lifting cylinder 405, a clamping flipping base 406, a clamping turning shaft 407, and a clamping frame 408, wherein the bottom of the clamping lifting rod 404 is slidably connected to the clamping lifting cylinder 405, the clamping turntable 401 is rotatably connected to the top of the clamping lifting rod 404, the clamping rotation shaft 402 is disposed in the middle of the clamping turntable 401, the matching connecting shaft 403 is rotatably connected to the clamping turntable 401, the matching connecting shaft 403 is drivingly connected to the assembly driving component 206, the clamping turning bases 406 are annularly and uniformly disposed on the top of the clamping turntable 401, the clamping turning shaft 407 is rotatably connected to the clamping flipping base 406, and the clamping frame 408 is slidably connected to the clamping turning shaft 407.

In this embodiment, the lens holder is fixed on the clamping turntable 401 through the clamping frame 408, the first assembling portion and the second assembling portion are moved downward until the assembling rotating shaft 237 and the matching connecting shaft 403 are matched and connected, and the clamping turntable 401 and the matching connecting shaft 403 rotate to drive the lens holder fixed on the clamping frame 408 to align with the ring material lowering assembly 201 and the block material lowering assembly 202;

as shown in fig. 10-13, the sealing compound portion includes a sealing compound cam 701, a sealing compound roller 702, a sealing compound slide carriage 703, a sealing compound spring 704, a sealing compound support plate 705, a sealing compound hinge block 706, a sealing compound rotary block 707, a sealing compound slide carriage 708, a sealing compound hinge rod 709, a sealing compound slide sleeve 710, a sealing compound suction cup 711, a first glue spraying head 712, a glue spraying rotary plate 713, an adapter rotary block 714, a sealing compound guide rail 715, a sealing compound sliding plate 716 and a second glue spraying head 717; the sealing cam 701 is rotatably connected with the clamping rotating shaft 402, the sealing slide carriage 703 is fixedly connected on one side of the clamping rotating disc 401, the sealing roller 702 is rotatably connected with one end of the sealing support plate 705, the sealing support plate 705 is slidably connected with the sealing slide carriage 703, the sealing roller 702 abuts against the side edge of the sealing cam 701, two ends of the sealing spring 704 are connected with the sealing support plate 705 and the sealing slide carriage 703, the sealing hinge block 706 is hinged with one end of the sealing support plate 705 arranged on the top, the sealing slide carriage 708 is rotatably connected with the sealing hinge block 706 through the sealing rotary block 707, the sealing hinge rods 709 are symmetrically arranged on two sides of the sealing slide carriage 708, the first glue-spraying heads 712 are arranged at the bottom of the sealing hinge rods 709, the sealing slide sleeve 710 is slidably connected with the bottom of the sealing slide carriage 708, the sealing suction cups 711 are movably connected with the bottom rotary of the slide sleeve 710, the sealing slide plate 713 is hinged with one end of the sealing support plate 705 arranged at the bottom, the sealing guide rail 715 is rotatably connected with the sealing slide plate 716 through the connecting seat rotary block 714 and the sealing slide plate 716, the sealing slide plate is symmetrically arranged at two ends of the sealing slide 715, and the second glue-spraying slide 717 is arranged on the sealing slide plate 716.

The screw fastening part comprises a screw lifting seat 601, a screw lifting rod 602, a screw connecting plate 603, a screw rotating block 604, a screw rotating plate 605, a screw sliding block 606 and a fastening rotating block 607, the screw lifting rod 602 is connected with the screw lifting seat 601 in a sliding mode, the screw connecting plate 603 is arranged at the top of the screw lifting rod 602, the screw rotating plate 605 is connected with the screw connecting plate 603 in a rotating mode through the screw rotating block 604, the screw sliding block 606 is connected with the bottom of the screw rotating plate 605 in a sliding mode, and the fastening rotating block 607 is arranged at the bottom of the screw sliding block 606.

In this embodiment, the molding cam 701 pushes the molding roller 702 to move, the molding support plate 705 disposed on the top of the clamping turntable 401 extends along the molding slide 703 to push the lens holder to turn over, and the molding support plate 705 disposed on the bottom of the clamping turntable 401 pulls the bottom of the lens holder to assist the lens holder to turn over by 180 degrees; the movable fastening rotating block 607 fastens the lens barrel and the lens mount with screws, and fastens the spectrometer and the lens barrel with screws.

As shown in fig. 1, the feeding portion includes a feeding column 101, a feeding vertical channel 102, a feeding loop channel 103, a feeding slider 104, a feeding rotary block 105, a vacuum ring 106, a vacuum slider 107 and a vacuum cover plate 108, the vacuum portion includes a vacuum chamber 501, a vacuum 502 and a vacuum connecting pipe 503, the feeding vertical channel 102 is disposed on the side wall of the feeding column 101, the feeding loop channel 103 is disposed in the middle of the feeding column 101, the feeding slider 104 is slidably connected with the feeding loop channel 103, the feeding rotary block 105 is rotatably connected with the feeding slider 104, the feeding rotary block 105 is connected with the first assembling portion and the second assembling portion, the vacuum ring 106 is disposed at the bottom of the feeding column 101, the vacuum slider 107 is slidably connected with the vacuum ring 106, the vacuum cover plate 108 is fixedly connected to one side of the vacuum slider 107, and the vacuum chamber 501 is connected with the vacuum 502 through the vacuum connecting pipe 503.

In this embodiment, the clamping elevating cylinder 405 drives the clamping turntable 401 to move down into the vacuum chamber 501, the vacuum slider 107 slides along the vacuum ring 106 to move the vacuum cover plate 108 to the top of the vacuum chamber 501 to seal the vacuum chamber 501, the vacuum 502 is driven to slowly evacuate the vacuum chamber 501, when the pressure reaches-0.7 Kpa, the vacuum 502 is closed, so that the pressure in the vacuum chamber 501 is constant and inconvenient, and the epoxy glue is taken out after being solidified.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (10)

1. The utility model provides a production facility that is used for antifog sealed lens module structure which characterized in that: the automatic feeding device comprises a feeding part (1), a first assembling part (2), a second assembling part (3), a clamping part (4), a vacuum part (5), a screw fastening part (6) and a glue sealing part (7), wherein the first assembling part (2) and the second assembling part (3) are in sliding connection with the feeding part (1), the clamping part (4) is arranged at the bottom of the first assembling part (2), the screw fastening part (6) is in rotating connection with the top of the clamping part (4), the glue sealing part (7) is symmetrically and slidably arranged at the top and the bottom of the clamping part (4), and the vacuum part (5) is arranged at the bottom of the clamping part (4);

the first assembling part (2) comprises a ring material lowering component (201), a lump material lowering component (202), a first assembling shell component (203), a single-bin storage component (204), a double-bin storage component (205) and an assembling driving component (206), wherein the ring material lowering component (201) and the lump material lowering component (202) are annularly and uniformly distributed at the bottom of the first assembling shell component (203), the single-bin storage component (204) and the double-bin storage component are annularly and uniformly distributed in the first assembling shell component (203), and the assembling driving component (206) is in transmission connection with the single-bin storage component (204) and the double-bin storage component (205);

the assembly driving assembly (206) comprises a stopping sliding seat (230), a stopping sliding rod (231), a stopping connecting shaft (232), a stopping rotating plate (233), an assembly gear (234), a stopping abutting plate (235), an assembly gear ring (236), an assembly rotating shaft (237) and a gear ring connecting frame (238), the bottom of the stopping sliding shaft (231) is coaxially and fixedly connected with the top of the assembly gear (234), the top of the stopping sliding rod (231) is slidably connected with the stopping sliding seat (230), one end of the stopping sliding seat is fixedly connected with the top of the first assembly shell assembly (203), a stopping spring is arranged in the stopping sliding seat (230) and abuts against the stopping sliding rod (231), the stopping rotating plate (233) is connected with the top of the stopping sliding seat (230) through the stopping connecting shaft (232), the stopping rotating plate (233) is rotatably connected with the stopping connecting shaft (232), a clamping groove is formed in the middle of the stopping sliding rod (231), one end of the stopping rotating plate (233) is clamped in the clamping groove, the stopping abutting plate (235) is fixedly connected with the top of the assembly gear ring (236), the assembling rotating shaft (237) and one end of the stopping rotating plate (233) abuts against the stopping rotating plate (233) and pushes the stopping rotating plate (233) to be separated from the stopping rotating plate (233) in the assembly gear ring (236) through the stopping connecting frame (238), the assembly gear (234) moves down to mesh with an assembly gear ring (236).

2. The manufacturing apparatus of a sealed lens module structure for preventing fogging according to claim 1, wherein: the single-bin storage component (204) comprises a single-bin rotating block (220), a single-bin rotary disc (221), a single-bin rotating plate (222), a single-bin combination rod (223), a single-bin abutting plate (224), a single-bin combination cylinder (225), a discharge rotary disc (226), a discharge spiral ring (227), a storage single bin (228) and a single-bin pull block (229), wherein the single-bin rotating block (220) is arranged at the bottom of an assembly gear (234), the single-bin rotary disc (221) is coaxially connected with the bottom of the single-bin rotating block (220), the single-bin combination rod (223) is arranged at the bottom of the single-bin rotary disc (221), the single-bin rotating plate (222) is symmetrically arranged at two sides of the single-bin combination rod (223), the top of the discharge rotary disc (226) is fixedly connected with the single-bin combination cylinder (225) and clamped with the single-bin combination rod (223), the single-bin abutting plate (224) is fixedly connected at one side of the single-bin combination cylinder (225), the single-bin abutting plate (224) abuts against one side of the single-bin rotating plate (222), the discharge rotary disc (227) is fixedly connected at the bottom of the single-bin rotary disc (227), and the discharge ring (227) is symmetrically arranged at two sides of the single-bin pull block (229);

the double-bin storage assembly (205) comprises a double-bin shell (239), a material pushing fixture block (240), a material pushing connecting rod (241), a material pushing slider (242), a material pushing hinge rod (243), a material pushing rotating rod (244), a material pushing rotating disc (245), two double-bin supports (246), two double-bin springs (247) and material pushing slideways, wherein the two double-bin supports (246) are symmetrically arranged in the middle of the double-bin shell (239), the double-bin springs (247) are arranged at the bottom of one of the double-bin supports (246), the top of the material pushing rotating disc (245) is rotationally connected with an assembling gear (234), the material pushing rotating disc (245) is arranged at the top of the double-bin support (246) far away from the double-bin springs (247), a discharging spiral ring (227) is arranged at the bottom of the material pushing rotating disc (245), the top of the material pushing rotating disc (245) is rotationally connected with the rotating rod (244), the two ends of the material pushing hinge rod (243) are respectively hinged to the material pushing rotating rod (244) and the material pushing slider (242), the material pushing slider (242) is slidably connected with the top of the double-bin shell (239), the material pushing slider (240) and the two ends of the two material pushing hinge rod (246) are fixedly connected with the two material pushing brackets (246).

3. The manufacturing equipment of the sealed lens module structure for preventing fog according to claim 2, characterized in that: the ring material lowering assembly (201) comprises a ring material connecting rod (214), a ring material abutting barrel (215), a wedge block groove (216), a wedge block (217), a ring material spring (218) and a ring material aligning barrel (219), wherein the ring material connecting rod (214) is arranged in the middle of the single material storage bin (228), the wedge block grooves (216) are annularly and uniformly arranged on the outer wall of the ring material connecting rod (214), the wedge block (217) is connected with the wedge block groove (216) through the ring material spring (218), the ring material abutting barrel (215) is fixedly connected to the bottom of the first assembly shell assembly (203), and the ring material aligning barrel (219) is in sliding connection with the wedge block (217);

the block lowering assembly (202) comprises a block slideway (207), a block rebound barrel (208), a block rebound rod (209), a block sliding plate (210), a block diagonal rod (211), a block support plate (212) and a block aligning ring (213), wherein the block slideway (207) is fixedly connected to the bottom of the first assembly shell assembly (203), the block rebound barrel (208) is fixedly connected to one side of the block slideway (207), the block rebound rod (209) is slidably connected with the block rebound barrel (208), the block rebound rod (209) is fixedly connected with the block aligning ring (213), the block diagonal rod (211) is fixedly connected with the block aligning ring (213), the middle of the block sliding plate (210) is slidably connected with the diagonal rod (211), the block sliding plate (210) is fixedly connected to one side of the block support plate (212), and the support plate (212) is slidably connected with the middle of the block slideway (207).

4. A production apparatus for an antifogging sealed lens module structure according to claim 3, characterized in that: first equipment casing subassembly (203) is including first equipment casing (248), a plurality of storehouse frame (249), equipment fastening block (250) and equipment fastening spring (251), and is a plurality of the middle part of first equipment casing (248) is arranged in to storehouse frame (249) annular equipartition, and is a plurality of storage single storehouse (228) demountable installation is in storehouse frame (249) middle part, equipment fastening block (250) support and lean on the bottom in storage single storehouse (228), equipment fastening block (250) are connected with first equipment casing (248) through equipment fastening spring (251), equipment fastening block (250) and first equipment casing subassembly (203) sliding connection.

5. The manufacturing apparatus of the sealed lens module structure for preventing fog according to claim 4, wherein: second equipment portion (3) include second equipment casing subassembly (301), second equipment unloading subassembly (302), second equipment drive assembly (303) and second equipment storage assembly, the top of second equipment casing (301) is arranged in second equipment unloading subassembly (302), second equipment drive assembly (303) and second equipment storage assembly arrange second equipment casing subassembly (301) middle part in, second equipment casing subassembly (301) is first equipment casing subassembly (248), second equipment drive assembly (303) are equipment drive assembly (206), subassembly (202) subassembly is transferred for the lump material to second equipment storage assembly.

6. The manufacturing equipment of the sealed lens module structure for preventing fog according to claim 5, characterized in that: clamping part (4) are including centre gripping carousel (401), centre gripping pivot (402), cooperation even axle (403), centre gripping lifter (404), centre gripping lift section of thick bamboo (405), centre gripping upset seat (406), centre gripping trip shaft (407) and clamping frame (408), centre gripping lifter (404) bottom and centre gripping lift section of thick bamboo (405) sliding connection, centre gripping carousel (401) rotate with centre gripping lifter (404) top to be connected, the middle part of centre gripping carousel (401) is arranged in centre gripping pivot (402), cooperation even axle (403) rotate with centre gripping carousel (401) to be connected, cooperation even axle (403) are connected with equipment drive assembly (206) transmission, centre gripping carousel (401) top is arranged in to centre gripping trip seat (406) annular equipartition, centre gripping trip shaft (407) rotate with centre gripping trip seat (406) to be connected, clamping frame (408) and centre gripping trip shaft (407) sliding connection.

7. The manufacturing apparatus of the sealed lens module structure for preventing fog according to claim 6, wherein: the glue sealing part (7) comprises a glue sealing cam (701), a glue sealing roller (702), a glue sealing slide seat (703), a glue sealing spring (704), a glue sealing support plate (705), a glue sealing hinge block (706), a glue sealing rotary block (707), a glue sealing slide frame (708), a glue sealing hinge rod (709), a glue sealing slide sleeve (710), a glue sealing sucker (711), a first glue spraying head (712), a glue spraying rotary plate (713), a connecting seat rotary block (714), a glue sealing guide rail (715), a glue sealing slide plate (716) and a second glue spraying head (717); the sealing rubber cam (701) is rotationally connected with the clamping rotating shaft (402), the sealing rubber slide seat (703) is fixedly connected to one side of the clamping rotating disc (401), the sealing rubber roller (702) is rotationally connected with one end of the sealing rubber support plate (705), the sealing rubber support plate (705) is slidably connected with the sealing rubber slide seat (703), the sealing rubber roller (702) abuts against the side edge of the sealing rubber cam (701), the two ends of the sealing rubber spring (704) are connected with the sealing rubber support plate (705) and the sealing rubber slide seat (703), the sealing rubber hinge block (706) is hinged with one end of the sealing rubber support plate (705) arranged at the top, the sealing rubber slide seat (708) is rotationally connected with the sealing rubber hinge block (706) through a sealing rubber rotating block (707), the sealing rubber hinge rod (709) is symmetrically arranged at the two sides of the sealing rubber slide seat (708), the first glue spraying head (712) is arranged at the bottom of the sealing rubber hinge rod (709), the sealing rubber sliding sleeve (710) is slidably connected with the bottom of the sealing rubber slide seat (708), the sealing rubber slide seat (713) is connected with the sealing rubber slide seat (714) through a sealing rubber slide rail (713), the second glue spraying head (717) is installed on the sealing glue sliding plate (716).

8. The manufacturing equipment of the sealed lens module structure for preventing fog according to claim 7, characterized in that: the screw fastening part (6) comprises a screw lifting seat (601), a screw lifting rod (602), a screw connecting plate (603), a screw rotating block (604), a screw rotating plate (605), a screw sliding block (606) and a fastening rotating block (607), the screw lifting rod (602) is in sliding connection with the screw lifting seat (601), the screw connecting plate (603) is arranged at the top of the screw lifting rod (602), the screw rotating plate (605) is in rotating connection with the screw connecting plate (603) through the screw rotating block (604), the screw sliding block (606) is in sliding connection with the bottom of the screw rotating plate (605), and the fastening rotating block (607) is arranged at the bottom of the screw sliding block (606).

9. The manufacturing equipment of the sealed lens module structure for preventing fog according to claim 8, characterized in that: the feeding part (1) comprises a feeding column (101), a feeding vertical channel (102), a feeding loop channel (103), a feeding sliding block (104), a feeding rotating block (105), a vacuum ring (106), a vacuum sliding block (107) and a vacuum cover plate (108), the vacuum part (5) comprises a vacuum bin (501), a vacuum device (502) and a vacuum connecting pipe (503), the feeding vertical channel (102) is arranged on the side wall of the feeding column (101), the feeding loop channel (103) is arranged in the middle of the feeding column (101), the feeding sliding block (104) is in sliding connection with the feeding loop channel (103), the feeding rotating block (105) is in rotating connection with the feeding sliding block (104), the feeding rotating block (105) is connected with a first assembling part (2) and a second assembling part (3), the vacuum ring (106) is arranged at the bottom of the feeding column (101), the vacuum sliding block (107) is in sliding connection with the vacuum ring (106), the vacuum cover plate (108) is fixedly connected on one side of the vacuum sliding block (107), and the vacuum connecting pipe (501) is connected with the vacuum connecting pipe (502).

10. The method for manufacturing an antifogging sealed lens module structure according to claim 9, wherein:

s1, fixing a lens holder on a clamping turntable (401) through a clamping frame (408), moving a first assembling part (2) and a second assembling part (3) downwards until an assembling rotating shaft (237) is matched and connected with a matching connecting shaft (403), and driving the lens holder fixed on the clamping frame (408) to be aligned with a ring material lowering assembly (201) and a block material lowering assembly (202) through the rotation of the clamping turntable (401) and the matching connecting shaft (403);

s2, the connecting shaft (403) and the assembling rotating shaft (237) are matched to synchronously rotate to drive the assembling gear ring (236) to rotate, the stopping abutting plate (235) abuts against one end of the stopping rotating plate (233) and pushes the stopping rotating plate (233) to rotate around the stopping connecting shaft (232), one end, clamped in the clamping groove, of the stopping rotating plate (233) is separated from the stopping slide rod (231), the assembling gear (234) moves downwards to be meshed with the assembling gear ring (236), the assembling gear (234) drives the single-bin rotating block (220) and the unloading rotary disc (226) to rotate, and the unloading spiral ring (227) transmits a diaphragm in the single-bin rotary disc (221) to the middle of the block lowering component (202) and abuts against the top of the block supporting plate (212);

s3, the clamping lifting cylinder (405) pushes the clamping lifting rod (404) and the clamping turntable (401) to move upwards; the top of the lens base abuts against the block aligning ring (213) and pushes the block aligning ring (213) to move upwards, the block inclined rod (211) slides upwards along with the block aligning ring (213) and drives the block sliding plate (210) to move in the direction far away from the axis of the block sliding way (207), the block supporting plate (212) is opened, the diaphragm is installed in the middle of the lens base, the clamping lifting cylinder (405) drives the lens base to move downwards, and the clamping turntable (401) rotates and then sequentially installs the ground glass and the first spacing ring in the same way;

s4, when the lens mount rotates to the bottom of the ring material lowering assembly (201), the clamping lifting barrel (405) drives the lens mount to move upwards, the ring material aligning barrel (219) extends into the lens mount and abuts against the top of the first spacer ring, the ring material aligning barrel (219) continues to move upwards under the action of thrust, the wedge block (217) is stressed to move towards the axis direction of the ring material connecting rod (214), and the O-shaped sealing ring arranged at the top of the wedge block (217) falls to the outer side of the first spacer ring;

s5, installing the lens barrel and the spectrometer below the mode of S3, moving a fastening rotating block (607) to fasten the lens barrel and the lens seat by screws, and fastening the spectrometer and the lens barrel by screws;

s6, a feeding slide block (104) drives a first assembly part (2) and a second assembly part (3) to move upwards, a feeding rotary block (105) drives the first assembly part (2) and the second assembly part (3) to descend to a processing position after completing 180-degree turnover, a glue sealing cam (701) pushes a glue sealing roller (702) to move, a glue sealing support plate (705) arranged at the top of a clamping rotary disc (401) extends out along a glue sealing slide seat (703) to push a lens seat to turn over, the glue sealing support plate (705) arranged at the bottom of the clamping rotary disc (401) pulls the bottom of the lens seat to assist the lens seat to turn over for 180 degrees;

s7, sequentially installing a second space ring, a first lens, a third space ring, a second lens, a fourth space ring and a third lens in the lens seat in the steps of S1-S3, driving a glue sealing part (7) to paint epoxy glue on the top and the bottom of the lens, driving a clamping lifting cylinder (405) to drive a clamping turntable (401) to move downwards into a vacuum chamber (501), driving a vacuum slider (107) to slide along a vacuum ring (106) to move a vacuum cover plate (108) to the top of the vacuum chamber (501) to seal the vacuum chamber (501), driving a vacuum device (502) to slowly vacuumize the vacuum chamber (501), and closing the vacuum device (502) when the pressure reaches-0.7 Kpa to ensure that the pressure in the vacuum chamber (501) is constant and inconvenient, and taking out the lens after the epoxy glue is solidified.

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