CN109590291B - Optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion - Google Patents

Optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion Download PDF

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Publication number
CN109590291B
CN109590291B CN201811374561.2A CN201811374561A CN109590291B CN 109590291 B CN109590291 B CN 109590291B CN 201811374561 A CN201811374561 A CN 201811374561A CN 109590291 B CN109590291 B CN 109590291B
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lens
elastic
groove seat
ultrasonic cleaner
wall
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CN109590291A (en
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黄海燕
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Xiangyang Xinsheng Optoelectronic Technology Co.,Ltd.
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Zhejiang Smecta Intelligent Equipment Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B7/00Cleaning by methods not provided for in a single other subclass or a single group in this subclass
    • B08B7/02Cleaning by methods not provided for in a single other subclass or a single group in this subclass by distortion, beating, or vibration of the surface to be cleaned
    • B08B7/026Using sound waves
    • B08B7/028Using ultrasounds
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B13/00Accessories or details of general applicability for machines or apparatus for cleaning
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B3/00Cleaning by methods involving the use or presence of liquid or steam
    • B08B3/04Cleaning involving contact with liquid
    • B08B3/10Cleaning involving contact with liquid with additional treatment of the liquid or of the object being cleaned, e.g. by heat, by electricity or by vibration
    • B08B3/12Cleaning involving contact with liquid with additional treatment of the liquid or of the object being cleaned, e.g. by heat, by electricity or by vibration by sonic or ultrasonic vibrations

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Abstract

The invention discloses an optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion, which structurally comprises a control switch, a base, a lens placing box, an ultrasonic cleaner and a handle, wherein the bottom of an elastic film is connected with a small roller, so that the lower end of the elastic film can expand outwards in a manner of being matched with the extrusion of a lens, the lens is further prevented from directly falling into the bottom under the action of gravity acceleration, when the lens is static, a linkage block slides downwards for a certain distance, a movable chain and an auxiliary pulley rotate anticlockwise during the period, a pull rope between the auxiliary pulley and an elastic plate is in a loose state, the elastic plate is retracted into a restoring spring to be extruded and extend outwards, the top of the lens can be clamped, the lens is prevented from accidentally falling off, and meanwhile, the elastic deformation of the elastic film enables the lens to tend to.

Description

Optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion
Technical Field
The invention discloses an optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion, and belongs to the field of ultrasonic cleaning jigs.
Background
Optical lens is as the microscopic equipment of high accuracy, can not directly use the mode of water scrubbing when wasing, need use the clean tool of ultrasonic wave to clean optical lens and handle, generally puts the lens through receiving device, puts into inside the clean tool of ultrasonic wave again.
But the existing ultrasonic cleaning jig has the following disadvantages:
1. the bearing device is generally a multi-grid straight cylinder structure, when optical lenses are placed, the gaps between the lenses and the straight cylinder structure are not large, so that the lenses cannot enter together with fingers, the fingers are required to be released when the lenses are placed, the lenses can directly slide to the bottom, and the lenses can collide under the gravitational acceleration.
2. In order to take out the lens, a gap exists between the lens and the straight cylinder structure, when the lens is moved, the lens can continuously impact with the placing device, and meanwhile, if the lens is inclined carelessly, the lens can directly slide out, so that the lens is damaged.
Disclosure of Invention
The invention aims to provide an optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion, and aims to solve the problems that a bearing device is generally of a multi-grid straight cylinder structure, when an optical lens is placed, the gap between the lens and the straight cylinder structure is not large, the lens cannot enter with fingers, the fingers need to be released when the lens is placed, the lens can directly slide down to the bottom, the lens can be collided under the gravity acceleration, a gap exists between the lens and the straight cylinder structure, the lens can continuously collide with a placing device when being moved, and the lens can directly slide out and be damaged if being inclined carelessly.
In order to achieve the purpose, the invention is realized by the following technical scheme: an optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion structurally comprises a control switch, a base, a lens placing box, an ultrasonic cleaner and a handle, wherein the rear end of the control switch and the front end of the ultrasonic cleaner are of an integrated structure, the bottom of the ultrasonic cleaner is fixedly connected with the top of the base through screws, the inside of the control switch is electrically connected with the inside of the ultrasonic cleaner, the middle end of the ultrasonic cleaner is connected with the left end of the lens placing box through a clamping groove, the outer wall of the lens placing box is in clearance fit with the middle end of the ultrasonic cleaner, the bottom of the handle is fixedly connected with the top of the ultrasonic cleaner through screws, and the ultrasonic cleaner can generate ultrasonic waves to perform corresponding treatment on lenses;
the lens is place the box and is become by outer frame, backup pad, place the groove seat, outer frame is hollow cuboid structure, the backup pad side is perpendicular with outer frame inner wall and is connected, place the groove seat outer wall and pass through backup pad fixed connection with outer frame inside, place the laminating mutually of groove seat bottom and outer frame inside bottom, place the groove seat quantity and be nine, can once only hold a plurality of optical lenses.
Correspondingly, the placing groove seat comprises a groove seat frame, an anti-falling device and a bearing device, wherein the inside of the groove seat frame is movably connected with the side end of the anti-falling device, the bottom of the anti-falling device is mechanically connected with the top of the bearing device, the side end of the bearing device is connected with the inside of the groove seat frame, and the groove seat frame is of a hollow cylindrical structure and is matched with the disc-shaped optical lens.
Correspondingly, the anticreep device comprises bullet board, runner, reset spring, auxiliary pulley, locating plate, bullet board top right-hand member welds with the runner outer wall mutually, the runner rear end is connected through the locating pin with groove seat frame upper end, bullet board middle-end right side is connected through reset spring with groove seat frame right-hand member inner wall, the auxiliary pulley inner ring is connected through the stay cord with bullet board right-hand member, bullet board bottom is connected with the supporting device top, auxiliary pulley outer wall connection has the belt, and the auxiliary pulley is connected for the transmission with the activity chain, and when the activity chain rotated, the auxiliary pulley also rotated.
Correspondingly, the bearing device is composed of an elastic extruder, a lifting limiting block and a movable chain, the right end of the elastic extruder is connected with the left end of the movable chain, the bottom of the lifting limiting block is attached to the top of the elastic extruder, and a sponge block is arranged at the bottom of the lifting limiting block, so that the linkage block B can be prevented from being excessively impacted when being lifted and restored.
Correspondingly, the elastic squeezer comprises a spring rod, a sliding force-unloading wheel, an elastic membrane and a linkage block, wherein the top of the spring rod is connected with the bottom of the linkage block through a positioning pin, the right end of the linkage block is fixedly connected with the left end of a movable chain through a screw, the left end of the linkage block is movably connected with the middle end of the sliding force-unloading wheel, the left end of the sliding force-unloading wheel is in interference fit with the right end of the elastic membrane, the bottom of the elastic membrane is connected with a small roller, the small roller is attached to the inside of a groove seat frame, the lower end of the elastic membrane is matched with the lens, and the lens is extruded outwards to expand, so that unnecessary friction between the lens and the elastic membrane.
Correspondingly, the spring rod is of a three-section spring telescopic rod structure and adopts two-section deformation.
Correspondingly, the elastic membrane adopts the rubber material, has the deformation energy supply, and the inner wall is tightly laminated and is slided the power of unloading wheel simultaneously.
Correspondingly, the elastic plate is made of plastic materials, presents a certain oblique angle with the groove seat frame, can rotate inwards when the lens slides downwards, and reduces the instantaneous impact of the contact between the lens and the elastic membrane.
Advantageous effects
When in use, the lens is put into the placing groove seat, the groove seat frame is of a hollow cylinder structure and is matched with a disc-shaped optical lens, the elastic plate overcomes the restoring spring and is inwards folded after being extruded, the elastic plate is made of plastic materials and presents a certain oblique angle with the groove seat frame, when the lens slides down, the elastic plate can rotate inwards and reduce the impact (the auxiliary pulley does not move) at the moment when the lens contacts with the elastic membrane, at the moment, the rotating wheel is matched and rotates, the lens slides over the elastic membrane, the lens extrudes the elastic membrane to enable the sliding force-unloading wheel and the linkage block to overcome the downward sliding of the spring rod, the bottom of the elastic membrane is connected with a small roller, the small roller is attached to the inner part of the groove seat frame, the lower end of the elastic membrane can expand outwards in a way of being matched with the extrusion of the lens, when the movable chain rotates, the auxiliary pulley also rotates, at the moment, the auxiliary pulley, the elastic plate receives the extrusion of the restoring spring and extends outwards, the top of the lens can be clamped, the lens is prevented from falling off accidentally, the lens is placed 3, and the lens is placed into an ultrasonic cleaner.
Compared with the prior art, the invention has the following advantages:
1. the elastic plate is made of plastic materials, and presents a certain oblique angle with the groove seat frame, so that the elastic plate can overcome the problem that the restoring spring is inwards folded when the lens slides downwards, and the instantaneous impact of the contact of the lens and the elastic membrane is reduced.
2. The lens slides to the elastic membrane top, and the lens makes the slip unload power wheel overcome the spring beam gliding with the interlocking piece through extrusion elastic membrane, and the elastic membrane bottom is connected with the small gyro wheel, can make the extrusion of elastic membrane lower extreme cooperation lens outwards expand, further prevents that the lens from directly falling into the bottom under acceleration of gravity.
3. When the lens is static back, a distance of interlock piece gliding, activity chain is anticlockwise rotation together with supplementary pulley during this period, and the stay cord between supplementary pulley and the diving board is not hard up state, and the diving board receives the rebound spring extrusion and outwards extends, can block the lens top, prevents that the lens is unexpected to drop, and elastic deformation of elastic membrane makes the lens tend towards stability simultaneously, can not control and rock the striking.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural view of an optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion according to the present invention;
FIG. 2 is a schematic view of a lens housing case according to the present invention;
FIG. 3 is a top view of the lens housing case of the present invention;
FIG. 4 is a front sectional view of the placement seat of the present invention;
FIG. 5 is an enlarged view of the anti-separation device shown in FIG. 4 according to the present invention;
FIG. 6 is an enlarged view of the receiving device of FIG. 4 according to the present invention.
In the figure: the device comprises a control switch-1, a base-2, a lens placing box-3, an ultrasonic cleaner-4, a handle-5, an outer frame-30, a supporting plate-31, a placing groove seat-32, a groove seat frame-321, an anti-dropping device-322, a bearing device-323, an elastic plate-3221, a rotating wheel-3222, a restoring spring-3223, an auxiliary pulley-3224, a positioning plate-3225, an elastic squeezer-3231, a lifting limiting block-3232, a movable chain-3233, a spring rod-B1, a sliding force-unloading wheel-B2, an elastic membrane-B3 and a linkage block-B4.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1-4, the present invention provides a technical solution of an optical lens ultrasonic cleaning tool based on elastic deformation and sliding extrusion: the structure of the ultrasonic lens cleaning device comprises a control switch 1, a base 2, a lens placing box 3, an ultrasonic cleaner 4 and a handle 5, wherein the rear end of the control switch 1 and the front end of the ultrasonic cleaner 4 are of an integrated structure, the bottom of the ultrasonic cleaner 4 is fixedly connected with the top of the base 2 through screws, the inside of the control switch 1 is electrically connected with the inside of the ultrasonic cleaner 4, the middle end of the ultrasonic cleaner 4 is connected with the left end of the lens placing box 3 through a clamping groove, the outer wall of the lens placing box 3 is in clearance fit with the middle end of the ultrasonic cleaner 4, the bottom of the handle 5 is fixedly connected with the top of the ultrasonic cleaner 4 through screws, and the ultrasonic cleaner 4 can generate ultrasonic waves to perform corresponding treatment;
the lens box 3 of placing comprises outer frame 30, backup pad 31, place the groove seat 32, outer frame 30 is hollow cuboid structure, backup pad 31 side is connected for perpendicular with outer frame 30 inner wall, place the inside backup pad 31 fixed connection that passes through of groove seat 32 outer wall and outer frame 30, place the laminating mutually of groove seat 32 bottom and the inside bottom of outer frame 30, place groove seat 32 quantity and be nine, can once only hold a plurality of optical lenses, and the backup pad 31 is fixed and is placed groove seat 32, avoids placing the shake of groove seat 32.
Correspondingly, the placing groove seat 32 is composed of a groove seat frame 321, an anti-falling device 322 and a bearing device 323, the inside of the groove seat frame 321 is movably connected with the side end of the anti-falling device 322, the bottom of the anti-falling device 322 is mechanically connected with the top of the bearing device 323, the side end of the bearing device 323 is connected with the inside of the groove seat frame 321, and the groove seat frame 321 is of a hollow cylindrical structure and is matched with a disc-shaped optical lens.
Correspondingly, the anti-dropping device 322 is composed of a springboard 3221, a rotating wheel 3222, a return spring 3223, an auxiliary pulley 3224 and a positioning plate 3225, the right end of the top of the spring plate 3221 is welded with the outer wall of the rotating wheel 3222, the rear end of the rotating wheel 3222 is connected with the upper end of the groove seat frame 321 through a positioning pin, the right side of the middle end of the elastic plate 3221 is connected with the inner wall of the right end of the slot seat frame 321 through a return spring 3223, the inner ring of the auxiliary pulley 3224 is connected with the right end of the elastic plate 3221 through a pull rope, the bottom of the elastic plate 3221 is connected with the top of the bearing device 323, the outer wall of the auxiliary pulley 3224 is connected with a belt, the auxiliary pulley 3224 is in transmission connection with the movable chain 3233, when the movable chain 3233 rotates, the auxiliary pulley 3224 also rotates, and after the elastic plate 3221 is pressed, when the return spring 3223 is overcome and the auxiliary pulley 3224 is not moved, the rotating wheel 3222 is rotated in a matched manner, and the lens slides over the elastic membrane B3.
Correspondingly, the supporting device 323 comprises an elastic squeezer 3231, a lifting limiting block 3232 and a movable chain 3233, the right end of the elastic squeezer 3231 is connected with the left end of the movable chain 3233, the bottom of the lifting limiting block 3232 is attached to the top of the elastic squeezer 3231, a sponge block is arranged at the bottom of the lifting limiting block 3232, so that the linkage block B4 can be prevented from being excessively impacted when the linkage block B4 is lifted and restored, the movable chain 3233 can rotate in a manner of being matched with the downward sliding of the linkage block B4, and the auxiliary pulley 3224 is driven to rotate counterclockwise by a belt.
Correspondingly, the elastic squeezer 3231 is composed of a spring rod B1, a sliding force unloading wheel B2, an elastic film B3 and a linkage block B4, the top of the spring rod B1 is connected with the bottom of the linkage block B4 through a positioning pin, the right end of the linkage block B4 is fixedly connected with the left end of the movable chain 3233 through a screw, the left end of the linkage block B4 is movably connected with the middle end of the sliding force unloading wheel B2, the left end of the sliding force unloading wheel B2 is in interference fit with the right end of the elastic film B3, the bottom of the elastic film B3 is connected with a small roller, the small roller is attached to the inside of the groove seat frame 321, so that the lower end of the elastic film B3 can be extruded and expanded outwards in cooperation with the pressing of the lens, unnecessary friction between the lens and the elastic film B3 is reduced, and the lens enables the sliding force unloading wheel B2 to overcome the downward sliding of the spring rod B732 together with the linkage block.
Correspondingly, the spring rod B1 is a three-section spring telescopic rod structure and adopts two-section deformation.
Correspondingly, the elastic membrane B3 adopts the rubber material, has the deformation energy supply, and the inner wall is close to laminating slip power unloading wheel B2 simultaneously.
Correspondingly, the elastic plate 3221 is made of plastic, and forms a certain oblique angle with the slot seat frame 321, so that the lens can rotate inwards when sliding downwards, and impact at the moment when the lens contacts the elastic membrane B3 is reduced.
When in use, the lens is placed into the placing groove seat 32, the groove seat frame 321 is a hollow cylinder structure, and is matched with the disc-shaped optical lens, after the elastic plate 3221 is pressed, the elastic plate 3221 overcomes the restoring spring 3223 and is folded inwards, the elastic plate 3221 is made of plastic material, and simultaneously presents a certain oblique angle with the groove seat frame 321, when the lens slides downwards, the lens can rotate inwards, and impact (at the moment, the auxiliary pulley 3224 does not move) at the moment when the lens contacts with the elastic membrane B3 is reduced, at the moment, the rotating wheel 3222 is matched and rotates, the lens slides over the elastic membrane B3, the lens presses the elastic membrane B3, so that the sliding force-releasing wheel B2 and the linkage block B4 overcome the spring rod B1, the bottom of the elastic membrane B3 is connected with a small roller, the small roller is attached to the inside of the groove seat frame 321, the lens can be pressed and expanded outwards by matching the lower end of the elastic membrane B3, when the movable chain 33 rotates, the auxiliary pulley 322, stay cord between supplementary pulley 3224 and the bullet board 3221 is not hard up state, bullet board 3221 receives the extrusion of reset spring 3223 and toward stretching outward, can block the lens top, prevent that the lens is unexpected to drop, place the lens again box 3 put into ultrasonic cleaner 4 can, after ultrasonic cleaning, can will press bullet board 3221, take out the lens, spring beam B1 promotes interlock piece B4 to highest position this moment, it is equipped with the sponge piece to rise restriction piece 3232 bottom, can prevent interlock piece B4 when rising the reduction, avoid appearing excessive striking.
The invention solves the problems that when an optical lens is placed, because the gap between the lens and the straight cylinder structure is not large, the lens cannot enter together with fingers, when the lens is placed, the fingers need to be released, the lens can directly slide down to the bottom, and the lens can be collided under the acceleration of gravity, so that the lens can be taken out, the lens and the straight cylinder structure have a gap, when the lens is moved, the lens can continuously collide with the placing device, and if the lens is not inclined carelessly, the lens can directly slide out, and the lens is damaged, through the mutual combination of the components, the elastic plate is made of plastic materials, and simultaneously presents a certain oblique angle with the groove seat frame, when the lens slides down, the elastic plate can overcome the inward concave folding of a restoring spring, and reduce the impact at the moment that the lens contacts with the elastic film, the lens slides over the elastic film, and the lens enables the sliding force-releasing wheel and the coupling block to overcome the downward sliding spring rod by extruding the elastic, elastic film bottom is connected with the truckle, can make the extrusion of elastic film lower extreme cooperation lens toward outer extension, further prevent that the lens from directly falling into the bottom under acceleration of gravity, after the lens is static, a section distance of interlock gliding, activity chain is anticlockwise rotation together with supplementary pulley during this period, stay cord between supplementary pulley and the diving board is not hard up state, the diving board is received the reset spring extrusion and is toward outer extension, can block the lens top, prevent that the lens is unexpected to drop, elastic deformation of elastic film makes the lens tend to stably simultaneously, can not control and rock the striking.
The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides an optical lens ultrasonic cleaning tool based on elastic deformation and slip extrusion, its structure includes that control switch (1), base (2), lens place box (3), ultrasonic cleaner (4), handle (5), its characterized in that:
the rear end of the control switch (1) and the front end of the ultrasonic cleaner (4) are of an integrated structure, the bottom of the ultrasonic cleaner (4) is fixedly connected with the top of the base (2) through screws, the inside of the control switch (1) is electrically connected with the inside of the ultrasonic cleaner (4), the middle end of the ultrasonic cleaner (4) is connected with the left end of the lens placing box (3) through a clamping groove, the outer wall of the lens placing box (3) is in clearance fit with the middle end of the ultrasonic cleaner (4), and the bottom of the handle (5) is fixedly connected with the top of the ultrasonic cleaner (4) through screws;
the lens placing box (3) is composed of an outer frame (30), a supporting plate (31) and a placing groove seat (32), the outer frame (30) is of a hollow cuboid structure, the side end of the supporting plate (31) is vertically connected with the inner wall of the outer frame (30), the outer wall of the placing groove seat (32) is fixedly connected with the inside of the outer frame (30) through the supporting plate (31), and the bottom of the placing groove seat (32) is attached to the bottom end of the inside of the outer frame (30);
the placing groove seat (32) consists of a groove seat frame (321), an anti-falling device (322) and a bearing device (323), wherein the inside of the groove seat frame (321) is movably connected with the side end of the anti-falling device (322), the bottom of the anti-falling device (322) is mechanically connected with the top of the bearing device (323), and the side end of the bearing device (323) is connected with the inside of the groove seat frame (321);
the anti-falling device (322) is composed of an elastic plate (3221), a rotating wheel (3222), a restoring spring (3223), an auxiliary pulley (3224) and a positioning plate (3225), the right end of the top of the elastic plate (3221) is welded to the outer wall of the rotating wheel (3222), the rear end of the rotating wheel (3222) is connected with the upper end of a groove seat frame (321) through the positioning pin, the right side of the middle end of the elastic plate (3221) is connected with the inner wall of the right end of the groove seat frame (321) through the restoring spring (3223), the inner ring of the auxiliary pulley (3224) is connected with the right end of the elastic plate (3221) through a pull rope, the bottom of the elastic plate (3221) is connected with the top of the bearing device (323), and the outer wall of.
2. The optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion as claimed in claim 1, wherein: the supporting device (323) is composed of an elastic squeezer (3231), a lifting limiting block (3232) and a movable chain (3233), the right end of the elastic squeezer (3231) is connected with the left end of the movable chain (3233), and the bottom of the lifting limiting block (3232) is attached to the top of the elastic squeezer (3231).
3. The optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion as claimed in claim 2, wherein: elastic squeezer (3231) comprises spring lever (B1), slip power of unloading wheel (B2), elastic membrane (B3), trace (B4), spring lever (B1) top is connected through the locating pin with trace (B4) bottom, this fixed connection of screw is passed through with activity chain (3233) left end to trace (B4) right end, trace (B4) left end and slip power of unloading wheel (B2) middle-end are swing joint, slip power of unloading wheel (B2) left end and elastic membrane (B3) right end are interference fit, elastic membrane (B3) bottom is connected with the small gyro wheel.
4. The optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion as claimed in claim 3, wherein: the spring rod (B1) is a three-section spring telescopic rod structure and adopts two-section deformation.
5. The optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion as claimed in claim 3, wherein: the elastic membrane (B3) is made of rubber, has deformation energy supply, and the inner wall is tightly attached to the sliding force-unloading wheel (B2).
CN201811374561.2A 2018-11-19 2018-11-19 Optical lens ultrasonic cleaning jig based on elastic deformation and sliding extrusion Active CN109590291B (en)

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CN112558265B (en) * 2019-09-26 2022-04-19 张家港梓阳电子科技有限公司 Locking device for lens of gas excimer laser
CN112515537B (en) * 2020-11-20 2022-03-08 深圳市银星智能科技股份有限公司 Walking ground recognition method and cleaning robot
CN113504450B (en) * 2021-09-10 2021-11-19 南通迅腾精密设备有限公司 Test tool for semiconductor production and processing

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JPS6366190U (en) * 1986-10-18 1988-05-02
JP2001221902A (en) * 2000-02-09 2001-08-17 Canon Inc Method of processing optical element
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CN105543799A (en) * 2016-01-22 2016-05-04 苏州艾力光电科技有限公司 Coating jig for optical lenses
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CN206763507U (en) * 2017-05-19 2017-12-19 无锡市人民医院 A kind of clinical laboratory's test tube cleaning device
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