CN211914811U - Surface cleaning device for optical lens processing - Google Patents

Abstract

The utility model discloses a surface cleaning device is used in optical lens piece processing, including mount, cylinder, ultrasonic cleaner and drying-machine, the inside bottom of mount is provided with the support slide rail, and the top of supporting the slide rail is connected with the slide, the below of slide is connected with the connecting seat, and the below of connecting seat is connected with the cylinder, the bottom of cylinder is connected with the lift post, the periphery of lift post is connected with the protection housing, and the bottom of lift post is provided with the couple, the internal connection of couple has the connection handle, and the bottom of connecting the handle is connected with the washing frame, ultrasonic cleaner's right side is provided with the drying-machine, the right side of drying-machine is provided with the transfer guide rail. This surface cleaning device is used in optical lens processing can form the protection to the optical lens after the washing through the protective housing, prevents that the lens from exposing in the air completely, and the optical lens after the washing can carry out drying process through the drying-machine simultaneously.

Description

Surface cleaning device for optical lens processing

Technical Field

The utility model relates to an optical lens piece technical field specifically is a surface cleaning device is used in optical lens piece processing.

Background

The optical lens is a glass lens applied to instruments such as a lens, various glasses or an optical microscope, and can refract light through a mirror surface structure of the optical lens, so that a graph formed by the refracted light is changed.

In the production process of optical lenses, after optical lenses finishes producing, manufacturers usually need to clean the optical lenses after finishing producing, and usually use ultrasonic cleaner to clean the lenses, however, the ultrasonic cleaner is not enough to the protection degree of the lenses in the use process, and the lenses leave the inside in-process of the cleaning machine after cleaning, and a large amount of water drops are remained on the surface of the lenses through production, and the water drops can adsorb dust in the air, thereby causing the lenses to be polluted again.

Disclosure of Invention

An object of the utility model is to provide a surface cleaning device is used in optical lens processing to the conventional ultrasonic cleaner who proposes among the solution above-mentioned background is not enough to the lens protection dynamics after the washing, makes the lens after the washing adsorb the dust once more under the effect of remaining the drop of water easily, leads to the contaminated problem once more of lens.

In order to achieve the above object, the utility model provides a following technical scheme: a surface cleaning device for optical lens processing comprises a fixing frame, an air cylinder, an ultrasonic cleaner and a dryer, wherein a rotary drum is arranged inside the fixing frame, the periphery of the rotary drum is connected with a transmission belt, a supporting slide rail is arranged at the bottom end inside the fixing frame, a slide plate is connected above the supporting slide rail, a connecting seat is connected below the slide plate, the air cylinder is connected below the connecting seat, a lifting column is connected at the bottom of the air cylinder, a protective cover shell is connected at the periphery of the lifting column, a hook is arranged at the bottom end of the lifting column, a connecting handle is connected inside the hook, a cleaning frame is connected at the bottom of the connecting handle, a lens fixing seat is arranged inside the cleaning frame, an ultrasonic cleaning pool is arranged inside the ultrasonic cleaner, a limiting seat is arranged at the top of the ultrasonic cleaner, the dryer is arranged on the right side of the ultrasonic cleaner, and the inside of drying-machine is provided with the ventilation layer to the wind gap has been seted up on the inner wall surface on ventilation layer, the right side of drying-machine is provided with the conveying guide rail.

Preferably, the transmission belt is connected with the sliding plate in a meshing manner, the sliding plate and the support sliding rail form a sliding structure, the sliding plate and the connecting seat form an integrated structure, and meanwhile, the connecting seat and the fixing frame form a sliding structure.

Preferably, the lifting column and the protective casing form a sliding structure, the lifting column is in a T-shaped structure, and the cleaning frame is completely covered inside by the protective casing.

Preferably, the diameter of the bottom of the protective housing is larger than the outer diameter of the limiting seat, the limiting seat is of a circular ring structure, and the inner circular area of the limiting seat is larger than the overlooking area of the cleaning frame.

Preferably, the hook and the connecting handle form a clamping structure, the connecting handle and the cleaning frame form a rotating structure, and the cleaning frame and the lens fixing seat are both arranged to be net-shaped surfaces.

Preferably, the number of the ultrasonic cleaning machines is 2 on the left side of the dryer, the ultrasonic cleaning machines and the dryer are both located below the lifting column, and air ports are formed in the surface of the ventilation layer inside the dryer at equal intervals.

Compared with the prior art, the beneficial effects of the utility model are that: the surface cleaning device for optical lens processing,

1. in the device, after the lens is preliminarily cleaned, the lifting column drives the cleaning frame to ascend, the lifting column can slide relative to a protective cover shell arranged outside the lifting column, the protective cover shell slides to the lowest end of the lifting column under the action of self gravity, and the cleaning frame can be completely accommodated inside, so that the cleaning frame is effectively protected, and the lens is prevented from being directly exposed in the air;

2. after the lens is cleaned twice to remove dirt, the connecting seat can drive the cleaning frame to move to the upper part of the dryer, the cleaning frame enters the dryer through the air cylinder, the lens in the cleaning frame can be dried through air flow driven by the fan, after water drops remained on the surface of the lens are dried, the lens leaves the interior of the dryer again, and dust can not be adsorbed any more due to the fact that the surface of the lens is dried again in the subsequent moving process;

3. this device degree of automation is higher, fixes in the inside of wasing the frame when the lens, washs the frame and forms the back of being connected with the couple, can drive through the connecting seat and wash the frame and remove, control by the cylinder and wash the frame and go up and down to automatic completion is to the washing and the stoving of lens, and after the lens washs the completion, this device can be with wasing the automatic top of placing at the transfer guide rail of frame, makes the lens remove to next processing point along with the transfer guide rail, need not that the staff is manual to break away from the connection.

Drawings

FIG. 1 is a schematic view of the overall front view cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the lifting column and the protective housing in a front view relative to each other;

FIG. 3 is a right-view structural diagram of the connection between the hook and the connection handle of the present invention;

fig. 4 is the sectional structure schematic diagram of the dryer in the right view.

In the figure: 1. a fixed mount; 2. a rotating drum; 3. a transmission belt; 4. supporting the slide rail; 5. a slide plate; 6. a connecting seat; 7. a cylinder; 8. a lifting column; 9. a protective housing; 10. hooking; 11. connecting a handle; 12. cleaning the frame; 13. a lens holder; 14. an ultrasonic cleaning machine; 15. ultrasonically cleaning a water tank; 16. a restriction seat; 17. a dryer; 18. a ventilation layer; 19. a tuyere; 20. a transfer rail.

Detailed Description

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

Referring to fig. 1-4, the present invention provides a technical solution: a surface cleaning device for optical lens processing comprises a fixed frame 1, a rotary drum 2, a transmission belt 3, a supporting slide rail 4, a slide plate 5, a connecting seat 6, a cylinder 7, a lifting column 8, a protective cover 9, a hook 10, a connecting handle 11, a cleaning frame 12, a lens fixing seat 13, an ultrasonic cleaning machine 14, an ultrasonic cleaning pool 15, a limiting seat 16, a dryer 17, a ventilation layer 18, a wind gap 19 and a transmission guide rail 20, wherein the rotary drum 2 is installed inside the fixed frame 1, the periphery of the rotary drum 2 is connected with the transmission belt 3, the supporting slide rail 4 is arranged at the bottom inside the fixed frame 1, the slide plate 5 is connected above the supporting slide rail 4, the connecting seat 6 is connected below the slide plate 5, the cylinder 7 is connected below the connecting seat 6, the lifting column 8 is connected at the bottom of the cylinder 7, the protective cover 9 is connected at the periphery of the lifting column 8, and the hook, the internal connection of couple 10 connects handle 11, and the bottom of connecting handle 11 is connected with washs frame 12, and the inside of wasing frame 12 is provided with lens fixing base 13, the inside of ultrasonic cleaner 14 is provided with ultrasonic cleaning pond 15, and the top of ultrasonic cleaner 14 is provided with restriction seat 16, the right side of ultrasonic cleaner 14 is provided with drying-machine 17, and the inside of drying-machine 17 is provided with ventilation layer 18, and wind gap 19 has been seted up on the inner wall surface of ventilation layer 18, the right side of drying-machine 17 is provided with transfer rail 20.

Drive belt 3 is connected for the meshing with slide 5, and slide 5 constitutes sliding structure with support slide 4, and slide 5 constitutes integral structure with connecting seat 6, connecting seat 6 constitutes sliding structure with mount 1 simultaneously, drive belt 3 drives slide 5 and slides in the top of supporting slide 4, thereby adjust the position of connecting seat 6 and below cylinder 7, it controls to drive to wash frame 12 and inside lens of treating to wash, slide 5 overlook the area and be greater than 2 and support the interval between the slide 4, thereby form the support through supporting slide 4, the spout that supplies connecting seat 6 to carry out the removal is seted up to the bottom surface of mount 1.

Lifting column 8 and protective housing 9 constitute sliding construction, and lifting column 8 sets up to "T" type structure, and protective housing 9 covers washing frame 12 totally inside, frictional force is less between protective housing 9 and the lifting column 8, lifting column 8 carries out the up-and-down motion under the drive of cylinder 7, when lifting column 8 rises to washing frame 12 and does not contact with ultrasonic cleaner 14, protective housing 9 can slide downwards under the effect of self gravity, block by lifting column 8's bottom until its top end structure, thereby cover washing frame 12 totally inside through protective housing 9, prevent that the lens after the washing is stained with again and attaches the ash on air in the removal process.

The bottom diameter of the protective housing 9 is greater than the outer diameter of the limiting seat 16, and the limiting seat 16 is arranged to be a circular ring structure, and the inner circular area of the limiting seat 16 is greater than the overlooking area of the cleaning frame 12, when the lifting column 8 drives the cleaning frame 12 to move downwards to enter the inside of the ultrasonic cleaning water tank 15 for cleaning, the protective housing 9 can be blocked by the limiting seat 16, the relative sliding between the upper part of the limiting seat 16 and the lifting column 8 is stopped, and meanwhile, the cleaning frame 12 can pass through the inner circular notch of the limiting seat 16 to enter the inside of the ultrasonic cleaning water tank 15 downwards smoothly for cleaning.

Couple 10 constitutes the block structure with connecting handle 11, and connect handle 11 and wash frame 12 and constitute rotation structure, and wash frame 12 and lens fixing base 13 and all set up to netted face, wash frame 12 through connecting handle 11 and hang in the below of couple 10, move simultaneously along with lift post 8, after lift post 8 moves to the top of conveying guide rail 20 in the right side, lift post 8 descends to and places washing frame 12 in the top of conveying guide rail 20 after, continue the downstream, make couple 10 with connect handle 11 and break away from the connection, connect handle 11 not fixed back, can rotate under the effect of self gravity, fall to the top of washing frame 12, thereby make couple 10 rise smoothly, wash frame 12 simultaneously along with conveying guide rail 20 automatic to follow-up processing department removal, need not that the staff is manual to lift post 8 and wash frame 12 and break away from the connection.

Ultrasonic cleaner 14 is provided with 2 in the left side of drying-machine 17, and ultrasonic cleaner 14 and drying-machine 17 all are located the perpendicular below of lift post 8, and 18 equidistant wind gaps 19 have been seted up on the surface of the inside ventilation layer of drying-machine 17, the lens is fixed through lens fixing base 13, along with washing frame 12 enters into the inside in first ultrasonic cleaning pond 15 and tentatively washs, the inside that enters into second ultrasonic cleaning pond 15 carries out the essence and washes after that, wash the inside that frame 12 can enter into drying-machine 17 after accomplishing, the air current passes through 19 discharges in wind gap, carry out drying process to the lens, prevent that remaining steam from adsorbing the dust on the lens.

The working principle is as follows: as shown in fig. 1 and 2, the lens to be cleaned is fixed between two adjacent lens fixing seats 13, after the cleaning frame 12 is fixed below the lifting column 8 by a connecting handle 11, a motor installed outside the fixing frame 1 is started, so that the rotary drum 2 drives the transmission belt 3 to move, the transmission belt 3 drives the sliding plate 5 to slide above the supporting sliding rail 4 through the action of the tooth blocks, so as to drive the connecting seat 6 to move at the bottom of the fixing frame 1, the air cylinder 7 is fixed below the connecting seat 6 to move synchronously, after the air cylinder 7 moves above the first ultrasonic cleaner 14, the air cylinder 7 is started to lower the lifting column 8, the protective cover 9 firstly contacts with the limiting seat 16 in the descending process, and is blocked by the limiting seat 16, so that the protective cover 9 and the lifting column 8 slide relatively, and the lifting column 8 continues to descend, the protective cover 9 stays above the limiting seat 16, meanwhile, the cleaning frame 12 enters the inside of the ultrasonic cleaning water tank 15 downwards, a large amount of micro bubbles are generated in the inside of the ultrasonic cleaning water tank 15 under the action of ultrasonic waves, the micro bubbles move to the surface of the cleaned lens along with water flow, and impact is continuously carried out on the surface of the lens after explosion, so that dirt on the surface of the lens is rapidly peeled off to clean the lens, and then the cleaning frame 12 enters the inside of a second ultrasonic cleaning water tank 15 in the same way to carry out secondary fine cleaning;

after the cleaning of the lens in the cleaning frame 12 is completed, the lifting column 8 rises to drive the cleaning frame 12 to leave the inside of the ultrasonic cleaning machine 14 upwards, the lifting column 8 slides relative to the protective housing 9 again in the moving process, the protective housing 9 slides to the lowest end of the lifting column 8 under the action of self gravity, and the bottom end plate of the lifting column 8 forms a support to completely cover the cleaning frame 12 in the cleaning frame, so that the cleaning frame 12 can be protected, and external dust is prevented from being adsorbed by residual water marks on the surface of the lens;

as shown in fig. 1 and 4, after the lens is washed twice, the lifting column 8 drives the washing frame 12 to move rightwards to the upper side of the dryer 17, the washed lens enters the inside of the dryer 17 downwards again, the fan connected with the dryer 17 is started, so that the airflow is blown into the inside of the ventilation layer 18, and then the airflow is discharged through the air opening 19, and the lens inside the dryer 17 and the washing frame 12 are dried;

as shown in fig. 1 and 3, after the optical lens cleaning and drying processes are completed, the optical lens is driven by the lifting column 8 to reach the upper side of the conveying guide rail 20 again, the lifting column 8 places the cleaning frame 12 downward above the conveying guide rail 20, the air cylinder 7 continues to push the lifting column 8 downward, so that the hook 10 is disconnected from the connecting handle 11, the connecting handle 11 is removed from the fixing state and rotates under the action of self gravity, and then the cleaning frame 12 is dropped above the cleaning frame 12, so that the hook 10 smoothly rises to clean the next batch, and the cleaning frame 12 and the optical lens fixed inside the cleaning frame automatically move to the rear subsequent processing position under the action of the conveying guide rail 20.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a surface cleaning device is used in optical lens processing, includes mount (1), cylinder (7), ultrasonic cleaner (14) and drying-machine (17), its characterized in that: the cleaning device is characterized in that a rotary drum (2) is mounted inside the fixed frame (1), a transmission belt (3) is connected to the periphery of the rotary drum (2), a supporting slide rail (4) is arranged at the bottom end inside the fixed frame (1), a slide plate (5) is connected above the supporting slide rail (4), a connecting seat (6) is connected below the slide plate (5), an air cylinder (7) is connected below the connecting seat (6), a lifting column (8) is connected to the bottom of the air cylinder (7), a protective housing (9) is connected to the periphery of the lifting column (8), a hook (10) is arranged at the bottom end of the lifting column (8), a connecting handle (11) is connected inside the hook (10), a cleaning frame (12) is connected to the bottom of the connecting handle (11), a lens fixing seat (13) is arranged inside the cleaning frame (12), an ultrasonic cleaning pool (15) is arranged inside the ultrasonic cleaning machine (14), and the top of ultrasonic cleaner (14) is provided with restriction seat (16), the right side of ultrasonic cleaner (14) is provided with drying-machine (17), and the inside of drying-machine (17) is provided with ventilation layer (18), and ventilation layer (18)'s inner wall surface has seted up wind gap (19), the right side of drying-machine (17) is provided with transfer guide (20).

2. The surface cleaning apparatus for optical lens processing according to claim 1, wherein: the transmission belt (3) is connected with the sliding plate (5) in a meshed mode, the sliding plate (5) and the supporting sliding rail (4) form a sliding structure, the sliding plate (5) and the connecting seat (6) form an integrated structure, and meanwhile the connecting seat (6) and the fixing frame (1) form the sliding structure.

3. The surface cleaning apparatus for optical lens processing according to claim 1, wherein: the lifting column (8) and the protective cover shell (9) form a sliding structure, the lifting column (8) is of a T-shaped structure, and the cleaning frame (12) is completely covered inside by the protective cover shell (9).

4. The surface cleaning apparatus for optical lens processing according to claim 1, wherein: the diameter of the bottom of the protective cover shell (9) is larger than the outer diameter of the limiting seat (16), the limiting seat (16) is of a circular ring structure, and the inner circular area of the limiting seat (16) is larger than the overlooking area of the cleaning frame (12).

5. The surface cleaning apparatus for optical lens processing according to claim 1, wherein: couple (10) constitute the block structure with connecting handle (11), and connect handle (11) and wash frame (12) and constitute and rotate the structure to wash frame (12) and lens fixing base (13) and all set up to netted face.

6. The surface cleaning apparatus for optical lens processing according to claim 1, wherein: the ultrasonic cleaning machine (14) is provided with 2 on the left side of drying-machine (17), and ultrasonic cleaning machine (14) and drying-machine (17) all are located the perpendicular below of lift post (8), and ventilation opening (19) have been seted up to drying-machine (17) inside ventilation layer (18) surface equidistance.

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