CN223300571U - Optical lens piece double-groove ultrasonic cleaning device - Google Patents

Abstract

The utility model discloses an optical lens double-groove ultrasonic cleaning device, which belongs to the technical field of optical lens processing and comprises two cleaning grooves, an ultrasonic vibration plate and an ultrasonic generator which are arranged side by side, wherein a displacement assembly is arranged above the cleaning grooves, a connecting rod is connected to the displacement assembly, a cleaning frame for placing lenses is connected to the connecting rod, and the displacement assembly is used for driving the cleaning frame to move up and down and left and right. The ultrasonic cleaning device can drive the cleaning frame to carry out ultrasonic cleaning operation in the two cleaning tanks, the displacement assembly drives the cleaning frame to meet the requirement of slow-pull dehydration, labor intensity of workers is reduced, lens cleaning efficiency is improved, double-tank ultrasonic cleaning of optical lenses is facilitated, different lens processing requirements are met, an inclined middle plate is arranged between the two cleaning tanks, mixing of solutions in the two cleaning tanks caused by movement of the cleaning frame is reduced, and cleaning effect in each tank is guaranteed.

Description

Optical lens piece double-groove ultrasonic cleaning device

Technical Field

The utility model belongs to the technical field of optical lens processing, and particularly relates to an optical lens double-groove ultrasonic cleaning device.

Background

Ultrasonic cleaning is a common method for cleaning optical lenses, and is widely used for cleaning after the processes of grinding, polishing, coating and the like of lenses. Residues such as grinding powder, polishing wax, coating liquid and the like on the surface of the lens can be effectively removed through ultrasonic cleaning, the transparency and optical performance of the lens are ensured, and the high-quality requirement of an optical lens product is met. At present, in the ultrasonic cleaning process, a plurality of ultrasonic cleaning processes, such as rough cleaning, fine cleaning, pure water cleaning, rinsing and the like, are sometimes required for the lenses, a cleaning frame filled with the lenses to be cleaned is usually put into another ultrasonic cleaning tank after the cleaning of the ultrasonic cleaning tank is finished by a worker, slow-pull dehydration is also required after each cleaning tank is cleaned, the working strength of the worker is high, and the working efficiency is low.

Disclosure of utility model

The technical problem solved by the utility model is to provide the optical lens double-groove ultrasonic cleaning device which reduces the working strength and improves the working efficiency.

The technical scheme adopted by the utility model is as follows in order to solve the technical problems:

The utility model provides an optical lens double tank ultrasonic cleaning device, includes two washing tanks that set up side by side, set up ultrasonic wave vibration board in the washing tank and with ultrasonic generator that ultrasonic wave vibration board electricity is connected, the washing tank top is equipped with displacement subassembly, be connected with the connecting rod on the displacement subassembly, be connected with the wash rack that is used for placing the lens on the connecting rod, displacement subassembly is used for driving the wash rack reciprocates and controls the removal.

Further, the displacement assembly comprises a first displacement sliding table and a second displacement sliding table connected with the first displacement sliding table, wherein the first displacement sliding table is used for driving the cleaning frame to move up and down, and the second displacement sliding table is used for driving the first displacement sliding table to move left and right.

Further, the cleaning frame is detachably connected with the connecting rod.

Further, the lower end of the connecting rod is provided with a hook, and the cleaning frame is provided with a hanging hole corresponding to the hook.

Further, a plurality of holding strips for holding lenses are horizontally and slidably connected to the cleaning frame, and serrated holding pads are arranged on the holding strips.

Further, a supporting rod for supporting the lenses is arranged on the cleaning frame, and the supporting rod is connected with the cleaning frame in an up-down sliding mode.

Further, the ultrasonic vibration plate is arranged on the inner side wall of the cleaning tank through a hanging frame.

Further, an intermediate plate is arranged between the two cleaning tanks, and the intermediate plate guides the liquid to enter one of the two cleaning tanks.

Compared with the prior art, the utility model has the following advantages:

1. By arranging the cleaning tanks, the ultrasonic vibration plates and the displacement components, the cleaning frame can be driven to carry out ultrasonic cleaning operation in the two cleaning tanks, the displacement components drive the cleaning frame to meet the requirement of slow-pull dehydration, the labor intensity of workers is reduced, and the lens cleaning efficiency is improved;

2. the double-groove ultrasonic cleaning of the optical lens is convenient, and the processing requirements of different lenses are met;

3. An inclined middle plate is arranged between the two cleaning tanks, so that the mixing of solutions in the two cleaning tanks caused by the movement of the cleaning frame is reduced, and the cleaning effect in each tank is ensured.

Drawings

FIG. 1 is a schematic view of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic top view of an embodiment of a cleaning frame;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic side view of an embodiment of a cleaning frame;

FIG. 5 is a schematic view of a connecting structure of a connecting rod and a hanging plate according to an embodiment;

FIG. 6 is a schematic diagram of the working state structure of the displacement assembly according to the embodiment.

Detailed Description

The utility model will be further illustrated with reference to specific examples, which are carried out on the basis of the technical solutions of the utility model, it being understood that these examples are only intended to illustrate the utility model and are not intended to limit the scope thereof.

As shown in FIG. 1, an optical lens double-groove ultrasonic cleaning device comprises a cleaning tank 1, ultrasonic vibration plates 21, ultrasonic generators 22 and a displacement assembly, wherein the cleaning tank 1 is provided with two cleaning tanks and is arranged side by side, the cleaning tank 1 is in a box shape with an upper part being open, cleaning tanks 1 are internally used for containing cleaning liquid, the ultrasonic vibration plates 21 are wall-mounted vibration plates, the two ultrasonic vibration plates 21 are respectively arranged on the inner side walls of the two cleaning tanks 1 through hanging frames, a plurality of ultrasonic vibrators are arranged in the ultrasonic vibration plates 21, input electric energy is converted into mechanical energy, namely ultrasonic waves, objects in the cleaning tanks 1 are cleaned by the ultrasonic waves, the ultrasonic generators 22 are arranged outside the cleaning tanks 1, and the ultrasonic generators 22 are electrically connected with the two ultrasonic vibration plates 21 through wires and are used for providing electric energy for driving the ultrasonic vibrators 21 to work.

As shown in fig. 1 and 6, the displacement assembly is disposed above the cleaning tank 1, the displacement assembly includes a first displacement sliding table 3 and a second displacement sliding table 4, the second displacement sliding table 4 is laterally disposed above the cleaning tank 1, the second displacement sliding table 4 includes a second sliding table seat 41, a second lead screw 42, a second driver 43 and a second sliding table 44, the second sliding table seat 41 is laterally disposed and two ends are connected with the outer side wall of the cleaning tank 1 through two supporting legs, the second lead screw 42 is disposed on the second sliding table seat 41 and is rotationally connected with the second sliding table seat 41, the second driver 43 is disposed at one end of the second sliding table seat 41 and is connected with the second lead screw 42, the second driver 43 includes a second motor and a second reducer, the second driver 43 drives the second lead screw 42 to rotate automatically, the second sliding table 44 is driven to slide left and right by the second lead screw 42 when the second lead screw 42 rotates automatically, and the second sliding table 44 slides left and right on the second sliding table seat 41 under the driving of the second driver 43. The first displacement sliding table 3 comprises a first sliding table seat 31, a first lead screw 32, a first driver 33 and a first sliding table 34, wherein the first sliding table seat 31 is vertically arranged, the first sliding table seat 31 is connected to the second sliding table 44, so that the first sliding table seat 31 is driven to move left and right when the second sliding table 44 moves left and right, the first lead screw 32 is arranged on the first sliding table seat 31 and is rotationally connected with the first sliding table seat 31, the first driver 33 is arranged at one end of the first sliding table seat 31 and is connected with the first lead screw 32, the first driver 33 comprises a first motor and a first speed reducer, the first driver 33 drives the first lead screw 32 to rotate automatically, the first sliding table 34 is movably connected with the first lead screw 32, and the first lead screw 32 is driven to slide up and down when the first lead screw 32 rotates automatically.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the first sliding table 34 is connected with a connecting rod 5, the lower end of the connecting rod 5 is connected with a cleaning frame 6, the cleaning frame 6 is used for placing optical lenses to be cleaned, the cleaning frame 6 is in a rectangular basket shape as a whole, six clamping strips 61 used for clamping the lenses are horizontally and slidably connected on the cleaning frame 6, each clamping strip 61 is arranged in a group mode, each group is used for clamping the lenses to be cleaned during operation, sliding holes 63 formed in the upper end face of the cleaning frame 6 in the length direction are respectively formed in two sides of the upper end face of the cleaning frame, two ends of each clamping strip 61 are movably connected with the corresponding sliding holes 63 through adjusting bolts 612, the left and right positions of the clamping strips 61 can be adjusted through left and right sliding of the adjusting bolts 612 in the sliding holes 63, and accordingly lenses with different sizes are adapted, and the positions of the clamping strips 61 are fixed by screwing the adjusting bolts 612 after reaching the preset positions. The side edges of the clamping strips 61 are provided with saw-tooth-shaped clamping pads 611, lenses are placed between the saw teeth opposite to the two clamping strips 61, the saw-tooth-shaped clamping pads 611 are made of elastic materials, such as rubber or silica gel, damage to the lenses is prevented, the cleaning frame 6 is provided with supporting rods 62 for supporting the lenses, the supporting rods 62 are arranged in the area below the clamping strips 61, the supporting rods 62 are provided with three supporting rods 62, each supporting rod 62 corresponds to the position of one clamping strip 61 and is used for supporting the lenses clamped by the two clamping strips 61 from below, two sides of the cleaning frame 6 are provided with vertical strip holes 64 in the vertical direction, and the supporting rods 62 are connected with the cleaning frame 6 in an up-down sliding mode through the vertical strip holes 64 and are fixed through locking nuts 621, so that the supporting rods 62 can be adjusted up-down to adapt to lenses with different diameters. One side of the cleaning frame 6 is provided with a hanging plate 65, the lower end of the connecting rod 5 is provided with a hanging hook 51, the hanging plate 65 is provided with a hanging hole 651 corresponding to the hanging hook 51, and when in use, the cleaning frame 6 is connected to the connecting rod 5 through the hanging hook 51 in the hanging hole 651, and the cleaning frame 6 and the connecting rod 5 can be conveniently placed or taken down in a detachable connection mode. Other existing lens cleaning baskets may also be used for the cleaning rack 6 for placing the optical lenses to be cleaned. The displacement subassembly during operation drives the wash rack 6 through connecting rod 5 and removes, and first displacement slip table 3 during operation, first slip table 34 drive wash rack 6 through connecting rod 5 and reciprocate, and second slip table 4 during operation second slip table 44 slides about, drives first slip table 34 and connecting rod 5 whole left and right movement to drive wash rack 6 and move about.

As shown in fig. 1 and 6, an intermediate plate 7 is provided between the two washing tanks 1, and the intermediate plate 7 is inclined so that the water on the intermediate plate 7 flows to one washing tank 1 of the two washing tanks 1, and the intermediate plate 7 is positioned high on the left and low on the right in this embodiment, so as to guide the water to the washing tank 1 on the right side. When the device is used, the connecting rod 5 is positioned above the right cleaning tank 1 at the initial position, the positions of the clamping strips 61 and the supporting rods 62 on the cleaning frame 6 are adjusted according to the sizes of optical lenses to be cleaned, then a plurality of optical lenses are sequentially placed on the cleaning frame 6, then the cleaning frame 6 is hung on the connecting rod 5, the first displacement sliding table 3 works to drive the cleaning frame 6 to move downwards into the solution of the right cleaning tank 1, the ultrasonic vibration plate 21 of the right cleaning tank 1 works to carry out ultrasonic cleaning operation, after a period of cleaning, the first sliding table 34 drives the cleaning frame 6 to move upwards slowly, so that the movement meets the requirement of slow-pull dehydration, the lenses are prevented from being damaged by excessively fast upward movement, after the cleaning frame 6 moves to the area above the right cleaning tank 1, the second displacement sliding table 4 works, the second sliding table 44 slides leftwards to drive the cleaning frame 6 to move to the right above the middle plate 7, at this time, the lens in the cleaning rack 6 is convenient for people to observe, meanwhile, the solution of the right cleaning tank 1 carried by the cleaning rack 6 drops, returns to the right cleaning tank 1 under the guiding action of the middle plate 7, stays for a period of time, the solution dropped by the cleaning rack 6 is reduced, the second sliding table 44 continues to slide leftwards to drive the cleaning rack 6 to move to the upper part of the left cleaning tank 1, the first displacement sliding table 3 works, the first sliding table 34 drives the cleaning rack 6 to move downwards, the cleaning rack 6 enters the solution in the left cleaning tank 1, the ultrasonic vibration plate 21 in the left cleaning tank 1 works to carry out ultrasonic cleaning operation, after a period of cleaning, the first sliding table 34 drives the cleaning rack 6 to move upwards slowly, so that the movement meets the requirement of slow-pull dehydration, the cleaning rack 6 is separated from the solution to the upper part of the left cleaning tank 1, the next operation is convenient for people to carry out, the device can be arranged in a plurality of side by side, the four-groove, six-groove and eight-groove ultrasonic cleaning is formed, so that the optical lens can be conveniently subjected to multiple times of double cleaning, different lens processing requirements are met, and the same or different solutions can be used in the double grooves.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (8)

1. The utility model provides an optical lens double-groove ultrasonic cleaning device, its characterized in that, is in including two washing tanks (1) that set up side by side, setting ultrasonic vibration board (21) in washing tank (1) and with ultrasonic generator (22) that ultrasonic vibration board (21) electricity is connected, washing tank (1) top is equipped with displacement subassembly, be connected with connecting rod (5) on the displacement subassembly, be connected with on connecting rod (5) and be used for placing wash rack (6) of lens, the displacement subassembly is used for driving wash rack (6) reciprocates and controls and remove.

2. The optical lens double-groove ultrasonic cleaning device according to claim 1, wherein the displacement assembly comprises a first displacement sliding table (3) and a second displacement sliding table (4) connected with the first displacement sliding table (3), the first displacement sliding table (3) is used for driving the cleaning frame (6) to move up and down, and the second displacement sliding table (4) is used for driving the first displacement sliding table (3) to move left and right.

3. The optical lens double-groove ultrasonic cleaning device according to claim 1, characterized in that the cleaning frame (6) is detachably connected with the connecting rod (5).

4. The ultrasonic cleaning device for double grooves of optical lenses according to claim 3, wherein a hook (51) is arranged at the lower end of the connecting rod (5), and a hanging hole corresponding to the hook (51) is arranged on the cleaning frame (6).

5. The ultrasonic cleaning device for double grooves of optical lenses according to claim 1, wherein a plurality of clamping strips (61) for clamping lenses are horizontally and slidably connected to the cleaning frame (6), and serrated clamping pads (611) are arranged on the clamping strips (61).

6. The ultrasonic cleaning device for double grooves of optical lenses according to claim 5, wherein the cleaning frame (6) is provided with a supporting rod (62) for supporting the lenses, and the supporting rod (62) is connected with the cleaning frame (6) in an up-and-down sliding manner.

7. The optical lens double-groove ultrasonic cleaning device according to claim 1, wherein the ultrasonic vibration plate (21) is arranged on the inner side wall of the cleaning groove (1) through a hanging frame.

8. The optical lens double-tank ultrasonic cleaning device according to claim 1, characterized in that an intermediate plate (7) is provided between the two cleaning tanks (1), the intermediate plate (7) guiding the liquid into one cleaning tank (1) of the two cleaning tanks (1).