CN112170374B

CN112170374B - Ultrasonic cleaning system for industrial lens processing

Info

Publication number: CN112170374B
Application number: CN202011237002.4A
Authority: CN
Inventors: 金爱招
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-10-26
Anticipated expiration: 2040-11-09
Also published as: CN112170374A

Abstract

The invention relates to the field of ultrasonic cleaning, in particular to an industrial lens processing ultrasonic cleaning system which comprises an equipment rack, a cleaning load-shaped device, a bottom ultrasonic manipulator, two bottom abutting connectors, an angle rotation driver, a lifting driver and a plurality of lens clamping cleaners, wherein the cleaning load-shaped device is fixedly connected in the equipment rack; the ultrasonic vibration cleaning device has the beneficial effects that the ultrasonic vibration cleaning is automatically carried out on the batch of industrial lenses, so that the collision and damage between the lenses caused by vibration cleaning are avoided.

Description

Ultrasonic cleaning system for industrial lens processing

Technical Field

The invention relates to the field of ultrasonic cleaning, in particular to an ultrasonic cleaning system for industrial lens processing.

Background

Patent No. CN201620527588.0 discloses an ultrasonic cleaning system for industrial lens processing, which comprises an ultrasonic cleaning body, a first-stage ultrasonic cleaning unit, a second-stage ultrasonic cleaning unit, a third-stage ultrasonic cleaning unit and a fourth-stage ultrasonic cleaning unit, wherein the first-stage ultrasonic cleaning unit, the second-stage ultrasonic cleaning unit, the third-stage ultrasonic cleaning unit and the fourth-stage ultrasonic cleaning unit are arranged in the ultrasonic cleaning body and sequentially connected from right to left; the upper portion of the ultrasonic cleaning body is provided with a residual liquid cleaning roller, and a first-level water absorbing roller, a second-level water absorbing roller, a third-level water absorbing roller and a fourth-level water absorbing roller are integrated on the residual liquid cleaning roller. The utility model discloses an adopt hierarchical progressive cleaning mode, wash step by step the industry lens, reduce the waste to the washing liquid, improved the cleaning efficiency, guaranteed industry lens surface cleanliness factor, meanwhile, increase supporting raffinate clearing device in cleaning system, remain in the washing liquid on lens surface after wasing fast, simplified the washing structure, improved the cleaning efficiency. The apparatus does not provide for the simultaneous efficient removal, addition and cleaning of batches of industrial lenses.

Disclosure of Invention

The invention aims to provide an ultrasonic cleaning system for industrial lens processing, which has the beneficial effect that batch industrial lenses are automatically subjected to ultrasonic vibration cleaning, so that collision and damage of the lenses caused by vibration cleaning are avoided.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide an industrial lens processing ultrasonic cleaning system which comprises an equipment frame, a cleaning loader, a bottom ultrasonic manipulator, two bottom jacking connectors, an angle rotation driver, a lifting driver and a plurality of lens clamping cleaners, wash loader fixed connection in the equipment frame, bottom ultrasonic wave operation ware sliding connection is in the equipment frame and sealed cooperation is connected at the lower extreme that washs the loader, two tight connectors in bottom top are pegged graft cooperation connection respectively at the both ends of equipment frame, two tight connectors in bottom top are pegged graft cooperation connection respectively at the both ends of bottom ultrasonic wave operation ware, the angle rotation driver rotates and connects in the equipment frame, the vertical sliding connection of lift driver is on the angle rotation driver, the upper end that a plurality of lenses pressed from both sides tight purger all connects on the lift driver through screw-thread fit and plug in wasing the loader.

As a further optimization of the invention, the equipment rack comprises a rack seat body, two L-shaped fixing tables, two L-shaped adding chutes, two side slots, a central fixing slot, a fixing shaft sleeve and an angle adjusting motor fixing table, wherein the lower sides of the two ends of the rack seat body are respectively and fixedly connected with the two L-shaped fixing tables, the inner walls of the two L-shaped fixing tables are respectively provided with the L-shaped adding chutes, the two side slots are respectively arranged on the two L-shaped fixing tables in a penetrating manner, the central fixing slot is arranged at the middle end of the rack seat body, the fixing shaft sleeve is fixedly connected on the rack seat body, and the angle adjusting motor fixing table is fixedly connected on the L-shaped fixing tables.

As a further optimization of the invention, the cleaning carrier comprises a fixed lower bottom plate, a plurality of cleaning sleeves, a central fixing platform, an upper fixing plate and a plurality of lower sealing rings, wherein the plurality of cleaning sleeves are uniformly and fixedly connected to the fixed lower bottom plate, the middle ends of the plurality of cleaning sleeves are fixedly connected to the central fixing groove through the central fixing platform, the upper ends of the plurality of cleaning sleeves are fixedly connected to the upper fixing plate, and the outer walls of the lower ends of the cleaning sleeves are fixedly connected to the lower sealing rings.

As a further optimization of the invention, the bottom ultrasonic manipulator comprises a lower sound generator fixing plate, a plurality of sealing grooves, a plurality of ultrasonic amplitude transformer rods, two connecting top plates, a lower uniform force top platform, an operating rod and two side sliding blocks, wherein the lower sound generator fixing plate is uniformly provided with the plurality of sealing grooves, the plurality of lower sealing rings are respectively and hermetically inserted in the plurality of sealing grooves, the plurality of ultrasonic amplitude transformer rods are uniformly and fixedly connected to the lower sound generator fixing plate, two ends of the lower sound generator fixing plate are respectively and fixedly connected with the two connecting top plates, the two connecting top plates are respectively and slidably connected in the two L-shaped adding sliding grooves through the two side sliding blocks, the lower uniform force top platform is fixedly connected to the lower end of the lower sound generator fixing plate, and the operating rod is fixedly connected to the lower uniform force top platform.

As a further optimization of the invention, the bottom tightening connector comprises a movable insertion plate, a transverse sliding slot, an insertion platform, a bottom tightening spring and a bottom sliding shaft, wherein the movable insertion plate is slidably connected in the side slot and the connecting top plate, the lower end of the movable insertion plate is provided with the transverse sliding slot, the movable insertion plate is slidably connected on the insertion platform through the transverse sliding slot, the insertion platform is slidably connected on the bottom sliding shaft, and the bottom tightening spring is sleeved on the bottom sliding shaft and is arranged between the insertion platform and the L-shaped fixed platform.

As a further optimization of the present invention, the angle rotation driver includes an angle driving motor, an angle driving gear, a circular arc tooth base, a central rotation hole, a lifting motor fixing base, a rack bar drawing block and a rack bar slot, the angle driving motor is fixedly connected to the angle adjusting motor fixing table, the angle driving gear is fixedly connected to a transmission shaft of the angle driving motor, the angle driving gear is engaged with the circular arc tooth base, the central rotation hole is arranged on the circular arc tooth base, the circular arc tooth base is rotatably connected to the fixed shaft sleeve through the central rotation hole, the lifting motor fixing base and the rack bar drawing block are both fixedly connected to the circular arc tooth base, and the rack bar slot is arranged at the upper end of the rack bar drawing block.

As a further optimization of the present invention, the lifting driver includes a lifting driving motor, a lifting driving gear, a lifting driving rack, a rotating shaft fixing table, a rotating shaft, an upper connecting top plate and a plurality of threaded holes, the lifting driving motor is fixedly connected to the lifting motor fixing base, the lifting driving gear is fixedly connected to a transmission shaft of the lifting driving motor, the lifting driving gear is meshed with the lifting driving rack for transmission, the lifting driving rack is slidably connected to the rack slot, the lifting driving rack is fixedly connected to the rotating shaft fixing table, the rotating shaft fixing table is fixedly connected to the rotating shaft, the rotating shaft is slidably connected to the fixing shaft sleeve, the upper connecting top plate is fixedly connected to the top end of the rotating shaft, and the plurality of threaded holes are uniformly arranged on the upper connecting top plate.

As a further optimization of the invention, the lens clamping cleaner comprises a connecting threaded shaft, a locking threaded sleeve, an upper connecting plate, a fixed connecting arc plate, a sliding arc plate, a lower connecting plate, a lower arc-shaped chute and a strong magnetic locking block, wherein the locking threaded sleeve is connected to the connecting threaded shaft through threaded fit, the connecting threaded shaft is fixedly connected to the upper connecting plate and is connected to the threaded hole through threaded fit, the fixed connecting arc plate is fixedly connected between the upper connecting plate and the lower connecting plate, the lower end of the sliding arc plate is slidably connected to the lower arc-shaped chute on the lower connecting plate through an arc-shaped slider, and the sliding arc plate is attached to the strong magnetic locking block through magnetism.

As a further optimization of the invention, the lens clamping washer further comprises a plurality of lenses, a plurality of middle-end spring fixing plates, a plurality of buffer springs, a plurality of buffer spring shafts and a plurality of buffer clamping top plates, wherein the plurality of middle-end spring fixing plates are uniformly and fixedly connected to the inner walls of the fixed connection arc plate and the sliding arc plate, the buffer springs are sleeved on the buffer spring shafts, the buffer clamping top plates are slidably connected to the buffer spring shafts, the buffer springs are arranged between the buffer clamping top plates and the middle-end spring fixing plates, and the lenses are arranged between the two buffer clamping top plates.

As a further optimization of the invention, soft cotton is adhered to the inner surface of the buffer clamping top plate.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects that the ultrasonic vibration cleaning is automatically carried out on the batch of industrial lenses, so that the collision between the lenses and the damage caused by the vibration cleaning are avoided; through automatic control, a plurality of industrial lenses can be conveniently added and rotationally taken out simultaneously during cleaning, and the operation is convenient; the lenses can be conveniently fixed, and the lenses are prevented from being damaged by buffering and damping the cleaning of ultrasonic vibration; the device is very convenient to mount, dismount and change water.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic structural view of an equipment rack of the present invention;

FIG. 4 is a first schematic view of the cleaning carrier of the present invention;

FIG. 5 is a second schematic structural view of the cleaning carrier of the present invention;

FIG. 6 is a first schematic structural view of a bottom ultrasonic manipulator of the present invention;

FIG. 7 is a second schematic structural view of the bottom ultrasonic manipulator of the present invention;

FIG. 8 is a schematic view of the bottom tightening connector of the present invention;

FIG. 9 is a schematic view of the angular rotation drive of the present invention;

FIG. 10 is a schematic view of the construction of the lift drive of the present invention;

FIG. 11 is a first schematic view of the lens clamping washer of the present invention;

FIG. 12 is a second schematic view of the lens clamping washer of the present invention.

In the figure: an equipment rack 1; a frame seat body 1-1; an L-shaped fixed table 1-2; an L-shaped adding chute 1-3; side slots 1-4; 1-5 parts of a center fixing groove; 1-6 parts of a fixed shaft sleeve; angle adjusting motor fixing tables 1-7; cleaning the carrier 2; fixing a lower bottom plate 2-1; carrying and cleaning sleeve 2-2; 2-3 of a central fixed table; an upper fixing plate 2-4; 2-5 parts of a lower sealing ring; a bottom ultrasonic manipulator 3; a lower sound emitter fixing plate 3-1; a seal groove 3-2; 3-3 parts of an ultrasonic amplitude transformer; connecting the top plates 3-4; 3-5 of lower uniform force top platform; 3-6 of an operating rod; 3-7 of a side sliding block; the bottom tightly pushes the connector 4; moving the top inserting plate 4-1; a transverse sliding slot 4-2; 4-3 of a top inserting table; the bottom of the spring is tightly pressed against the spring 4-4; 4-5 of a bottom sliding shaft; an angular rotation driver 5; an angle driving motor 5-1; angle drive gear 5-2; 5-3 parts of circular arc tooth base; 5-4 of a central rotating hole; a lifting motor fixing seat 5-5; 5-6 of a rack drawing block; rack slots 5-7; a lifting driver 6; a lifting driving motor 6-1; a lifting driving gear 6-2; a lifting driving rack 6-3; 6-4 of a rotating shaft fixing table; 6-5 of a rotating shaft; the upper connecting top plate 6-6; 6-7 of a threaded hole; a lens clamping washer 7; connecting a threaded shaft 7-1; locking the threaded sleeve 7-2; an upper connecting plate 7-3; fixedly connecting the arc plates 7-4; 7-5 of a sliding arc plate; 7-6 of a lower connecting plate; 7-7 of a lower arc-shaped chute; 7-8 parts of lenses; 7-9 of a strong magnetic locking block; 7-10 parts of a middle-end spring fixing plate; buffer springs 7-11; 7-12 of a buffer spring shaft; the buffer clamps the top plates 7-13.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device can be fixed by welding, thread fixing and the like, the rotary connection can be realized by baking the bearing on a shaft, a spring retainer groove or an inter-shaft baffle is arranged on the shaft or a shaft hole, the axial fixation of the bearing is realized by clamping an elastic retainer ring in the spring retainer groove or the inter-shaft baffle, and the rotation is realized by the relative sliding of the bearing; different connection modes are used in combination with different use environments.

The first embodiment is as follows:

as shown in fig. 1 to 12, an industrial lens processing ultrasonic cleaning system comprises an equipment rack 1, a cleaning carrier 2, a bottom ultrasonic manipulator 3, two bottom tightening connectors 4, an angle rotation driver 5, a lifting driver 6 and a plurality of lens clamping cleaners 7, wherein the cleaning carrier 2 is fixedly connected in the equipment rack 1, the bottom ultrasonic manipulator 3 is slidably connected in the equipment rack 1 and is connected at the lower end of the cleaning carrier 2 in a sealing fit manner, the two bottom tightening connectors 4 are respectively connected at two ends of the equipment rack 1 in a plug-in fit manner, the two bottom tightening connectors 4 are respectively connected at two ends of the bottom ultrasonic manipulator 3 in a plug-in fit manner, the angle rotation driver 5 is rotatably connected on the equipment rack 1, the lifting driver 6 is longitudinally slidably connected on the angle rotation driver 5, and the upper ends of the lens clamping cleaners 7 are respectively connected on the lifting driver 6 in a plug-in manner through a thread fit manner and are connected on the cleaning carrier 6 Inside the carrier 2. When a plurality of industrial lenses need to be cleaned by ultrasonic vibration, the lenses are added into a plurality of lens clamping cleaners 7, the bottom ultrasonic manipulator 3 is inserted into the bottom end of the cleaning carrier 2 by operation displacement, the bottom end of the bottom ultrasonic manipulator 3 is tightly pressed and sealed by two bottom pressing connectors 4, cleaning liquid is added into the cleaning carrier 2, the lens clamping cleaners 7 are controlled to lift and rotate by an angle rotation driver 5 and a lifting driver 6, so that the lenses can be conveniently inserted into the cleaning carrier 2, the bottom ultrasonic manipulator 3 is connected with a high-frequency ultrasonic power supply to send high-frequency vibration, and cleaning is carried out by liquid transmission; further, the ultrasonic vibration cleaning is automatically carried out on the batch of industrial lenses, so that collision and damage between the lenses caused by vibration cleaning are avoided; through automatic control, a plurality of industrial lenses can be conveniently added and rotationally taken out simultaneously during cleaning, and the operation is convenient; the lenses can be conveniently fixed, and the lenses are prevented from being damaged by buffering and damping the cleaning of ultrasonic vibration; the device is very convenient to mount, dismount and change water.

The second embodiment is as follows:

as shown in fig. 1 to 12, the first embodiment is further illustrated, the equipment rack 1 includes a rack base 1-1, two L-shaped fixing platforms 1-2, two L-shaped additional sliding slots 1-3, two side slots 1-4, a center fixing slot 1-5, a fixing shaft sleeve 1-6 and an angle adjusting motor fixing platform 1-7, the lower sides of the two ends of the rack base 1-1 are respectively and fixedly connected to the two L-shaped fixing platforms 1-2, the inner walls of the two L-shaped fixing platforms 1-2 are respectively provided with the L-shaped additional sliding slots 1-3, the two side slots 1-4 are respectively arranged on the two L-shaped fixing platforms 1-2 in a penetrating manner, the center fixing slot 1-5 is arranged at the middle end of the rack base 1-1, the fixing shaft sleeve 1-6 is fixedly connected to the rack base 1-1, the angle adjusting motor fixing table 1-7 is fixedly connected to the L-shaped fixing table 1-2.

The third concrete implementation mode:

as shown in fig. 1 to 12, in this embodiment, a second embodiment is further described, the cleaning carrier 2 includes a fixed lower bottom plate 2-1, a plurality of cleaning sleeves 2-2, a central fixing platform 2-3, an upper fixing plate 2-4 and a plurality of lower sealing rings 2-5, the plurality of cleaning sleeves 2-2 are uniformly and fixedly connected to the fixed lower bottom plate 2-1, the middle ends of the plurality of cleaning sleeves 2-2 are fixedly connected to the central fixing groove 1-5 through the central fixing platform 2-3, the upper ends of the plurality of cleaning sleeves 2-2 are fixedly connected to the upper fixing plate 2-4, and the outer wall of the lower end of the cleaning sleeve 2-2 is fixedly connected to the lower sealing rings 2-5.

The fourth concrete implementation mode:

as shown in fig. 1 to 12, the third embodiment is further described in the present embodiment, the bottom ultrasonic manipulator 3 includes a lower sound producer fixing plate 3-1, a plurality of sealing grooves 3-2, a plurality of ultrasonic amplitude transformer rods 3-3, two connecting top plates 3-4, a lower uniform force top platform 3-5, a manipulating rod 3-6 and two side sliding blocks 3-7, the lower sound producer fixing plate 3-1 is uniformly provided with a plurality of sealing grooves 3-2, the plurality of lower sealing rings 2-5 are respectively sealed and inserted into the plurality of sealing grooves 3-2, the plurality of ultrasonic amplitude transformer rods 3-3 are uniformly and fixedly connected to the lower sound producer fixing plate 3-1, two ends of the lower sound producer fixing plate 3-1 are respectively and fixedly connected to the two connecting top plates 3-4, the two connecting top plates 3-4 are respectively and slidably connected to the two L-shaped adding sliding grooves 1 through the two side sliding blocks 3-7 In the step-3, a lower uniform force top platform 3-5 is fixedly connected to the lower end of a lower sounder fixing plate 3-1, and an operating rod 3-6 is fixedly connected to the lower uniform force top platform 3-5. By operating the displacement operating rod 3-6, the lower uniform force top platform 3-5 drives the lower acoustic generator fixing plate 3-1 to slide in the L-shaped adding chute 1-3 in the L-shaped fixing platform 1-2 through the two side sliding blocks 3-7, so that the lower acoustic generator fixing plate 3-1 drives the plurality of ultrasonic amplitude-change rods 3-3 to move to the lower part of the plurality of bearing cleaning sleeves 2-2, the plurality of ultrasonic amplitude-change rods 3-3 are inserted into the lower part of the bearing cleaning sleeves 2-2, the lower sealing ring 2-5 is inserted into the sealing groove 3-2, in order to ensure the sealing property, the movable top inserting plate 4-1 is transversely inserted into the connecting top plate 3-4 through the side slot 1-4, the sealing ring 2-5 is tightly inserted into the sealing groove 3-2 through the jacking spring 4-4 at the bottom on the sliding shaft 4-5 at the bottom, the sealing in the bearing cleaning sleeve 2-2 is ensured; and adding cleaning liquid into the bearing cleaning sleeve 2-2. The ultrasonic amplitude transformer 3-3 is electrically connected with a high-frequency ultrasonic power supply.

The fifth concrete implementation mode:

as shown in fig. 1 to 12, in the present embodiment, to further explain the fourth embodiment, the bottom tightening connector 4 includes a movable top board 4-1 and a lateral sliding slot 4-2, the movable roof inserting plate is characterized by comprising an inserting top platform 4-3, a bottom jacking spring 4-4 and a bottom sliding shaft 4-5, wherein a movable roof inserting plate 4-1 is connected in a side slot 1-4 and a connecting top plate 3-4 in a sliding mode, a transverse sliding slot 4-2 is formed in the lower end of the movable roof inserting plate 4-1, the movable roof inserting plate 4-1 is connected to the inserting top platform 4-3 in a sliding mode through the transverse sliding slot 4-2, the inserting top platform 4-3 is connected to the bottom sliding shaft 4-5 in a sliding mode, and the bottom jacking spring 4-4 is sleeved on the bottom sliding shaft 4-5 and arranged between the inserting top platform 4-3 and an L-shaped fixing platform 1-2.

The sixth specific implementation mode:

as shown in fig. 1 to 12, in this embodiment, to further explain the fifth embodiment, the angular rotation driver 5 includes an angular driving motor 5-1, an angular driving gear 5-2, a circular arc tooth base 5-3, a central rotation hole 5-4, a lifting motor fixing base 5-5, a rack bar pulling block 5-6 and a rack bar slot 5-7, the angular driving motor 5-1 is fixedly connected to an angular adjustment motor fixing table 1-7, the angular driving gear 5-2 is fixedly connected to a transmission shaft of the angular driving motor 5-1, the angular driving gear 5-2 is engaged with the circular arc tooth base 5-3, the central rotation hole 5-4 is arranged on the circular arc tooth base 5-3, the circular arc tooth base 5-3 is rotatably connected to a fixed shaft sleeve 1-6 through the central rotation hole 5-4, the lifting motor fixing seat 5-5 and the rack drawing block 5-6 are fixedly connected to the arc-shaped tooth base 5-3, and the rack slot 5-7 is arranged at the upper end of the rack drawing block 5-6. The angle driving motor 5-1 is connected with electricity to drive the angle driving gear 5-2 to rotate, so that the circular arc tooth base 5-3 rotates on the fixed shaft sleeve 1-6 through the central rotating hole 5-4, the circular arc tooth base 5-3 rotates, and the lifting motor fixing base 5-5 and the rack traction block 5-6 are driven to rotate to the designated position, and the conveying and taking out are facilitated.

The seventh embodiment:

as shown in fig. 1 to 12, in this embodiment, a sixth embodiment is further described, the lifting driver 6 includes a lifting driving motor 6-1, a lifting driving gear 6-2, a lifting driving rack 6-3, a rotating shaft fixing platform 6-4, a rotating shaft 6-5, an upper connecting top plate 6-6 and a plurality of threaded holes 6-7, the lifting driving motor 6-1 is fixedly connected to a lifting motor fixing seat 5-5, the lifting driving gear 6-2 is fixedly connected to a transmission shaft of the lifting driving motor 6-1, the lifting driving gear 6-2 is in meshing transmission with the lifting driving rack 6-3, the lifting driving rack 6-3 is slidably connected to a rack slot 5-7, the lifting driving rack 6-3 is fixedly connected to the rotating shaft fixing platform 6-4, the rotating shaft fixing table 6-4 is fixedly connected to the rotating shaft 6-5, the rotating shaft 6-5 is connected in the fixing shaft sleeve 1-6 in a sliding mode, the upper connecting top plate 6-6 is fixedly connected to the top end of the rotating shaft 6-5, and the threaded holes 6-7 are evenly formed in the upper connecting top plate 6-6. The lifting driving motor 6-1 is electrified to drive the lifting driving gear 6-2 to rotate, so that the lifting driving rack 6-3 is driven to longitudinally displace in the rack slot 5-7, and further the rotating shaft fixing table 6-4, the rotating shaft 6-5, the upper connecting top plate 6-6 and the threaded holes 6-7 are longitudinally displaced; and then the connecting threaded shaft 7-1 with a plurality of lenses 7-8, the upper connecting plate 7-3, the fixed connecting arc plate 7-4, the sliding arc plate 7-5 and the lower connecting plate 7-6 are operated to longitudinally displace, so that the plurality of lenses 7-8 can be conveniently added into the plurality of bearing and cleaning sleeves 2-2, and can be conveniently taken out.

The specific implementation mode is eight:

as shown in FIGS. 1 to 12, the seventh embodiment is further illustrated in the present embodiment, the lens clamping and cleaning device 7 includes a connecting threaded shaft 7-1, a locking threaded sleeve 7-2, an upper connecting plate 7-3, a fixed connecting arc plate 7-4, a sliding arc plate 7-5, a lower connecting plate 7-6, a lower arc chute 7-7 and a strong magnetic locking block 7-9, the locking threaded sleeve 7-2 is connected to the connecting threaded shaft 7-1 by screw fit, the connecting threaded shaft 7-1 is fixedly connected to the upper connecting plate 7-3 and is connected to the threaded hole 6-7 by screw fit, the fixed connecting arc plate 7-4 is fixedly connected between the upper connecting plate 7-3 and the lower connecting plate 7-6, the lower end of the sliding arc plate 7-5 is slidably connected to the lower arc chute 7-7 on the lower connecting plate 7-6 by an arc slider, the sliding arc plate 7-5 is jointed with the strong magnetic locking block 7-9 through magnetism.

The specific implementation method nine:

as shown in fig. 1 to 12, in the eighth embodiment, the lens clamping cleaner 7 further includes a plurality of lenses 7-8 and a plurality of middle spring fixing plates 7-10, the lens fixing device comprises a plurality of buffer springs 7-11, a plurality of buffer spring shafts 7-12 and a plurality of buffer clamping top plates 7-13, wherein a plurality of middle-end spring fixing plates 7-10 are uniformly and fixedly connected to the inner walls of a fixed connecting arc plate 7-4 and a sliding arc plate 7-5, the buffer springs 7-11 are sleeved on the buffer spring shafts 7-12, the buffer clamping top plates 7-13 are slidably connected on the buffer spring shafts 7-12, the buffer springs 7-11 are arranged between the buffer clamping top plates 7-13 and the middle-end spring fixing plates 7-10, and lenses 7-8 are arranged between the two buffer clamping top plates 7-13. When the lenses 7-8 need to be cleaned by ultrasonic vibration, the sliding arc plate 7-5 is rotated and displaced to separate from the strong magnetic locking block 7-9, the lenses 7-8 are inserted between the buffer clamping top plates 7-13, after all the lenses 7-8 are placed, the sliding arc plate 7-5 is rotated to be locked with the strong magnetic locking block 7-9 and is symmetrical with the fixedly connected arc plate 7-4, and the lenses 7-8 are fixed to prevent falling off by the characteristic of an arc structure; the connecting screw shaft 7-1 is connected with the screw hole 6-7 to be pinched and locked by the locking screw sleeve 7-2.

The detailed implementation mode is ten:

as shown in fig. 1 to 12, in the present embodiment, a ninth embodiment is further described, in which soft cotton is bonded to the inner surface of the cushion grip top 7-13. And the clamping is prevented from being broken.

The working principle of the invention is as follows: when the lenses 7-8 need to be cleaned by ultrasonic vibration, the sliding arc plate 7-5 is rotated and displaced to separate from the strong magnetic locking block 7-9, the lenses 7-8 are inserted between the buffer clamping top plates 7-13, after all the lenses 7-8 are placed, the sliding arc plate 7-5 is rotated to be locked with the strong magnetic locking block 7-9 and is symmetrical with the fixedly connected arc plate 7-4, and the lenses 7-8 are fixed to prevent falling off by the characteristic of an arc structure; the connecting screw shaft 7-1 is connected with the threaded hole 6-7 to be pinched and locked by the locking screw sleeve 7-2; by operating the displacement operating rod 3-6, the lower uniform force top platform 3-5 drives the lower acoustic generator fixing plate 3-1 to slide in the L-shaped adding chute 1-3 in the L-shaped fixing platform 1-2 through the two side sliding blocks 3-7, so that the lower acoustic generator fixing plate 3-1 drives the plurality of ultrasonic amplitude-change rods 3-3 to move to the lower part of the plurality of bearing cleaning sleeves 2-2, the plurality of ultrasonic amplitude-change rods 3-3 are inserted into the lower part of the bearing cleaning sleeves 2-2, the lower sealing ring 2-5 is inserted into the sealing groove 3-2, in order to ensure the sealing property, the movable top inserting plate 4-1 is transversely inserted into the connecting top plate 3-4 through the side slot 1-4, the sealing ring 2-5 is tightly inserted into the sealing groove 3-2 through the jacking spring 4-4 at the bottom on the sliding shaft 4-5 at the bottom, the sealing in the bearing cleaning sleeve 2-2 is ensured; adding cleaning liquid into the bearing cleaning sleeve 2-2; the angle driving motor 5-1 is connected with electricity to drive the angle driving gear 5-2 to rotate, so that the circular arc tooth base 5-3 rotates on the fixed shaft sleeve 1-6 through the central rotating hole 5-4, the circular arc tooth base 5-3 rotates, and the lifting motor fixing base 5-5 and the rack traction block 5-6 are driven to rotate to the designated position, and the conveying and taking out are facilitated; the lifting driving motor 6-1 is electrified to drive the lifting driving gear 6-2 to rotate, so that the lifting driving rack 6-3 is driven to longitudinally displace in the rack slot 5-7, and further the rotating shaft fixing table 6-4, the rotating shaft 6-5, the upper connecting top plate 6-6 and the threaded holes 6-7 are longitudinally displaced; further operating the connecting threaded shaft 7-1 with a plurality of lenses 7-8, the upper connecting plate 7-3, the fixed connecting arc plate 7-4, the sliding arc plate 7-5 and the lower connecting plate 7-6 to longitudinally displace, so that the plurality of lenses 7-8 can be conveniently added into the plurality of bearing and cleaning sleeves 2-2, and can be conveniently taken out; further, the ultrasonic vibration cleaning is automatically carried out on the batch of industrial lenses, so that collision and damage between the lenses caused by vibration cleaning are avoided; through automatic control, a plurality of industrial lenses can be conveniently added and rotationally taken out simultaneously during cleaning, and the operation is convenient; the lenses can be conveniently fixed, and the lenses are prevented from being damaged by buffering and damping the cleaning of ultrasonic vibration; the device is very convenient to mount, dismount and change water.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.

Claims

1. The utility model provides an industry lens processing ultrasonic cleaning system, includes equipment frame (1), washs loader (2), bottom ultrasonic wave operation ware (3), tight connector (4) in two bottom tops, angular rotation driver (5), lift driver (6) and a plurality of lens press from both sides tight purger (7), its characterized in that: the cleaning loader (2) is fixedly connected in the equipment rack (1), the bottom ultrasonic manipulator (3) is connected in the equipment rack (1) in a sliding mode and is connected to the lower end of the cleaning loader (2) in a sealing and matching mode, the two bottom tightening connectors (4) are respectively connected to two ends of the equipment rack (1) in a splicing and matching mode, the two bottom tightening connectors (4) are respectively connected to two ends of the bottom ultrasonic manipulator (3) in a splicing and matching mode, the angle rotation driver (5) is rotationally connected to the equipment rack (1), the lifting driver (6) is longitudinally connected to the angle rotation driver (5) in a sliding mode, the upper ends of the lens clamping cleaners (7) are connected to the lifting driver (6) in a threaded matching mode and are inserted into the cleaning loader (2);

the equipment rack (1) comprises a rack seat body (1-1), two L-shaped fixed tables (1-2), two L-shaped adding chutes (1-3), two side slots (1-4), a center fixed slot (1-5), fixed shaft sleeves (1-6) and angle adjusting motor fixed tables (1-7), wherein the lower sides of the two ends of the rack seat body (1-1) are respectively and fixedly connected with the two L-shaped fixed tables (1-2), the inner walls of the two L-shaped fixed tables (1-2) are respectively provided with the L-shaped adding chutes (1-3), the two side slots (1-4) are respectively arranged on the two L-shaped fixed tables (1-2) in a penetrating manner, the center fixed slot (1-5) is arranged at the middle end of the rack seat body (1-1), and the fixed shaft sleeves (1-6) are fixedly connected on the rack seat body (1-1), the angle adjusting motor fixing table (1-7) is fixedly connected to the L-shaped fixing table (1-2);

the cleaning loader (2) comprises a fixed lower bottom plate (2-1), a plurality of bearing cleaning sleeves (2-2), a central fixing table (2-3), an upper fixing plate (2-4) and a plurality of lower sealing rings (2-5), wherein the plurality of bearing cleaning sleeves (2-2) are uniformly and fixedly connected to the fixed lower bottom plate (2-1), the middle ends of the plurality of bearing cleaning sleeves (2-2) are fixedly connected to the central fixing groove (1-5) through the central fixing table (2-3), the upper ends of the plurality of bearing cleaning sleeves (2-2) are fixedly connected to the upper fixing plate (2-4), and the outer wall of the lower end of the bearing cleaning sleeve (2-2) is fixedly connected with the lower sealing rings (2-5);

the bottom ultrasonic manipulator (3) comprises a lower sound emitter fixing plate (3-1), a plurality of sealing grooves (3-2), a plurality of ultrasonic amplitude-varying rods (3-3), two connecting top plates (3-4), a lower uniform force top platform (3-5), an operating rod (3-6) and two side sliding blocks (3-7), wherein the lower sound emitter fixing plate (3-1) is uniformly provided with the plurality of sealing grooves (3-2), the plurality of lower sealing rings (2-5) are respectively hermetically inserted in the plurality of sealing grooves (3-2), the plurality of ultrasonic amplitude-varying rods (3-3) are uniformly and fixedly connected to the lower sound emitter fixing plate (3-1), two ends of the lower sound emitter fixing plate (3-1) are respectively and fixedly connected with the two connecting top plates (3-4), and the two connecting top plates (3-4) are respectively connected to the two side sliding blocks (3-7) in a sliding mode In the L-shaped adding chute (1-3), a lower uniform force top platform (3-5) is fixedly connected with the lower end of a lower sounder fixing plate (3-1), and an operating rod (3-6) is fixedly connected on the lower uniform force top platform (3-5);

the bottom propping connector (4) comprises a movable top inserting plate (4-1), a transverse sliding slot (4-2), a top inserting table (4-3), a bottom propping spring (4-4) and a bottom sliding shaft (4-5), the movable inserted roof plate (4-1) is connected in the side slot (1-4) and the connecting roof plate (3-4) in a sliding manner, the lower end of the movable inserted roof plate (4-1) is provided with a transverse sliding slot (4-2), the movable inserted roof plate (4-1) is connected on an inserted roof platform (4-3) in a sliding manner through the transverse sliding slot (4-2), the inserted roof platform (4-3) is connected on a bottom sliding shaft (4-5) in a sliding manner, and a bottom jacking spring (4-4) is sleeved on the bottom sliding shaft (4-5) and arranged between the inserted roof platform (4-3) and the L-shaped fixed platform (1-2);

the angle rotation driver (5) comprises an angle driving motor (5-1), an angle driving gear (5-2), an arc-shaped tooth base (5-3), a central rotating hole (5-4), a lifting motor fixing seat (5-5), a rack traction block (5-6) and a rack slot (5-7), the angle driving motor (5-1) is fixedly connected to an angle adjusting motor fixing table (1-7), the angle driving gear (5-2) is fixedly connected to a transmission shaft of the angle driving motor (5-1), the angle driving gear (5-2) is meshed with the arc-shaped tooth base (5-3), the central rotating hole (5-4) is arranged on the arc-shaped tooth base (5-3), the arc-shaped tooth base (5-3) is rotatably connected to a fixed shaft sleeve (1-6) through the central rotating hole (5-4), the lifting motor fixing seat (5-5) and the rack drawing block (5-6) are fixedly connected to the arc-shaped tooth base (5-3), and the rack slot (5-7) is arranged at the upper end of the rack drawing block (5-6);

the lifting driver (6) comprises a lifting driving motor (6-1), a lifting driving gear (6-2), a lifting driving rack (6-3), a rotating shaft fixing platform (6-4), a rotating shaft (6-5), an upper connecting top plate (6-6) and a plurality of threaded holes (6-7), the lifting driving motor (6-1) is fixedly connected on the lifting motor fixing platform (5-5), the lifting driving gear (6-2) is fixedly connected on a transmission shaft of the lifting driving motor (6-1), the lifting driving gear (6-2) is meshed with the lifting driving rack (6-3) for transmission, the lifting driving rack (6-3) is slidably connected in a rack slot (5-7), the lifting driving rack (6-3) is fixedly connected on the rotating shaft fixing platform (6-4), the rotating shaft fixing table (6-4) is fixedly connected to the rotating shaft (6-5), the rotating shaft (6-5) is connected in the fixing shaft sleeve (1-6) in a sliding mode, the upper connecting top plate (6-6) is fixedly connected to the top end of the rotating shaft (6-5), and the threaded holes (6-7) are uniformly formed in the upper connecting top plate (6-6);

the lens clamping cleaner (7) comprises a connecting threaded shaft (7-1), a locking threaded sleeve (7-2), an upper connecting plate (7-3), a fixed connecting arc plate (7-4), a sliding arc plate (7-5), a lower connecting plate (7-6), a lower arc-shaped sliding chute (7-7) and a strong magnetic locking block (7-9), wherein the locking threaded sleeve (7-2) is connected to the connecting threaded shaft (7-1) in a threaded fit manner, the connecting threaded shaft (7-1) is fixedly connected to the upper connecting plate (7-3) and connected to the threaded hole (6-7) in a threaded fit manner, the fixed connecting arc plate (7-4) is fixedly connected between the upper connecting plate (7-3) and the lower connecting plate (7-6), and the lower end of the sliding arc plate (7-5) is slidably connected to the lower connecting plate (7-6) through an arc sliding block In the groove (7-7), the sliding arc plate (7-5) is attached to the strong magnetic locking block (7-9) through magnetism;

the lens clamping cleaner (7) also comprises a plurality of lenses (7-8), a plurality of middle end spring fixing plates (7-10), a plurality of buffer springs (7-11), a plurality of buffer spring shafts (7-12) and a plurality of buffer clamping top plates (7-13), a plurality of middle-end spring fixing plates (7-10) are uniformly and fixedly connected to the inner walls of the fixedly connected arc plates (7-4) and the sliding arc plates (7-5), buffer springs (7-11) are sleeved on buffer spring shafts (7-12), buffer clamping top plates (7-13) are slidably connected to the buffer spring shafts (7-12), the buffer springs (7-11) are arranged between the buffer clamping top plates (7-13) and the middle-end spring fixing plates (7-10), and lenses (7-8) are arranged between the two buffer clamping top plates (7-13).

2. The ultrasonic cleaning system for industrial lens processing according to claim 1, wherein: soft cotton is adhered to the inner surface of the buffer clamping top plate (7-13).