CN1936649A - Optical-element washing structure - Google Patents

Abstract

The invention provides a cleaning structure for the optical element which includes a fixed board, at least one high adjustment device, some load-bearing poles set on the fixed board, some clamping structures set on the load-bearing poles and at least one sleeve. At least one strip pylome which is passed by at least one load-bearing pole is set on the fixed board; the high adjustment device includes an adjusting nut and an elastic element; the sleeve is covered on at least one load-bearing pole which the two ends are covered with the elastic element and the adjusting nut. The cleaning structure can revise the position of the clamping structure easily compared to the present technology, so it can clamp many optical elements at one time to improve the efficient, also it can clean the optical element with different size.

Description

Optical-element washing structure

[technical field]

The invention relates to a kind of optical-element washing structure, especially about a kind of optical-element washing structure that is used to clean eyeglass.

[background technology]

At present, optical articles such as mobile phone, digital camera is used more and more universal, so optical element (as eyeglass) kind is more and more and do littler and littler, is the first step of optical coating processing procedure and clean optical element, for improving the quality of plated film, being washed to of optical element is important problem.

General optical element cleans only workpiece to be put into a container and clean the back oven dry with the ultrasonic concussion and gets final product.Disclosed a kind of supersonic wave cleaning machine as No. 99234336.4 utility model patent that China announced on April 26th, 2000, please refer to Fig. 1, this cleaning machine is made up of cleaning box 100, casing 200 and movement 300.Cleaning box 100 is little O-ring column containers of one with cover 400, and cleaning fluid 500 and eyeglass 600 are housed in it.Casing 200 is cylindric airtight containers, is made of two parts up and down.Cleaning box 100 is disposed at the inside of casing 200, in casing 200 upper cavity clear water 800 is housed.The bottom of this casing 200 is provided with movement 300, and passes through the driving of this movement 300, produces ultrasonic oscillation, gives cleaning box 100 by 800 conduction of the clear water in casing 200 tops, to reach the purpose of cleaning eyeglass.But this cleaning box 100 can only hold single eyeglass, and its cleaning efficiency is low, be difficult for cleaning in a large number.

[summary of the invention]

In view of above content, be necessary the optical-element washing structure that a kind of cleaning efficiency height is provided, can cleans in a large number.

In addition, be necessary further to provide a kind of optical element of different size capable of washing and cleaning structure easy to adjust.

A kind of optical-element washing structure, it comprises a holding board, at least one height adjuster, the some carrier bar on the holding board, some card holding structure and at least one sleeves of being located on this carrier bar be located at; Offer at least one rectangular through hole on the described holding board, an end of at least one carrier bar passes described rectangular through hole; Described height adjuster comprises that one adjusts a nut and a flexible member; Be arranged with described sleeve at least one carrier bar, and the two ends of described carrier bar wear described flexible member respectively and adjust nut.

Compare prior art, described optical-element washing structure utilizes a plurality of bogey clampings optical element to be cleaned, when the card holding structure of a plurality of bogeys not to timing, only need adjust nut is recoverable, therefore a plurality of optical elements to be cleaned of a clamping easily, improve cleaning efficiency, satisfied the volume production demand.In addition, described optical-element washing structure further utilizes at least one bogey to move horizontally along the rectangular through hole of described holding board, therefore can clean the optical element of different size.

[description of drawings]

Fig. 1 is a prior art optical element cleaning machine synoptic diagram;

Fig. 2 is the stereographic map of optical-element washing structure first embodiment of the present invention;

Fig. 3 is the bogey and the height adjuster exploded view of optical-element washing structure first embodiment of the present invention;

Fig. 4 is the stereographic map of optical-element washing structure second embodiment of the present invention;

Fig. 5 is the holding board synoptic diagram of optical-element washing structure second embodiment of the present invention;

Fig. 6 is the bogey and the height adjuster exploded view of optical-element washing structure second embodiment of the present invention.

[embodiment]

Please refer to Fig. 2 and Fig. 3, the optical-element washing structure 1 of first embodiment of the invention comprises a framework (indicate), three bogeys 20 and three height adjusters (indicating).

This framework comprises square first holding board, 12, one square second holding board 14 and an a plurality of support column 16, utilizes a plurality of support columns 16 supports in the present embodiment and connects first holding board 12 and second holding board 14.Offer three rectangular through holes 122 on first holding board 12,122 one-tenth T fonts of this three rectangular through hole are arranged.Three rectangular through holes 122 corresponding to first holding board 12 on second holding board 14 also offer three rectangular through holes 142, and the also corresponding T of one-tenth font of this three rectangular through hole 142 is arranged.

Bogey 20 comprises a carrier bar 22, a sleeve 24 and a tool bar 26.Carrier bar 22 two ends are respectively equipped with screw thread 222,224, and these carrier bar 22 length are arranged to slightly be longer than the distance of first holding board 12 and second holding board 14.Sleeve 24 is hollow posts bodies, and its perisporium has axially been opened a slit 242 along it.Tool bar 26 is rectangular plate shape, and one offers a plurality of spaced V-type grooves 262 on the long limit, and the length of the slit 242 of the length of this tool bar 26 and sleeve 24 quite and be mated and is embedded on the sleeve 24 by slit 242 interference fit with sleeve 24.

Height adjuster comprises spring 38 and nut 32,34,36, wherein the screw thread 222 of nut 32 and carrier bar 22 part of stretching out first holding board 12 matches, the screw thread 224 of nut 36 and carrier bar 22 matches, the part that the screw thread 222 of nut 34 and carrier bar 22 does not stretch out first holding board 12 matches, and promptly nut 32,34 locks in first holding board, 12 both sides respectively; Spring 38 is sheathed on the carrier bar 22 and between second holding board 14 and sleeve 24, this spring 38 provides axial force upwards to sleeve 24, and the height and position of sleeve 24 changes along with the change of adjusting nut 34 positions.

During assembling, rectangular through hole 122, adjustment nut 34, sleeve 24, spring 38 that carrier bar 22 passes first holding board 12 successively reach the rectangular through hole 142 corresponding to second holding board 14 of the rectangular through hole 122 of first holding board 12, nut 32,36 is threaded onto respectively on the screw thread 222,224 of carrier bar 22, bogey 20 is connected on the framework.

When using described optics cleaning structure 1 to clean optical element, nut on each carrier bar 22 32,36 is threaded to more loose state, at this moment, each carrier bar 22 can move up and down with respect to first holding board 12 and second holding board 14, also can move horizontally along rectangular through hole 122 and with its corresponding rectangular through hole 142.With this optical element is that circular eyeglass is an example, size according to the optical element diameter, turn wherein the nut 32 on two carrier bars 22,36, when the 26 height basically identicals of the tool bar on these two carrier bars 22, tighten this nut 32,36 make these two carrier bars 22 and first holding board 12 and second holding board, 14 relative fixed, move up and down by the adjustment nut of adjusting on these two carrier bars 22 34, make sleeve 24 spring 38 that bears down on one, adjust the height and position of sleeve 24, make the tool bar 26 on the sleeve 24 be positioned at sustained height, thereby make corresponding V-type groove 262 alignment on these two carrier bars 22.Another one carrier bar 22 is moved horizontally outward along rectangular through hole 122 and with its corresponding rectangular through hole 142, then a plurality of optical mirror slips are stuck on two fixing carrier bars 22 on the corresponding V-type groove 262 one by one, then above-mentioned mobile carrier bar 22 along rectangular through hole 122 and and its corresponding rectangular through hole 142 move horizontally toward in, turn the nut 32 on it, 36, make the tool bar 26 height basically identicals on tool bar 26 height and other two carrier bar 22 on this carrier bar 22, when 262 cards of the V-type groove on this carrier bar that moves 22 are gone up eyeglass, tighten the nut 32 on it, 36, then, move up and down by the adjustment nut of adjusting on this carrier bar 22 34, the V-type groove 262 on this carrier bar 22 is alignd with corresponding V-type groove 262 on other two carrier bar 22.At last, the cleaning structure 1 that optical element to be cleaned is installed is placed in the cleaning fluid, carries out cleaning operation.

After cleaning finishes, a nut 32 on one of them carrier bar unscrewed and make its along rectangular through hole 122 and and its corresponding rectangular through hole 142 move horizontally outward, can take out eyeglass then.If in the time of need cleaning eyeglass once more, eyeglass is stuck on the two not moving carrier bars 22 on the corresponding V-type groove 262, the above-mentioned outer carrier bar that moves along rectangular through hole 122 and and its corresponding rectangular through hole 142 move horizontally toward in, when 262 cards of the V-type groove on this carrier bar 22 are gone up eyeglass, tighten the nut 32 on this carrier bar 22, the adjustment nut 34 of finely tuning then on this carrier bar 22 gets final product.

Be appreciated that the rectangular through hole 142 on second holding board 14 can make dovetail groove or the T type groove that an end extends the holding board edge among above-mentioned first embodiment, this carrier bar tail end shape is also made variation thereupon, matches with described dovetail groove or T type groove.

Please be simultaneously with reference to Fig. 4, Fig. 5 and Fig. 6, the optical-element washing structure 1 of second embodiment of the invention comprises a holding board 13, three 2,3,4 and three height adjusters of bogey (indicating).Holding board 13 is circular, offer 134,136 and rectangular through holes 132 of two manholes above it, this rectangular through hole 132 is positioned on the center line of the line segment that connects these two manhole 134,136 centers of circle, and the equal diameters of the width of this rectangular through hole 132 and these two manholes 134,136.These three bogeys, 2,3,4 structures are identical, are example explanation with bogey 2, and it comprises a carrier bar 23, a sleeve 24 and a tool bar 25.The structure of carrier bar 23, it comprises that a rounded nose 232 is connected the ladder cylinder 233 of rounded nose 232 with one, this ladder cylinder 233 next-door neighbour's heads 232 1 side diameters are big and be provided with external thread 234, its other end diameter is less and be provided with one section external thread 236 endways, and the big footpath of this external thread 234 is slightly less than the diameter of above-mentioned manhole 134,136 and the width of rectangular through hole 132, and this cylinder head diameter is greater than the diameter of above-mentioned manhole 134,136 and the width of rectangular through hole 132; Tool bar 25 is rectangular plate shape, and one offers a plurality of square grooves 252 on the long limit.Each height adjuster comprises that a hold-down nut 33, one adjust nut 34 and a spring 38, and the external thread 234 of this hold-down nut 33 and above-mentioned carrier bar 23 matches, and the external thread 236 of adjusting nut 34 and above-mentioned carrier bar 23 matches.

During assembling, three carrier bars 23 are passed two manholes 134,136 and the rectangular through hole 132 of holding board 13 respectively; Screw in hold-down nut 33 up to replacing fixed head 13, make carrier bar 23 and holding board 13 relative fixed with this; By interference fit, tool bar 25 is fixed on the slit 242 on the sleeve 24; Spring 38 and sleeve 24 successively are inserted in carrier bar 23, and spring 38 is replaced hold-down nut 33 and sleeve 24; On the external thread on the carrier bar 23 236, screw in and adjust nut 34.

During use, the hold-down nut 33 on the bogey 2 that passes rectangular through hole 132 is unscrewed, and this bogey 2 is moved outward along rectangular through hole 132, the hold-down nut 33 on the bogey 3,4 that passes manhole is tightened; Littlely revolve on the bogey 3,4 one of them and adjust nut 34, make corresponding square groove 252 alignment on this bogey 3,4; A plurality of eyeglasses are put on the bogey 3,4 on the corresponding square groove 252, bogey 2 is moved inward along rectangular through hole 132, when 252 cards of the square groove on it are gone up eyeglass, hold-down nut on the bogey 2 33 is tightened, and little adjustment nut 34 that revolves on the bogey 2 makes square groove 252 and aligns with square groove 252 on its corresponding bogey 3,4.At last, the cleaning structure that optical element to be cleaned is installed is placed in the cleaning fluid, carries out cleaning operation.

Third embodiment of the invention and above-mentioned second embodiment are basic identical, its difference is: the carrier bar on the bogey 4 23 change into one with the footpath cylinder and and holding board 13 one-body molded, cancel sleeve 24, the spring 38 on this carrier bar 23 and adjust nut 34, directly offer slit on this cylinder, tool bar 25 is by directly being fixed on this carrier bar with this slit interference fit.

Fourth embodiment of the invention and above-mentioned the 3rd embodiment are basic identical, its difference is: the carrier bar on the bogey 3 23 also change into one with the footpath cylinder and and holding board 13 one-body molded, cancel sleeve 24, the spring 38 on this carrier bar 23 and adjust nut 34, directly offer slit on this cylinder, tool bar 25 is by directly being fixed on this carrier bar with this slit interference fit.

Fifth embodiment of the invention and above-mentioned second embodiment are basic identical, its difference is: the screw thread 236 of carrier bar 23 on the bogey 2 is removed, cancel sleeve 24 springs 38 on this carrier bar 23 and adjust nut 34, and on this carrier bar, offer slit, tool bar 25 is by directly being fixed on this carrier bar with this slit interference fit.During use, regulate adjustment nut 34 on the bogey 3, the 4 corresponding groove 252 on the tool bar 25 that just can align.

Be appreciated that among above-mentioned all embodiment, spring 38 can be replaced by flexible members such as rubber sleeves; Tool bar 25,26 materials can be Teflons, and tool bar 25,26 can directly fluting replacement on sleeve 24.

Claims (11)

1. optical-element washing structure, it is characterized in that: this optical-element washing structure comprises a holding board, at least one height adjuster, the some carrier bar on the holding board, some card holding structure and at least one sleeves of being located on this carrier bar be located at; Offer at least one rectangular through hole on the described holding board, an end of at least one carrier bar passes described rectangular through hole; Described height adjuster comprises that one adjusts a nut and a flexible member; Be arranged with described sleeve at least one carrier bar, and the two ends of described carrier bar wear described flexible member respectively and adjust nut.

2. optical-element washing structure as claimed in claim 1 is characterized in that: described sleeve is provided with a slit, and described card holding structure is fixed in the described slit by interference fit.

3. optical-element washing structure as claimed in claim 1 is characterized in that: described card holding structure and described sleeve are one-body molded.

4. optical-element washing structure as claimed in claim 1 is characterized in that: described optical-element washing structure further comprises one second holding board and at least one support column, and fixedly connected this two holding board of described dagger.

5. optical-element washing structure as claimed in claim 4 is characterized in that: second holding board offers strip hole, and it is corresponding with the strip hole on another holding board, and at least one carrier bar two ends are located on two holding boards.

6. optical-element washing structure as claimed in claim 5 is characterized in that: described two holding boards offer three corresponding strip holes respectively, and described three strip holes become the T font to arrange.

7. optical-element washing structure as claimed in claim 4 is characterized in that: described second holding board offers a rectangular groove, and it is corresponding with the strip hole on another holding board, and a carrier bar one end is installed on this rectangular groove.

8. optical-element washing structure as claimed in claim 1 is characterized in that: at least one carrier bar one end is fixed on the holding board, and described flexible member, sleeve and adjustment nut sleeve are located on this carrier bar.

9. optical-element washing structure as claimed in claim 1 is characterized in that: directly offer some card holding structures at least one carrier bar.

10. optical-element washing structure as claimed in claim 1 is characterized in that: described card holding structure is the tool bar, and its material is a Teflon.

11. optical-element washing structure as claimed in claim 1 is characterized in that: an end of at least one carrier bar offers external thread, and described adjustment nut sleeve is located on the described external thread.

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