A kind of self adaptation glasses lens cleaning dust arrester
Technical field
The present invention relates to a kind of lens cleaner field, more particularly, to a kind of self adaptation glasses lens cleaning device.
Background technology
In optics cold working, the cleaning of eyeglass is primarily referred to as remaining polishing fluid, brill knot agent, protectiveness material after eyeglass polishing
The cleaning of material;Edging oil, the glasses lens plated front finger-marks of cleaning of glass dust, saliva circle and various attachment after glasses lens edge polishing
Cleaning.Traditional cleaning method is using Wiping material (gauze, dust-free paper) fiting chemical reagent (gasoline, ethanol, acetone, second
Ether) take the means such as immersion, wiping to carry out manual clear wiping.This method wastes time and energy, cleannes are poor, cleaning quality is unstable,
The optics cold working industry of inadaptable modern times scale.
Content of the invention
It is an object of the invention to overcoming the weak point that above-mentioned prior art exists, that is, original artificial cleaning efficiency is low,
Machines clean need to be customized it is impossible to accomplish self adaptation by type of lenses, and this invention provides a kind of self adaptation glasses lens cleaning device, with
Realize the automatization of glasses lens cleaning, and cleaning performance is good, production efficiency is high, be suitable for batch production processing.
The present invention is achieved by following technical solution:
A kind of self adaptation glasses lens cleaning dust arrester, this mechanism include frame, the first motor, the second motor, on eyeglass
Material conveyer belt, eyeglass blanking conveyer belt, wiper mechanism, eyeglass dust arrester, belt wheel and belt;
Four belt wheels are symmetrically installed with described frame;Belt is provided with described belt wheel, along belt installation side in frame
To arrival end be provided with eyeglass feeding conveyer belt, the port of export is provided with eyeglass blanking conveyer belt;Described eyeglass feeding conveyer belt,
Eyeglass blanking conveyer belt is placed between belt;Described frame is along the axle difference of two belt wheels at the port of export of belt installation direction
It is connected by shaft coupling with the output shaft of the first motor, the second motor;Described first motor, the second motor are placed under frame
Side;
In described frame and be placed in, between two belts, wiper mechanism be installed;Described wiper mechanism includes transfusion catheter and props up
Frame, lower transfusion catheter support and reserving liquid tank;Described lower transfusion catheter support is located at immediately below upper transfusion catheter support;Defeated under described
Fluid catheter support is beveled structure;The vertical one end of described lower transfusion catheter support is fixed in frame by bearing, and this end with
Reserving liquid tank is connected;On described lower transfusion catheter support umbrella shape end, flat board is fixedly installed by spring;Described upper transfusion is led
Pipe holder is L-shaped structure and is hollow;Described upper transfusion catheter support one end is fixed in frame by bearing, and this end with
Reserving liquid tank is connected;It is connected with transfusion catheter structure on the described upper transfusion catheter support other end;Described transfusion catheter structure is
Tetragon;Described transfusion catheter structure includes transfusion catheter and spring;Described transfusion catheter group quadrangularly;Described spring is placed in
Inside transfusion catheter;Described eyeglass dust arrester includes air pump, flexible pipe and high pressure air jet nozzles;Described air pump is fixed on frame
Lower section;Described air pump and soft pipe connection;Described the outlet of hose is connected with high pressure air jet nozzles, and described high pressure air jet nozzles are located at
The top of upper transfusion catheter support.
Further, the wiper mechanism in described frame is two;Described two wiper mechanisms are located at eyeglass feeding respectively
Conveyer belt, the upstream and downstream of eyeglass blanking conveyer belt.
Further, dust cover is installed outside described eyeglass blanking conveyer belt.
Further, described belt is provided with draw-in groove on lenses side.
Further, it is provided with upset lid on outside described belt wheel;Described upset lid structure is L shaped plate structure;Upset lid
Connected by rotary shaft between structure.
Further, the quantity of described eyeglass dust arrester is two, is located at the top of upper transfusion catheter support respectively.
Beneficial effects of the present invention:
1. this device drives double pulley to rotate using motor and makes eyeglass advance under the clamping force effect of belt, by two
Secondary flannelette wipe cleaning and the dedusting work of pressure-air, complete the clean up task of eyeglass, and by blanking conveyer belt by eyeglass
It is sent to packer.
2. this device has adaptation function, can adjust wiping dynamics according to eyeglass thickness degree, it is to avoid due to exerting oneself
Suddenly cause the dust on eyeglass or granule to scratch eyeglass, manual wipping eyeglass can be replaced, have cleaning and dust-proof effect concurrently, wipe floss
The cloth moment keeps moisture state, makes the cleaner of eyeglass wiping, and apparatus structure is simple, easy to operate, with low cost, produces effect
Rate is high.
Brief description
Fig. 1 is self adaptation glasses lens cleaning dust arrester structural representation of the present invention.
Fig. 2 is the left view of structure in Fig. 1;
Fig. 3 is device motion schematic diagram in Fig. 1;
Fig. 4 is that the structure of wiper mechanism and eyeglass dust arrester in Fig. 1 is schemed in detail;
Fig. 5 is wiper mechanism enlarged drawing in Fig. 1;
Fig. 6 is draw-in groove and belt composition enlarged drawing in Fig. 1.
Description of reference numerals:
1- lenses;2- eyeglass feeding conveyer belt;3- flat board;4- upset lid;5- eyeglass dust arrester;6- dust cover;7-
Belt wheel;8- frame;9- belt;10- rotary shaft;11- first motor;12- air pump;13- high pressure air jet nozzles;14- draw-in groove;15-
Eyeglass blanking conveyer belt;16- second motor;17- upper transfusion catheter support;Transfusion catheter support under 18-;19- spring;20- is defeated
Fluid catheter;21- reserving liquid tank;22- wiper mechanism;23- flexible pipe.
Specific embodiment
In conjunction with accompanying drawing 1, the self adaptation glasses lens cleaning dust arrester that the present invention provides, including frame 8, the first motor 11,
Second motor 16, eyeglass feeding conveyer belt 2, eyeglass blanking conveyer belt 15, wiper mechanism 22, eyeglass dust arrester 5, belt wheel 7 and
Belt 9;Four belt wheels 7 are symmetrically installed with described frame 8;Belt 9 is provided with described belt wheel 7, frame 8 is pacified along belt 9
The arrival end in dress direction is provided with eyeglass feeding conveyer belt 2, and the port of export is provided with eyeglass blanking conveyer belt 15;Described eyeglass feeding
Conveyer belt 2, eyeglass blanking conveyer belt 15 are placed between belt 9;Described frame 8 is along two at the port of export of belt 9 installation direction
The axle of individual belt wheel 7 is connected by shaft coupling with the output shaft of the first motor 11, the second motor 16 respectively;Described first motor
11st, the second motor 16 is placed in the lower section of frame 8;In described frame 8 and be placed in, between two belts 9, first wiper mechanism be installed
22;Described first wiper mechanism 22 includes transfusion catheter support 17, lower transfusion catheter support 18 and reserving liquid tank 21;Under described
Transfusion catheter support 18 is located at immediately below upper transfusion catheter support 17;Described lower transfusion catheter support 18 is beveled structure;Described
The vertical one end of lower transfusion catheter support 18 is fixed in frame 8 by bearing, and this end is connected with reserving liquid tank 21;Defeated under described
Fluid catheter support 18 is fixedly installed flat board 3 by spring 19 on umbrella shape end;Described upper transfusion catheter support 17 is L-shaped structure
And be hollow;Described upper transfusion catheter support 17 one end is fixed in frame 8 by bearing, and this end is connected with reserving liquid tank 21
Logical;It is connected with transfusion catheter structure on described upper transfusion catheter support 17 other end;Described transfusion catheter structure is tetragon;Institute
State transfusion catheter structure and include transfusion catheter 20 and spring 19;Described 20 groups of quadrangularlies of transfusion catheter;Described spring 19 is placed in
Inside transfusion catheter 20;Described eyeglass dust arrester 5 includes air pump 12, flexible pipe 26 and high pressure air jet nozzles 13;Described air pump 12
It is fixed on the lower section of frame 8;Described air pump 12 is connected with flexible pipe 26;Described flexible pipe 26 port of export is connected with high pressure air jet nozzles
13, described high pressure air jet nozzles 13 are located at the top of upper transfusion catheter support 17.
Wherein, the wiper mechanism 22 in described frame is two;Described two wiper mechanisms 22 are located at eyeglass feeding respectively
Conveyer belt 2, the upstream and downstream of eyeglass blanking conveyer belt 15.Dust cover 6 is installed in described eyeglass blanking conveyer belt 15 outside.Described
Belt 9 is provided with draw-in groove 14 on lenses 1 side.It is provided with upset lid 4 on described belt wheel 7 outside;Described upset lid 4 structures
For L shaped plate structure;Connected by rotary shaft 10 between upset lid 4 structures.The quantity of described eyeglass dust arrester 5 is two, point
The top of transfusion catheter support 17 Wei Yu not gone up.
In conjunction with shown in accompanying drawing 2 and 5, Fig. 5 is wiper mechanism enlarged drawing in Fig. 1, reserving liquid tank 21 and frame 8 in wiper mechanism 22
Be connected, upper transfusion catheter support 17, lower transfusion catheter support 18 are connected with respective reserving liquid tank 21 respectively, wiper mechanism 22 with defeated
Connected by transfusion catheter 20 between fluid catheter support, wiper mechanism 22 one end at eyeglass feeding conveyer belt 2 is equipped with wiping
Flannelette, constantly provides cleaning solution by conduit, makes cleaning wiping cloth keep moistening;In described rack for cleaning, transfusion catheter is flexible pipe, peace
It is contained in the middle of spring 19, spring 19 makes rack for cleaning have adaptation function, wiping dynamics can be adjusted according to eyeglass 1 thickness degree,
Avoid making the dust granule on eyeglass scratch eyeglass for overexerting.
Scheme in detail in conjunction with the structure shown in Fig. 3 and 4, being wiper mechanism 22 and eyeglass dust arrester 5, described positioned at eyeglass blanking
In the wiper mechanism 22 of conveyer belt 15, reserving liquid tank 21 is not had to provide cleanout fluid, positioned at the wiper mechanism of eyeglass blanking conveyer belt 15
Wiping flannelette in 22 is dry cloth, for wiping out the moisture of first set cleaning device residual;Described self adaptation glasses lens cleaning machine
The each corresponding eyeglass dust arrester 5 of structure 22, does high-pressure dust-cleaning work.
During work, eyeglass 1 is sent to lens cleaning mechanism workbench by feeding conveyer belt 2, now the first motor 11, second
Motor 16 works simultaneously, drives two belt wheels to rotate backward, belt 9 moves in draw-in groove 14, two belt 9 clamps eyeglass 1 edge, makes
Eyeglass 1, in the presence of clamping force, advances along belt 9 direction of motion.Wiper mechanism 22 at arrival eyeglass feeding conveyer belt 2
Place, rack for cleaning speckles with wiping eyeglass on wiping flannelette line direction before eyeglass 1 of wash solution;Then arrive at eyeglass dedusting dress
Put 5, high pressure air jet nozzles 13 spray pressure-air, remove dust;Then arrive at the wiper mechanism at eyeglass blanking conveyer belt 15
At 22, on rack for cleaning, dry wiping flannelette wipes eyeglass on line direction before eyeglass 1;Then arrive in eyeglass dust arrester 5,
High pressure air jet nozzles 13 nozzle sprays pressure-air, removes dust;Now, cleaning dedusting work completes, and is transmitted by eyeglass blanking
With 15, the eyeglass 1 after cleaning is sent on eyeglass automatic packaging machine.
The present invention has adaptation function, can adjust wiping dynamics according to eyeglass 1 thickness degree, it is to avoid due to overexerting
Cause the dust on eyeglass or granule to scratch eyeglass, manual wipping eyeglass can be replaced, have cleaning and dust-proof effect concurrently, wipe flannelette
Moment keeps moisture state, makes the cleaner of eyeglass wiping, and apparatus structure is simple, easy to operate, with low cost, production efficiency
High.
Described embodiment be the present invention preferred embodiment, but the present invention is not limited to above-mentioned embodiment, not
In the case of deviating from the flesh and blood of the present invention, any conspicuously improved, replacement that those skilled in the art can make
Or modification belongs to protection scope of the present invention.