CN102785142B - Double-shaft single-surface grinding polishing all-in-one machine for lens - Google Patents

Abstract

The invention relates to a double-shaft single-surface grinding polishing all-in-one machine for a lens, and the double-shaft single-surface grinding polishing all-in-one machine comprises a stander, a main shaft rotating mechanism, a vacuum connecting mechanism, an eccentric vacuum sucker mechanism, a right automatic elevation mechanism, a left automatic elevation mechanism, a right universal grinding-disc mechanism, a left universal grinding-disc mechanism, a transmission mechanism and an electrical control box; the vacuum connecting mechanism and the eccentric vacuum sucker mechanism are respectively connected with the main shaft rotating mechanism; the right automatic elevation mechanism and the left automatic elevation mechanism are fixed on the stander, the right universal grinding-disc mechanism is installed in the right automatic elevation mechanism, and the left universal grinding-disc mechanism is installed in the left automatic elevation mechanism; the transmission mechanism is fixed on the stander, and the transmission mechanism is respectively connected with the right universal grinding-disc mechanism and the left universal grinding-disc mechanism; and the electrical control box is respectively connected with the main shaft rotating mechanism, the right automatic elevation mechanism, the left automatic elevation mechanism and the transmission mechanism. The double-shaft single-surface grinding polishing all-in-one machine has high production efficiency, high product quality, low production cost, high yield and low labor intensity, and is suitable for the industrialized production.

Description

A kind of eyeglass twin shaft one side grinding and polishing all-in-one

Technical field

The present invention relates to a kind of eyeglass twin shaft one side grinding and polishing all-in-one.

Background technology

Conventional lenses polisher lapper does not adopt vacuum cup, double-faced grinding and polishing machine adopts the polishing machine production technology of the nineties, upper lower millstone relative motion, and workpiece dental lamina drives workpiece to do rotation, revolution motion, there is following defect in it: 1, process velocity is slow, and production efficiency is low; 2, easy lamination, easy edge damage; 3, workpiece dental lamina is fragile, and production cost is high; 4, yield poorly, yield rate is low; Single-side machine adopts the production technology nineties, and workpiece dental lamina is placed on lower wall, relies on cylinder to drive upper dish to push down the driven rotation of workpiece dental lamina, and it exists labour intensity high, yields poorly, and is unsuitable for the defect of suitability for industrialized production.

Summary of the invention

Technical problem to be solved by this invention is, provides a kind of production efficiency high, lamination not, and production cost is low, and output is high, and labour intensity is low, is suitable for the eyeglass twin shaft one side grinding and polishing all-in-one of suitability for industrialized production.

The present invention solves the technical scheme that its technical problem adopts: a kind of eyeglass twin shaft one side grinding and polishing all-in-one, comprises frame, spindle rotation mechanism, vacuum bindiny mechanism, eccentric vacuum cup mechanism, right automatic hoisting mechanism, left automatic hoisting mechanism, right universal disc-grinding mechanism, left universal disc-grinding mechanism, transmission mechanism and electric control box; Described spindle rotation mechanism is fixed in frame, and described vacuum bindiny mechanism, eccentric vacuum cup mechanism are connected with spindle rotation mechanism respectively; Described right automatic hoisting mechanism, left automatic hoisting mechanism are fixed in frame, and the universal disc-grinding mechanism in the described right side is contained in right automatic hoisting mechanism, and the universal disc-grinding mechanism in a described left side is contained in left automatic hoisting mechanism; Described transmission mechanism is fixed in frame, and described transmission mechanism is connected with the universal disc-grinding mechanism in the right side, left universal disc-grinding mechanism respectively; Described electric control box is connected with spindle rotation mechanism, right automatic hoisting mechanism, left automatic hoisting mechanism, transmission mechanism respectively.

Further, described spindle rotation mechanism comprises the initiatively left bevel gear set of motor mechanism, driven right helical gear I, hollow main shaft, collar bush, regulate locknut and promote self-aligning bearing, described driven right helical gear I is fixed on the lower end of hollow main shaft, and be connected with the initiatively left bevel gear set of motor mechanism, in described collar bush, be set with upper bearing (metal) I, upper oil sealing I, lower bearing I, lower oil sealing I, described upper bearing (metal) I matches with the upper bearing (metal) mounting plate of hollow main shaft, described lower bearing I matches with the lower bearing mounting plate of hollow main shaft, and fix by key pin, described collar bush is provided with Flange Plane boss, described Flange Plane boss is provided with concentric threads, and be connected with regulating locknut, described adjusting locknut is provided with concentric grooves and positioning screw, described promotion self-aligning bearing is assemblied on hollow main shaft, and match with regulating the concentric grooves of locknut.

Further, the initiatively left bevel gear set of described motor mechanism comprises reductor buck plate, reductor I, motor and the left helical gear of active, described reductor I is fixed on reductor buck plate, the power shaft of described reductor I is connected with motor, and the left helical gear of described active is assemblied on the output shaft of reductor I.

Further, described vacuum bindiny mechanism comprises bearing holder (housing, cover), vacuum connector, in described bearing holder (housing, cover), be set with successively the upper bearing, spacer I and the next bearing that match with hollow main shaft, and be fixedly connected with Kong Kayu hollow main shaft by axle card, in described vacuum connector, be set with the oil sealing I and the O shape circle I that match with hollow main shaft, and be fixedly connected with bearing holder (housing, cover) by connector.

Further, described eccentric vacuum cup mechanism comprises terminal pad, eccentric chassis and vacuum cup, the top of described hollow main shaft is successively through terminal pad, eccentric chassis, the main shaft disk of described hollow main shaft is fixedly connected with terminal pad, described terminal pad is fixedly connected with eccentric chassis, O shape circle is housed between the top of described hollow main shaft and eccentric chassis, between described eccentric chassis and vacuum cup, is provided with O shape circle, and is bolted to connection; Described vacuum cup is provided with through hole.

Further, described right automatic hoisting mechanism comprises air cylinder lifting group, slide rail connecting plate, slide block connecting plate and cylinder connecting plate, described air cylinder lifting group comprises that cylinder, connecting screw rod, cylinder help pull a cart, described cylinder is fixed on cylinder connecting plate, described connecting screw rod is assemblied on cylinder helps pull a cart by locknut, described cylinder is helped pull a cart and is fixed on slide block connecting plate, the internal thread of cylinder rod coupling in the upper end of described connecting screw rod and cylinder; Described slide rail connecting plate is provided with slide rail, on described slide rail, slide block is housed; Described slide block connecting plate is provided with the groove matching with slide block, and is fixedly connected with slide block by connector; Described slide block connecting plate is provided with thousand parted hair fixed blocks, and described thousand are equipped with thousand separately on fixed blocks separately; The structure of described left automatic hoisting mechanism is identical with the structure of right automatic hoisting mechanism.

Further, the universal disc-grinding mechanism in the described right side comprises mill and hollow mill spindle, axle sleeve, driven right helical gear II and liquid supply group mechanism; Between described mill and hollow mill spindle, elastic ring is housed, and is fixedly connected with by connector; In described axle sleeve, be set with lower oil sealing II, lower bearing II, upper bearing (metal) II, upper oil sealing II, described lower bearing II matches with the lower bearing bit platform of hollow mill spindle, described upper bearing (metal) II matches with the upper bearing (metal) bit platform of hollow mill spindle, on described hollow mill spindle, be set with successively packing ring III, lock washer, locknut, match with upper bearing (metal) II in the lower surface of described packing ring III, the lateral surface of described packing ring III matches with upper oil sealing II; Described driven right helical gear II is fixed on hollow mill spindle by key pin, and the two ends of described driven right helical gear II are respectively equipped with back-up ring; Described liquid supply group mechanism is fixed on the top of hollow mill spindle.

Further, described liquid supply group mechanism comprises liquid adapter sleeve and liquid connector, in described liquid adapter sleeve, be set with successively and supply with lower bearing, spacer II, supply with upper bearing (metal), described supply lower bearing matches with the supply lower bearing bit platform of hollow mill spindle, described supply upper bearing (metal) matches with the supply upper bearing (metal) bit platform of hollow mill spindle, and fastens on hollow mill spindle by hole; O shape circle II, oil sealing II are housed on described liquid connector successively, and described liquid connector and liquid adapter sleeve cooperatively interact, and are bolted to connection; The structure of the universal disc-grinding mechanism in a described left side is identical with the structure of right universal disc-grinding mechanism.

Further, described transmission mechanism comprises reducer pedestal, reductor II, reductor synchronizing wheel, the first power transmission shaft, second driving shaft, the left helical gear of the first active, the left helical gear of the second active, the first transmission synchronizing wheel, the second transmission synchronizing wheel and tension force group mechanism, described reductor II is fixed on the upper mounting plate of reducer pedestal, described reductor synchronizing wheel is fixed on the output shaft of reductor II, the left helical gear of described the first active is assemblied on the first power transmission shaft, the left helical gear of described the second active is assemblied on second driving shaft, described the first power transmission shaft, second driving shaft is clamped and is fitted in upper and lower ball bearing housing by axle respectively, and be fixed on reducer pedestal by connector, described the first transmission synchronizing wheel is fixed on the top of the first power transmission shaft, described the second transmission synchronizing wheel is fixed on the top of second driving shaft, described the first transmission synchronizing wheel, the second transmission synchronizing wheel is connected with reductor synchronizing wheel by Timing Belt, described tension force group mechanism is fixed on the upper mounting plate of reducer pedestal, and tensioning Timing Belt.

Operation principle: control the motor of spindle rotation mechanism by electric control box, form eccentric compound motion while making the vacuum cup rotation of eccentric vacuum cup mechanism; By electric control box, control the break-make of vacuum; The slide block connecting plate of controlling right automatic hoisting mechanism, left automatic hoisting mechanism by electric control box moves up and down, and drive right universal disc-grinding mechanism, left universal disc-grinding mechanism to move up and down, the helical gear that the helical gear of transmission mechanism is followed right universal disc-grinding mechanism, left universal disc-grinding mechanism moves up and down, thereby controls the height of active lifting and tonnage and the process time of lens grinding polishing; By electric control box, control initiatively motor, initiatively motor drives the reductor II of transmission mechanism by V belt, reductor synchronizing wheel drives the synchronizing wheel on power transmission shaft by Timing Belt, then the helical gear on power transmission shaft drives right universal disc-grinding mechanism, left universal disc-grinding mechanism relative vacuum sucker to do High Rotation Speed, machining lens product, and automatically revise relative moving flatness.

Connect after vavuum pump, first on eccentric vacuum cup, place the same external form silica gel piece of the different perforates of different product position, then eyeglass is directly placed on silica gel film perforation position, place on one side, crawl frequency converter, vacuum cup Rotate 180 degree is placed after dishful eyeglass, by electric control box, open the motor of vacuum valve and spindle rotation mechanism, eccentric vacuum cup starts rotation, rotating speed is set, light ballast is set and presses control valve pressure, automatic lifting height is set, the universal speed of grinding plate of twin shaft is set, fluid flow is set, value process time is set, PLC completes this product operation by initial set up routine, return to holding state.

Compared with prior art, the present invention has the following advantages: process velocity is fast, and automaticity is high, and production efficiency is high; Working stability is reliable, lamination not, and edge damage not, product quality is high; Do not need to use workpiece dental lamina, production cost is low; Output is high, and yield rate is high; Labour intensity is low, is suitable for suitability for industrialized production; Can be used for the processing of the products such as mobile phone, LED, computer liquid crystal displayer.

Accompanying drawing explanation

Fig. 1 is the front view of the embodiment of the present invention;

Fig. 2 is left view embodiment illustrated in fig. 1;

Fig. 3 is top view embodiment illustrated in fig. 1;

Fig. 4 is perspective view embodiment illustrated in fig. 1;

Fig. 5 is the STRUCTURE DECOMPOSITION schematic diagram of spindle rotation mechanism embodiment illustrated in fig. 1;

Fig. 6 is the cutaway view of vacuum bindiny mechanism embodiment illustrated in fig. 1;

Fig. 7 is the STRUCTURE DECOMPOSITION schematic diagram of embodiment illustrated in fig. 1 eccentric vacuum cup mechanism;

Fig. 8 is the STRUCTURE DECOMPOSITION schematic diagram of right automatic hoisting mechanism embodiment illustrated in fig. 1;

Fig. 9 is the STRUCTURE DECOMPOSITION schematic diagram of the universal disc-grinding mechanism in the right side embodiment illustrated in fig. 1;

Figure 10 is the structural representation of transmission mechanism embodiment illustrated in fig. 1.

The specific embodiment

Below in conjunction with drawings and Examples, the invention will be further described.

With reference to Fig. 1-4, the present embodiment comprises frame 1, spindle rotation mechanism 2, vacuum bindiny mechanism 3, eccentric vacuum cup mechanism 4, right automatic hoisting mechanism 5, left automatic hoisting mechanism 6, right universal disc-grinding mechanism 7, left universal disc-grinding mechanism 8, transmission mechanism 9 and electric control box 10; Described spindle rotation mechanism 2 is fixed in frame 1, and described vacuum bindiny mechanism 3, eccentric vacuum cup mechanism 4 are connected with spindle rotation mechanism 2 respectively; Described right automatic hoisting mechanism 5, left automatic hoisting mechanism 6 are fixed in frame 1, and the universal disc-grinding mechanism 7 in the described right side is contained in right automatic hoisting mechanism 5, and the universal disc-grinding mechanism 8 in a described left side is contained in left automatic hoisting mechanism 6; Described transmission mechanism 9 is fixed in frame 1, and described transmission mechanism 9 is connected with the universal disc-grinding mechanism 7 in the right side, left universal disc-grinding mechanism 8 respectively; Described electric control box 10 is connected with spindle rotation mechanism 2, right automatic hoisting mechanism 5, left automatic hoisting mechanism 6, transmission mechanism 9 respectively.

With reference to Fig. 5, described spindle rotation mechanism 2 comprises the initiatively left bevel gear set of motor mechanism, driven right helical gear I 2-1, hollow main shaft 2-2, collar bush 2-3, regulate locknut 2-4 and promote self-aligning bearing 2-5, described driven right helical gear I 2-1 is fixed on the lower end of hollow main shaft 2-2, and be connected with the initiatively left bevel gear set of motor mechanism, in described collar bush 2-3, be set with upper bearing (metal) I 2-6, upper oil sealing I 2-8, lower bearing I 2-7, lower oil sealing I 2-9, described upper bearing (metal) I 2-6 matches with the upper bearing (metal) mounting plate of hollow main shaft 2-2, described lower bearing I 2-7 matches with the lower bearing mounting plate of hollow main shaft 2-2, and fix by key pin, described collar bush 2-3 is provided with Flange Plane boss, described Flange Plane boss is provided with concentric threads, and be connected with regulating locknut 2-4, described adjusting locknut 2-4 is provided with concentric grooves and positioning screw, described promotion self-aligning bearing 2-5 is assemblied on hollow main shaft 2-2, and match with regulating the concentric grooves of locknut 2-4.

The initiatively left bevel gear set of described motor mechanism comprises reductor buck plate 2-12, reductor I 2-13, motor 2-14 and the left helical gear 2-15 of active, described reductor I 2-13 is fixed on reductor buck plate 2-12, the power shaft of described reductor I 2-13 is connected with motor 2-14, and the left helical gear 2-15 of described active is assemblied on the output shaft of reductor I 2-13.Described hollow main shaft 2-2 is provided with packing ring I 2-10 and locking nut 2-11, match with lower bearing I 2-7 in the upper surface of described packing ring I 2-10, the lateral surface of described packing ring I 2-10 matches with lower oil sealing I 2-9, matches with locking nut 2-11 in the lower surface of described packing ring I 2-10.The left helical gear 2-15 of described active and driven right helical gear I 2-1 helical teeth coupled drive, can eliminate the vibration of eccentric vacuum cup and beat.

With reference to Fig. 6, described vacuum bindiny mechanism 3 comprises bearing holder (housing, cover) 3-1, vacuum connector 3-2, in described bearing holder (housing, cover) 3-1, be set with successively upper bearing 3-3, the spacer I 3-4 and the next bearing 3-5 that match with hollow main shaft, and be fixedly connected with Kong Kayu hollow main shaft by axle card, in described vacuum connector 3-2, be set with the oil sealing I 3-6 and the O shape circle I 3-7 that match with hollow main shaft, and be fixedly connected with bearing holder (housing, cover) 3-1 by screw rod.Described vacuum connector 3-2 is provided with concentric boss, and described concentric boss matches with the pilot hole of bearing holder (housing, cover) 3-1.

With reference to Fig. 7, described eccentric vacuum cup mechanism 4 comprises terminal pad 4-1, eccentric chassis 4-2 and vacuum cup 4-3, the top of described hollow main shaft is successively through terminal pad 4-1, eccentric chassis 4-2, the main shaft disk of described hollow main shaft is fixedly connected with terminal pad 4-1, described terminal pad 4-1 is fixedly connected with eccentric chassis 4-2, O shape circle is housed between the top of described hollow main shaft and eccentric chassis 4-2, between described eccentric chassis 4-2 and vacuum cup 4-3, be provided with O shape circle, and be bolted to connection; Described vacuum cup 4-3 is provided with 24 row's through holes.Described terminal pad 4-1 is provided with concentric concave station, and described concentric concave station matches with the main shaft disk of hollow main shaft.Described terminal pad 4-1 is provided with 3 of the adjusting screw(rod)s of concentric decile 120 degree.The upper concentric concave station of described vacuum cup 4-3, is equipped with silica gel piece in described concentric concave station.

With reference to Fig. 8, described right automatic hoisting mechanism 5 comprises air cylinder lifting group, slide rail connecting plate 5-1, slide block connecting plate 5-2 and cylinder connecting plate 5-3, described air cylinder lifting group comprises cylinder 5-4, connecting screw rod 5-5, the cylinder 5-8 that helps pull a cart, described cylinder 5-4 is fixed on cylinder connecting plate 5-3, described connecting screw rod 5-5 is assemblied in cylinder by locknut 5-7 and helps pull a cart on 5-8, described cylinder is helped pull a cart, and to be fixed on slide block connecting plate 5-2 upper for 5-8, and in the upper end of described connecting screw rod 5-5 and cylinder 5-4, the internal thread of cylinder rod is coupled; Described slide rail connecting plate 5-1 is provided with slide rail, on described slide rail, slide block is housed; Described slide block connecting plate 5-2 is provided with the groove matching with slide block, and is fixedly connected with slide block by connector; Described slide block connecting plate 5-2 is provided with thousand parted hair fixed block 5-9, and described thousand are equipped with thousand parted hair 5-10 on fixed block 5-9 separately.Described connecting screw rod 5-5 and cylinder are helped pull a cart and between 5-8, are provided with packing ring II 5-6.The structure of described left automatic hoisting mechanism 6 is identical with the structure of right automatic hoisting mechanism 5.

With reference to Fig. 9, the universal disc-grinding mechanism 7 in the described right side comprises mill 7-1 and hollow mill spindle 7-2, axle sleeve 7-3, driven right helical gear II 7-4 and liquid supply group mechanism; Between described mill 7-1 and hollow mill spindle 7-2, PU elastic ring 7-20 is housed, and is bolted to connection; In described axle sleeve 7-3, be set with lower oil sealing II 7-5, lower bearing II 7-6, upper bearing (metal) II 7-7, upper oil sealing II 7-8, described lower bearing II 7-6 matches with the lower bearing bit platform of hollow mill spindle, described upper bearing (metal) II 7-7 matches with the upper bearing (metal) bit platform of hollow mill spindle, on described hollow mill spindle 7-2, be set with successively packing ring III 7-9, lock washer 7-10, locknut 7-11, match with upper bearing (metal) II 7-7 in the lower surface of described packing ring III 7-9, the lateral surface of described packing ring III 7-9 matches with upper oil sealing II 7-8; It is upper that described driven right helical gear II 7-4 is fixed on hollow mill spindle 7-2 by key pin, and the two ends of described driven right helical gear II 7-4 are respectively equipped with back-up ring; Described liquid supply group mechanism is fixed on the top of hollow mill spindle 7-2.

Described liquid supply group mechanism comprises liquid adapter sleeve 7-12 and liquid connector 7-13, in described liquid adapter sleeve 7-12, be set with successively and supply with lower bearing 7-14, spacer II 7-15, supply with upper bearing (metal) 7-16, described supply lower bearing 7-14 matches with the supply lower bearing bit platform of hollow mill spindle, described supply upper bearing (metal) 7-16 matches with the supply upper bearing (metal) bit platform of hollow mill spindle, and is fixed on hollow mill spindle by hole card 7-17; O shape circle II 7-18, oil sealing II 7-19 are housed on described liquid connector 7-13 successively, and described liquid connector 7-13 and liquid adapter sleeve 7-12 cooperatively interact, and are bolted to connection.The structure of the universal disc-grinding mechanism 8 in a described left side is identical with the structure of right universal disc-grinding mechanism 7.

With reference to Figure 10, described transmission mechanism 9 comprises reducer pedestal 9-1, reductor II 9-2, reductor synchronizing wheel 9-3, the tension force group 9-4 of mechanism, the first power transmission shaft 9-5, second driving shaft 9-6, the left helical gear 9-7 of the first active, the left helical gear 9-8 of the second active, the first transmission synchronizing wheel 9-9 and the second transmission synchronizing wheel 9-10, described reductor II 9-2 is fixed on the upper mounting plate of reducer pedestal 9-1, described reductor synchronizing wheel 9-3 is fixed on the output shaft of reductor II 9-2, the left helical gear 9-7 of described the first active is assemblied on the first power transmission shaft 9-5, the left helical gear 9-8 of described the second active is assemblied on second driving shaft 9-6, described the first power transmission shaft 9-5, second driving shaft 9-6 is clamped and is fitted in upper and lower ball bearing housing by axle respectively, and be fixed on reducer pedestal 9-1 by connector, described the first transmission synchronizing wheel 9-9 is fixed on the top of the first power transmission shaft 9-5, described the second transmission synchronizing wheel 9-10 is fixed on the top of second driving shaft 9-6, described the first transmission synchronizing wheel 9-9, the second transmission synchronizing wheel 9-10 is connected with reductor synchronizing wheel 9-3 by Timing Belt (not shown), the described tension force group 9-4 of mechanism is fixed on the upper mounting plate of reducer pedestal 9-1, and tensioning Timing Belt.The input of described reductor II 9-2 is connected with active motor by V belt.

Operation principle: control the motor of spindle rotation mechanisms 2 by electric control box 10, form eccentric compound motion while making the vacuum cup rotation of eccentric vacuum cup mechanism 4; By electric control box 10, control the break-make of vacuum; The slide block connecting plate of controlling right automatic hoisting mechanism 5, left automatic hoisting mechanism 6 by electric control box 10 moves up and down, and drive right universal disc-grinding mechanism 7, left universal disc-grinding mechanism 8 to move up and down, the helical gear that the helical gear of transmission mechanism 9 is followed right universal disc-grinding mechanism 7, left universal disc-grinding mechanism 8 moves up and down, thereby controls the height of active lifting and tonnage and the process time of lens grinding polishing; By electric control box 10, control initiatively motor, initiatively motor drives the reductor II of transmission mechanism 9 by V belt, reductor synchronizing wheel drives the synchronizing wheel on power transmission shaft by Timing Belt, then the helical gear on power transmission shaft drives right universal disc-grinding mechanism 7, left universal disc-grinding mechanism 8 relative vacuum suckers to do High Rotation Speed, machining lens product, and automatically revise relative moving flatness.

Connect after vavuum pump, first on eccentric vacuum cup, place the same external form silica gel piece of the different perforates of different product position, then eyeglass is directly placed on silica gel film perforation position, place on one side, crawl frequency converter, vacuum cup Rotate 180 degree is placed after dishful eyeglass, by electric control box, open the motor of vacuum valve and spindle rotation mechanism, eccentric vacuum cup starts rotation, rotating speed is set, light ballast is set and presses control valve pressure, automatic lifting height is set, the universal speed of grinding plate of twin shaft is set, fluid flow is set, value process time is set, PLC completes this product operation by initial set up routine, return to holding state.

Claims (8)

1. an eyeglass twin shaft one side grinding and polishing all-in-one, comprise frame, it is characterized in that: be also provided with spindle rotation mechanism, vacuum bindiny mechanism, eccentric vacuum cup mechanism, right automatic hoisting mechanism, left automatic hoisting mechanism, right universal disc-grinding mechanism, left universal disc-grinding mechanism, transmission mechanism and electric control box; Described spindle rotation mechanism is fixed in frame, and described vacuum bindiny mechanism, eccentric vacuum cup mechanism are connected with spindle rotation mechanism respectively; Described right automatic hoisting mechanism and left automatic hoisting mechanism are fixed in frame, and the universal disc-grinding mechanism in the described right side is contained in right automatic hoisting mechanism, and the universal disc-grinding mechanism in a described left side is contained in left automatic hoisting mechanism; Described transmission mechanism is fixed in frame, and described transmission mechanism is connected with the universal disc-grinding mechanism in the right side, left universal disc-grinding mechanism respectively; Described electric control box is connected with spindle rotation mechanism, right automatic hoisting mechanism, left automatic hoisting mechanism, transmission mechanism respectively;

Described spindle rotation mechanism comprises the initiatively left bevel gear set of motor mechanism, driven right helical gear I, hollow main shaft, collar bush, regulate locknut and promote self-aligning bearing, described driven right helical gear I is fixed on the lower end of hollow main shaft, and be connected with the initiatively left bevel gear set of motor mechanism, in described collar bush, be set with upper bearing (metal) I, upper oil sealing I, lower bearing I, lower oil sealing I, described upper bearing (metal) I matches with the upper bearing (metal) mounting plate of hollow main shaft, described lower bearing I matches with the lower bearing mounting plate of hollow main shaft, and fix by key pin, described collar bush is provided with Flange Plane boss, described Flange Plane boss is provided with concentric threads, and be connected with regulating locknut, described adjusting locknut is provided with concentric grooves and positioning screw, described promotion self-aligning bearing is assemblied on hollow main shaft, and match with regulating the concentric grooves of locknut.

2. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1, it is characterized in that: the initiatively left bevel gear set of described motor mechanism comprises reductor buck plate, reductor I, motor and the left helical gear of active, described reductor I is fixed on reductor buck plate, the power shaft of described reductor I is connected with motor, and the left helical gear of described active is assemblied on the output shaft of reductor I.

3. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1 and 2, it is characterized in that: described vacuum bindiny mechanism comprises bearing holder (housing, cover), vacuum connector, in described bearing holder (housing, cover), be set with successively the upper bearing, spacer I and the next bearing that match with hollow main shaft, and be fixedly connected with Kong Kayu hollow main shaft by axle card, in described vacuum connector, be set with the oil sealing I and the O shape circle I that match with hollow main shaft, and be fixedly connected with bearing holder (housing, cover) by connector.

4. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1 and 2, it is characterized in that: described eccentric vacuum cup mechanism comprises terminal pad, eccentric chassis and vacuum cup, the top of described hollow main shaft is successively through terminal pad, eccentric chassis, the main shaft disk of described hollow main shaft is fixedly connected with terminal pad, described terminal pad is fixedly connected with eccentric chassis, O shape circle is housed between the top of described hollow main shaft and eccentric chassis, between described eccentric chassis and vacuum cup, be provided with O shape circle, and be bolted to connection, described vacuum cup is provided with through hole.

5. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1 and 2, it is characterized in that: described right automatic hoisting mechanism comprises air cylinder lifting group, slide rail connecting plate, slide block connecting plate and cylinder connecting plate, described air cylinder lifting group comprises that cylinder, connecting screw rod, cylinder help pull a cart, described cylinder is fixed on cylinder connecting plate, described connecting screw rod is assemblied on cylinder helps pull a cart by locknut, described cylinder is helped pull a cart and is fixed on slide block connecting plate, the internal thread of cylinder rod coupling in the upper end of described connecting screw rod and cylinder; Described slide rail connecting plate is provided with slide rail, on described slide rail, slide block is housed; Described slide block connecting plate is provided with the groove matching with slide block, and is fixedly connected with slide block by connector; Described slide block connecting plate is provided with thousand parted hair fixed blocks, and described thousand are equipped with thousand separately on fixed blocks separately; The structure of described left automatic hoisting mechanism is identical with the structure of right automatic hoisting mechanism.

6. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1 and 2, is characterized in that: the universal disc-grinding mechanism in the described right side comprises mill and hollow mill spindle, axle sleeve, driven right helical gear II and liquid supply group mechanism; Between described mill and hollow mill spindle, elastic ring is housed, and is fixedly connected with by connector; In described axle sleeve, be set with lower oil sealing II, lower bearing II, upper bearing (metal) II, upper oil sealing II, described lower bearing II matches with the lower bearing bit platform of hollow mill spindle, described upper bearing (metal) II matches with the upper bearing (metal) bit platform of hollow mill spindle, on described hollow mill spindle, be set with successively packing ring III, lock washer, locknut, match with upper bearing (metal) II in the lower surface of described packing ring III, the lateral surface of described packing ring III matches with upper oil sealing II; Described driven right helical gear II is fixed on hollow mill spindle by key pin, and the two ends of described driven right helical gear II are respectively equipped with back-up ring; Described liquid supply group mechanism is fixed on the top of hollow mill spindle.

7. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 6, it is characterized in that: described liquid supply group mechanism comprises liquid adapter sleeve and liquid connector, in described liquid adapter sleeve, be set with successively and supply with lower bearing, spacer II, supply with upper bearing (metal), described supply lower bearing matches with the supply lower bearing bit platform of hollow mill spindle, described supply upper bearing (metal) matches with the supply upper bearing (metal) bit platform of hollow mill spindle, and fastens on hollow mill spindle by hole; O shape circle II, oil sealing II are housed on described liquid connector successively, and described liquid connector and liquid adapter sleeve cooperatively interact, and are bolted to connection; The structure of the universal disc-grinding mechanism in a described left side is identical with the structure of right universal disc-grinding mechanism.

8. eyeglass twin shaft one side grinding and polishing all-in-one according to claim 1 and 2, it is characterized in that: described transmission mechanism comprises reducer pedestal, reductor II, reductor synchronizing wheel, the first power transmission shaft, second driving shaft, the left helical gear of the first active, the left helical gear of the second active, the first transmission synchronizing wheel, the second transmission synchronizing wheel and tension force group mechanism, described reductor II is fixed on the upper mounting plate of reducer pedestal, described reductor synchronizing wheel is fixed on the output shaft of reductor II, the left helical gear of described the first active is assemblied on the first power transmission shaft, the left helical gear of described the second active is assemblied on second driving shaft, described the first power transmission shaft, second driving shaft is clamped and is fitted in upper and lower ball bearing housing by axle respectively, and be fixed on reducer pedestal by connector, described the first transmission synchronizing wheel is fixed on the top of the first power transmission shaft, described the second transmission synchronizing wheel is fixed on the top of second driving shaft, described the first transmission synchronizing wheel, the second transmission synchronizing wheel is connected with reductor synchronizing wheel by Timing Belt, described tension force group mechanism is fixed on the upper mounting plate of reducer pedestal, and tensioning Timing Belt.