CN209793350U - optical lens piece automatic processing all-in-one - Google Patents

Abstract

an automatic optical lens processing integrated machine comprises a material conveying module mechanism and at least four lens processing devices, wherein the material conveying module mechanism is used for conveying lenses on a material disc to a first lens processing device, conveying the lenses processed by the lens processing devices in the previous process to the lens processing devices in the next process for processing, and conveying the lenses processed by the lens processing devices in the last process to the finished disc for orderly placement; each lens processing device can automatically finish the work of position correction, feeding processing and material taking, thus realizing the automatic integrated processing of the optical lens, therefore, the utility model has high production efficiency and high processing precision; because each lens processing device is provided with the No. 1 position correcting mechanism for correcting the lens to be processed and the No. 2 position correcting mechanism for correcting the processed lens, seamless butt joint can be realized between the front working procedure and the rear working procedure without mutual influence, and the improvement of the processing efficiency is ensured.

Description

Optical lens piece automatic processing all-in-one

Technical Field

the utility model relates to an optical lens's processing equipment.

Background

currently, when an optical lens is processed, from the fine grinding to the polishing process, the optical lens is processed on different machines, so that the optical lens has the following defects during processing:

1. most of optical lens fine grinding and polishing equipment is manual;

2. the machine type is complicated, and the universality is not strong;

3. the machining precision is not sufficient;

4. All are single-side single-station processing;

5. the efficiency is not high, and the efficiency dependence on personnel is large;

6. the technical requirements on operators are high, and the debugging is troublesome.

therefore, the applicant develops an integrated processing machine which can automatically carry out the processes from fine grinding to polishing on the optical lens.

Disclosure of Invention

an object of the utility model is to overcome prior art not enough, provide an optical lens piece automatic processing all-in-one that production efficiency is high, the machining precision is high, its application scope is wide.

in order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides an optical lens piece automatic processing all-in-one, includes fortune material module mechanism, is located four at least lens processing equipment, the material dish of placing side by side of this fortune material module mechanism below, wherein:

the material conveying module mechanism comprises a transverse slide rail, a transverse slide block arranged on the transverse slide rail, a transverse driving motor for driving the transverse slide block to slide along the transverse slide rail, a longitudinal slide block arranged on the transverse slide block, a longitudinal driving motor for driving the longitudinal slide block to slide longitudinally along the transverse slide block, an integral adjusting plate arranged on the longitudinal slide block, a lifting cylinder for conveying arranged on the integral adjusting plate, a rotary cylinder which is arranged on the lifting cylinder for conveying and can vertically rotate for 90 degrees, a turn-over rotary cylinder arranged on the rotary cylinder, a clamping cylinder arranged on the turn-over rotary cylinder and a lens clamping finger driven by the clamping cylinder; the material conveying module mechanism is used for conveying the lenses to a first lens processing device, conveying the lenses processed by the lens processing device in the previous process to the lens processing device in the next process for processing, and conveying the lenses processed by the lens processing device in the last process to a finished product tray for stacking;

the lens processing equipment comprises an automatic feeding part and a grinding part, wherein the automatic feeding part comprises a machine table, a No. 1 position correcting mechanism, a No. 2 position correcting mechanism and a feeding mechanism which are arranged on the machine table, and the No. 1 position correcting mechanism and the No. 2 position correcting mechanism respectively comprise a position correcting material bearing block, a pair of position correcting clamping jaws positioned on the outer side of the position correcting material bearing block and a position correcting cylinder for driving the position correcting clamping jaws to open and close; the feeding mechanism comprises a lifting platform, a lifting cylinder for correcting the lifting of the lifting platform, a rotating motor arranged on the lifting platform, a rotating arm with one end arranged on a main shaft of the rotating motor, and a vacuum chuck arranged at the other end of the rotating arm; when the rotating motor drives the rotating arm to swing, the vacuum chuck can shift to the correcting positions of the No. 1 position correcting mechanism and the No. 2 position correcting mechanism and the grinding position of the grinding part.

In an improved scheme of the integrated machine for automatically processing the optical lens, the grinding part comprises a pen shaft, a pen shaft pressing die arranged at the lower end of the pen shaft, a pen shaft up-and-down adjusting mechanism connected with the pen shaft, a pen shaft front-and-back adjusting mechanism connected with the pen shaft up-and-down adjusting mechanism, a pen shaft left-and-right adjusting mechanism connected with the pen shaft front-and-back adjusting mechanism, a horizontal pushing mechanism for driving the pen shaft left-and-right adjusting mechanism to swing left and right, a lifting guide rail for guiding the horizontal pushing base of the horizontal pushing mechanism to the horizontal pushing base, and a lifting mechanism for driving the horizontal pushing base to lift.

In an improved scheme of the integrated machine for automatically processing the optical lens, the horizontal pushing mechanism comprises a horizontal pushing motor, a crank disk driven by the horizontal pushing motor and a crank shaft linked with the crank disk, and the output end of the crank shaft is connected with the left and right adjusting mechanism of the iron pen shaft.

in the improved scheme of the integrated machine for automatically processing the optical lens, the grinding part comprises a pen shaft, a pen shaft pressing die arranged at the lower end of the pen shaft, an inverted L-shaped pen shaft adjusting plate connected with the pen shaft, an arc swinging mechanism driving the pen shaft adjusting plate to swing back and forth, an arc swinging machine base used for placing the arc swinging mechanism, a lifting guide rail guiding the arc swinging machine base, and a lifting mechanism driving the arc swinging machine base to lift.

in the improved scheme of the integrated machine for automatically processing the optical lens, the arc swinging mechanism comprises an arc swinging motor and a rotating shaft which is driven to rotate by a synchronous pulley group, and the rotating shaft is connected with a stylus shaft adjusting plate.

Compared with the prior art, the beneficial effects of the utility model are that: 1) the material conveying module mechanism is used for conveying the lenses on the material disc to the first lens processing equipment, conveying the lenses processed by the lens processing equipment in the previous procedure to the lens processing equipment in the next procedure for processing, and conveying the lenses processed by the lens processing equipment in the last procedure to the finished product disc for orderly placement; each lens processing device can automatically finish the work of position correction, feeding processing and material taking, thus realizing the automatic integrated processing of the optical lens, therefore, the utility model has high production efficiency and high processing precision; 2) the lens is vertically placed, so that the size of the processed lens can be changed, and the application range of the automatic processing all-in-one machine is wide; 3) because each lens processing equipment has the position correcting mechanism No. 1 for correcting the position of the lens to be processed and the position correcting mechanism No. 2 for correcting the position of the processed lens, seamless butt joint can be realized between the front and the back procedures without mutual influence, thereby ensuring the improvement of the processing efficiency.

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

[ description of the drawings ]

fig. 1 is a first schematic perspective view of an embodiment of the present invention;

fig. 2 is a second schematic perspective view of the embodiment of the present invention;

Fig. 3 is a first perspective view of a material conveying module mechanism according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a material conveying module mechanism according to an embodiment of the present invention;

Fig. 5 is a first schematic perspective view of an automatic feeding portion of an embodiment of the present invention;

FIG. 6 is a second schematic perspective view of the automatic feeding portion of the embodiment of the present invention;

fig. 7 is a first perspective view (in a front view) of a first embodiment of the polishing portion of the present invention;

fig. 8 is a second perspective view (in a direction seen from the back) of a first embodiment of the grinding processing part of the present invention;

FIG. 9 is an enlarged view of section I of FIG. 7;

FIG. 10 is an enlarged view of detail II of FIG. 8;

Fig. 11 is a first perspective view (in a front view) of a second embodiment of the polishing portion of the present invention;

Fig. 12 is a second perspective view (in a direction seen from the back) of a second embodiment of the grinding processing part according to the present invention;

FIG. 13 is an enlarged view of portion III of FIG. 11;

fig. 14 is an enlarged view of a portion IV of fig. 12.

[ detailed description ] embodiments

the utility model relates to an optical lens piece automatic processing all-in-one, as shown in fig. 1 to 6, including fortune material module mechanism 1, be located four at least (because every face of lens is through correct grinding and polishing process at least, there are six) lens processing equipment, material dish 7 placed side by side of this fortune material module mechanism 1 below, wherein:

As shown in fig. 3 and 4, the material transporting module mechanism 1 includes a transverse slide rail 11, a transverse slide block 12 disposed on the transverse slide rail 11, a transverse driving motor 13 for driving the transverse slide block 12 to slide along the transverse slide rail 11, a longitudinal slide block 14 disposed on the transverse slide block 12, a longitudinal driving motor 15 for driving the longitudinal slide block 14 to slide longitudinally along the transverse slide block 12, an integral adjusting plate 16 disposed on the longitudinal slide block 14, and a lifting cylinder 17 for transporting material disposed on the integral adjusting plate 16, the manipulator clamping assembly comprises a rotary cylinder 18 which is arranged on the lifting cylinder 17 for transporting materials and can vertically rotate by 90 degrees, an overturning rotary cylinder 19 arranged on the rotary cylinder, a clamping cylinder 20 arranged on the overturning rotary cylinder 19, and a lens clamping finger 21 driven by the clamping cylinder 20, wherein the lifting cylinder 17 for transporting materials, the rotary cylinder 18, the overturning rotary cylinder 19, the clamping cylinder 20 and the lens clamping finger 21 form the manipulator clamping assembly; the material conveying module mechanism 1 is used for conveying the lenses to a first lens processing device, conveying the lenses processed by the lens processing device in the previous process to the lens processing device in the next process for processing, and conveying the lenses processed by the lens processing device in the last process to a finished product tray for orderly placement;

The lens processing equipment is used for processing the lens corresponding to the process (such as fine grinding or polishing, etc.), as shown in fig. 5 and 6, it includes an automatic feeding part 3 and a grinding processing part 5, said automatic feeding part 3 includes a machine table 31, a No. 1 position correcting mechanism 32, a No. 2 position correcting mechanism 33 and a feeding mechanism 34 mounted on the machine table 31, said No. 1 position correcting mechanism 32 and No. 2 position correcting mechanism 33 each include a correcting bearing block 301, a pair of correcting clamping jaws 302 located outside the correcting bearing block 301, a correcting cylinder 303 driving the correcting clamping jaws 302 to open and close; the feeding mechanism 34 includes a lifting table 341, a lifting cylinder 342 for positioning for driving the lifting table 341 to lift, a rotating motor 343 disposed inside the lifting table 341, a rotating arm 344 having one end fixed to a main shaft of the rotating motor 343, and a vacuum chuck 345 disposed at the other end of the rotating arm 344; when the rotating motor 343 drives the rotating arm 344 to swing, the vacuum chuck 345 can be shifted to the calibration position (i.e. the position of the calibration material-receiving block) of the No. 1 calibration mechanism 32 and the No. 2 calibration mechanism 33 and the grinding position of the grinding part; the lifting table 341, the rotary motor 343, the rotary arm 344 and the vacuum chuck 345 constitute an automatic feeding whole.

The working flow and the principle of the optical lens automatic processing all-in-one machine are as follows:

one, fortune material module mechanism 1 treats on the material dish 7 that a processing lens 8 sends to first lens processing equipment (grinding device promptly) and processes:

1) The rotating cylinder 18 rotates to enable the lens clamping finger 21 to vertically face downwards;

2) The transverse driving motor 13 and the longitudinal driving motor 15 work to enable the lens clamping fingers 21 to move to a set material taking position after the transverse sliding rail 11 and the longitudinal sliding block 14 slide transversely and longitudinally;

3) the lifting cylinder 17 for material transportation acts to integrally lower the turnover rotating cylinder 19, the clamping cylinder 20 and the lens clamping fingers 21;

4) the clamping cylinder 20 acts to vertically clamp an unprocessed lens on the material tray by the lens clamping finger 21, and the lifting cylinder 17 for material transportation acts to reset, so that the turnover rotating cylinder 19, the clamping cylinder 20 and the lens clamping finger 21 are reset and ascend integrally;

5) the rotating cylinder 18 is rotated and reset to enable the lens clamping finger 21 to be horizontal, and the lens is in a horizontal state;

6) The transverse driving motor 13 and the longitudinal driving motor 15 work to make the transverse slide rail 11 and the longitudinal slide block 14 slide transversely and longitudinally, and then the lens clamped by the lens clamping finger 21 moves to the position of the No. 2 position correcting mechanism 33 of the first lens processing equipment;

7) the lifting cylinder 17 for material transportation acts to enable the rotating cylinder 18, the turnover rotating cylinder 19, the clamping cylinder 20, the lens clamping fingers 21 and the clamped lens to integrally descend, so that the lens is placed on the position correcting material bearing block 301 of the position correcting mechanism 33 No. 2;

8) The position correction clamping jaw cylinder 303 of the No. 2 position correction mechanism 33 acts to enable the position correction clamping jaw 302 to clamp the lens;

9) The clamping cylinder 20 is reset, so that the lens clamping fingers 21 loosen the lens;

10) The lifting cylinder 17 for material transportation is reset, so that the rotating cylinder 18, the turnover rotating cylinder 19, the clamping cylinder 20 and the lens clamping fingers 21 are integrally lifted;

11) the position correction cylinder 303 of the No. 2 position correction mechanism 33 repeats loosening and clamping actions to correct the position of the lens;

12) The rotating motor 343 moves to enable the rotating arm 344 and the vacuum chuck 345 to run to the position of the No. 2 position correction mechanism 33;

13) the lifting cylinder 342 for position correction acts to make the automatic feeding whole composed of the lifting table 341, the rotating motor 343, the rotating arm 344 and the vacuum chuck 345 descend;

14) the vacuum of the vacuum sucker 345 is opened, and the lens on the No. 2 position correcting mechanism 33 is sucked; the position correction cylinder 303 resets to enable the position correction clamping jaw 302 to loosen the lens;

15) the lifting cylinder 342 for position correction is reset, so that the feeding material sucked by the lens integrally rises;

16) The rotating motor 343 moves to make the rotating arm 344 and the vacuum chuck 345 move to the grinding processing part 5;

17) the lifting cylinder 342 for position correction lowers the whole feeding material, and the lens sucked by the vacuum chuck 345 is placed at the processing position (which can be called as the position No. 4) of the grinding part 5;

18) the vacuum of the vacuum cup 345 is turned off;

19) the lifting cylinder 342 for position correction is reset to enable the feeding to integrally ascend;

20) The rotary motor 343 moves, and the rotary arm 344 and the vacuum chuck 345 move to a waiting position (which can be called as a No. 3 position); the cylinder of the splash-proof door (not marked in the figure) acts to close the splash-proof door, and the opening and closing of the splash-proof door are common structures in the field of lens processing, and are not detailed herein;

21) grinding part 5 starts to process the lens;

22) After the machining is finished, the cylinder of the splash-proof door (not marked in the figure) is reset, so that the splash-proof door is opened; the rotating motor 343 moves to move the rotating arm 344 and the vacuum chuck 345 to the No. 4 position of the grinding processing part 5;

23) the lifting cylinder 342 for position correction acts to enable the whole feeding to descend, and the vacuum suction cup 345 is opened in vacuum to suck the processed lens;

24) The lifting cylinder 342 for position correction acts to enable the feeding to rise integrally;

25) The rotating motor 343 moves to make the rotating arm 344 and the vacuum chuck 345 move to the position above the position-correcting material-bearing block 301 (i.e. the position No. 1) of the position-correcting mechanism 32 No. 1;

26) the lifting cylinder 342 for position correction acts to enable the whole feeding to descend;

27) The position correcting cylinder 303 of the No. 1 position correcting mechanism 32 acts to clamp the processed lens;

28) vacuum cup 345 is vacuum off;

29) the lifting cylinder 342 for position correction is reset to enable the feeding to integrally ascend;

30) the rotating motor 343 moves to enable the rotating arm 344 and the vacuum chuck 345 to move to the original position;

31) the transverse driving motor 13 and the longitudinal driving motor 15 work to make the transverse slide rail 11 and the longitudinal slide block 14 slide transversely and longitudinally, and then make the lens clamping finger 21 move to the position above the position correcting material bearing block 301 (i.e. the position 1) of the position correcting mechanism 32;

32) the lifting cylinder 17 for material transportation acts to enable the manipulator clamping assembly to descend;

33) the clamping cylinder 20 acts to clamp the processed lens by the lens clamping finger 21, and the position correcting cylinder 303 of the No. 1 position correcting mechanism 32 acts to reset to release the processed lens;

34) the lifting cylinder 17 for material transportation acts to reset, so that the manipulator clamping assembly rises;

35) The transverse driving motor 13 and the longitudinal driving motor 15 work to enable the transverse slide rail 11 and the longitudinal slide block 14 to slide transversely and longitudinally, and then the lens clamping finger 21 moves to the lens processing equipment of the next procedure;

36) and then, repeating the steps 7) to 34) to complete the processing of another step, wherein the reverse rotation cylinder 18 is operated first to reverse the lens by 180 degrees when the step 7) is performed on the other side of the lens to be processed.

after all the lens processing devices finish the procedures of fine grinding or polishing one surface of the lens, fine grinding or polishing the other surface and the like, the material conveying module mechanism 1 starts to work, and the finished lens on the position 1 aligning mechanism 32 of the lens processing device in the last procedure is clamped and sent to a finished lens tray.

as can be seen from the above, the material transporting module mechanism 1 is used for transporting the lens to the first lens processing equipment, transporting the lens processed by the lens processing equipment in the previous process to the lens processing equipment in the next process for processing, and transporting the lens processed by the lens processing equipment in the last process to the finished product tray for placement; and every lens processing equipment can accomplish the work of school position, pay-off processing, material completion again automatically and get the piece, just so can realize the automatic integrated processing of optical lens piece, consequently the utility model discloses a production efficiency is high, the machining precision is high.

the grinding part 5 can be a structure common to the current lens processing, and can also be a flat push or an arc pendulum to grind the lens:

when the mirror is ground by using the flat push method, the grinding processing part 5 includes a stylus shaft 51, a stylus shaft pressing die 52 installed at a lower end of the stylus shaft 51, a stylus shaft up-down adjusting mechanism 53 connected to the stylus shaft 51, a stylus shaft up-down adjusting mechanism 54 connected to the stylus shaft up-down adjusting mechanism 53, a stylus shaft left-right adjusting mechanism 55 connected to the stylus shaft up-down adjusting mechanism 54, a flat push mechanism 56 for driving the stylus shaft left-right adjusting mechanism 55 to swing left and right, a flat push base 57 for housing the flat push mechanism 56, a lifting guide rail 58 for guiding the flat push base 57, and a lifting mechanism for driving the flat push base 57 to lift, as shown in fig. 7 to 10. The horizontal pushing mechanism 56 includes a horizontal pushing motor 561, a crank plate 562 driven by the horizontal pushing motor 561, and a crank shaft 563 linked to the crank plate 562, and an output end of the crank shaft 563 is connected to the stylus shaft left-right adjusting mechanism 55. The up-down adjusting mechanism 53 for the iron pen shaft, the front-back adjusting mechanism 54 for the iron pen shaft and the left-right adjusting mechanism 55 for the iron pen shaft are adjusted and adjusted in the direction of Z, Y, X shaft by manually loosening the locking screws, so that the pressing die at the lower end of the iron pen shaft 51 is pressed on the lens to be ground on the grinding wheel 60, and after the adjustment is completed, the lens can be ground next, at this time: the horizontal pushing mechanism 56 and the lifting mechanism 59 drive the iron pen shaft 51 and the iron pen shaft pressing die 52 thereon to descend to a set processing position, the spindle motor moves, the grinding wheel 60 and the horizontal pushing motor 561 act, the crank disc 562, the crank shaft 563, the iron pen shaft left and right adjusting mechanism 55, the iron pen shaft front and back adjusting mechanism 54, the iron pen shaft up and down adjusting mechanism 53, the iron pen shaft 51 and the iron pen shaft pressing die 52 move along with the horizontal pushing mechanism, so that the iron pen shaft pressing die 52 drives the processing materials to perform a relative cutting motion on the spindle carborundum wheel until a set time or a set thickness is reached.

When the lens is ground in the arc pendulum manner, the grinding processing portion 5 includes a stylus shaft 51, a stylus shaft pressing die 52 installed at a lower end of the stylus shaft 51, an inverted "L" shaped stylus shaft adjusting plate 61 connected to the stylus shaft 51, an arc pendulum mechanism 62 driving the stylus shaft adjusting plate 61 to swing back and forth, an arc pendulum base 63 for housing the arc pendulum mechanism 62, a lifting guide rail 58 guiding the arc pendulum base 63, and a lifting mechanism 59 driving the arc pendulum base 63 to lift and lower, as shown in fig. 11 to 14. Here, the oscillating mechanism 62 includes an oscillating motor 621 and a rotating shaft 623 that is rotated by the timing pulley set 622, and the rotating shaft 623 is connected to the stylus shaft adjusting plate 61. The height of the iron pen shaft can be adjusted by manually loosening the locking screw in the iron pen shaft adjusting plate 61, and after the adjustment is completed, the iron pen shaft can be ground next, at the moment: the arc swinging mechanism 62 and the lifting mechanism 59 drive the stylus shaft adjusting plate 61 to descend to a set processing position, the spindle motor moves, the grinding wheel 60 and the arc swinging motor 621 move, and the arc swinging mechanism 62, the rotating shaft 623, the stylus shaft adjusting plate 61, the stylus shaft 51 and the stylus shaft pressing die 52 follow the movement, so that the stylus shaft pressing die 52 drives processing materials to move on the spindle carborundum wheel 60 until a set time or thickness is reached.

The lifting mechanism 59 comprises a ball screw 591 and a screw motor 592, and a screw nut of the ball screw 591 is connected with the horizontal pushing base 57 or the arc swinging base 63.

The working principle of the grinding process portion 5 (which is substantially identical to the current grinding working principle of the lens) is as follows:

(1) the lead screw motor 592 acts to enable the iron pen shaft pressing die 52 to run to be pressed on the lens to be processed;

(2) the grinding wheel 60 rotates to work while the horizontal pushing motor 561 or the arc swinging motor 621 moves, and the cutting fluid pump is started to supply cutting fluid;

(3) the flat push motor 561 or the arc swing motor 621 stops moving, the grinding wheel 60 stops rotating, the cutting liquid pump is closed, and the cutting liquid stops supplying;

(4) and the screw rod motor moves to drive the screw rod to act, so that the integral horizontal pushing (arc swinging) mechanism moves to a starting position.

although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the present disclosure, but rather to limit the scope thereof by the appended claims.

Claims (5)

1. the utility model provides an optical lens piece automatic processing all-in-one which characterized in that, including fortune material module mechanism (1), be located lens processing equipment, material dish (7) that four at least places side by side of this fortune material module mechanism (1) below, wherein:

the material conveying module mechanism (1) comprises a transverse slide rail (11), a transverse slide block (12) arranged on the transverse slide rail (11), a transverse driving motor (13) for driving the transverse slide block (12) to slide along the transverse slide rail (11), a longitudinal slide block (14) arranged on the transverse slide block (12), a longitudinal driving motor (15) for driving the longitudinal slide block (14) to slide longitudinally along the transverse slide block (12), and an integral adjusting plate (16) arranged on the longitudinal slide block (14), a lifting cylinder (17) for conveying material arranged on the integral adjusting plate (16), a rotating cylinder (18) which is arranged on the lifting cylinder (17) for conveying material and can vertically rotate for 90 degrees, a turnover rotating cylinder (19) arranged on the rotating cylinder, a clamping cylinder (20) arranged on the turnover rotating cylinder (19), and a lens clamping finger (21) driven by the clamping cylinder (20);

the lens processing equipment comprises an automatic feeding part (3) and a grinding processing part (5), wherein the automatic feeding part (3) comprises a machine table (31), a 1-position aligning mechanism (32), a 2-position aligning mechanism (33) and a feeding mechanism (34) which are arranged on the machine table (31), and the 1-position aligning mechanism (32) and the 2-position aligning mechanism (33) respectively comprise an aligning material bearing block (301), a pair of aligning clamping jaws (302) positioned on the outer side of the aligning material bearing block (301) and an aligning cylinder (303) for driving the aligning clamping jaws (302) to open and close; the feeding mechanism (34) comprises a lifting platform (341), a lifting cylinder (342) for correcting the lifting of the lifting platform (341), a rotating motor (343) arranged on the lifting platform (341), a rotating arm (344) with one end arranged on a main shaft of the rotating motor (343), and a vacuum sucker (345) arranged on the other end of the rotating arm (344); when the rotating motor (343) drives the rotating arm (344) to swing, the vacuum chuck (345) can be shifted to the correcting positions of the No. 1 position correcting mechanism (32) and the No. 2 position correcting mechanism (33) and the grinding position of the grinding processing part.

2. the integrated machine for automatically processing optical lenses according to claim 1, wherein the grinding part (5) comprises a stylus shaft (51), a stylus shaft pressing die (52) mounted at the lower end of the stylus shaft (51), a stylus shaft up-down adjusting mechanism (53) connected with the stylus shaft (51), a stylus shaft front-back adjusting mechanism (54) connected with the stylus shaft up-down adjusting mechanism (53), a stylus shaft left-right adjusting mechanism (55) connected with the stylus shaft front-back adjusting mechanism (54), a horizontal pushing mechanism (56) for driving the stylus shaft left-right adjusting mechanism (55) to swing left and right, a horizontal pushing base (57) for placing the horizontal pushing mechanism (56), a lifting guide rail (58) for guiding the horizontal pushing base (57), and a lifting mechanism (59) for driving the horizontal pushing base (57) to lift.

3. the integrated machine for automatically processing the optical lens according to claim 2, wherein the horizontal pushing mechanism (56) comprises a horizontal pushing motor (561), a crank disk (562) driven by the horizontal pushing motor (561), and a crank shaft (563) linked with the crank disk (562), and the output end of the crank shaft (563) is connected with the left and right adjusting mechanism (55) of the iron pen shaft.

4. the integrated machine for automatically processing the optical lens according to claim 1, wherein the grinding part (5) comprises a stylus shaft (51), a stylus shaft pressing die (52) arranged at the lower end of the stylus shaft (51), an inverted L-shaped stylus shaft adjusting plate (61) connected with the stylus shaft (51), an arc swinging mechanism (62) for driving the stylus shaft adjusting plate (61) to swing back and forth, an arc swinging base (63) for placing the arc swinging mechanism (62), a lifting guide rail (58) for guiding the arc swinging base (63), and a lifting mechanism (59) for driving the arc swinging base (63) to lift.

5. The all-in-one machine for automatically processing the optical lens as claimed in claim 4, wherein the arc pendulum mechanism (62) comprises an arc pendulum motor (621) and a rotating shaft (623) driven to rotate by a synchronous pulley set (622), and the rotating shaft (623) is connected with a stylus shaft adjusting plate (61).