CN112589592B - Device for processing lens to be applicable to spectacle lens - Google Patents

Abstract

The present invention relates to a device for processing a lens of eyeglasses, and more particularly to a device for processing a lens to be applicable to a lens of eyeglasses. The invention provides a device for processing lenses suitable for glasses, which can recycle water, precisely polish lenses and polish lenses with different shapes. An apparatus for processing lenses to be adaptable for use with eyeglass lenses, comprising: the polishing device comprises a base, a polishing mechanism and a polishing mechanism, wherein the polishing mechanism is arranged on the base; the cooling mechanism is arranged on the base. The invention realizes the polishing of the lens through the polishing mechanism and then realizes the cooling of the lens under the matching of the cooling mechanism, thus preventing the lens from overheating in the polishing process, wherein the cooling mechanism can also collect water.

Description

Device for processing lens to be applicable to spectacle lens

Technical Field

The present invention relates to a device for processing a lens of eyeglasses, and more particularly to a device for processing a lens to be applicable to a lens of eyeglasses.

Background

The lens is after the preparation shaping, people usually can carry out a series of processing to it, wherein polish and be a processing of comparatively important, people use the machine to go on to polishing of lens usually at present, but the grinding device common structure on the market is complicated at present, and mostly can only polish out the lens of single shape, because the lens can generate heat when polishing, and current grinding device can't realize the cooling to the lens usually, consequently just need artifical manual watering to cool off the lens when polishing the lens, but the time that the lens was polished is longer, just so need spill water to the lens for a long time, just so need extravagant more water.

Therefore, we need to develop a device for processing lenses applicable to spectacle lenses, which can recycle water, can precisely polish lenses and can polish lenses with different shapes.

Disclosure of Invention

In order to overcome the defects that most of the prior art can only grind a single-shaped lens and manually spray water to cool the lens, the invention has the technical problems that: the utility model provides a can carry out cyclic utilization to water, and can carry out the accurate lens of polishing and can polish out the device of processing the lens to applicable in the glasses lens of different shapes lens.

The technical implementation scheme of the invention is as follows: an apparatus for processing lenses to be adaptable for use with eyeglass lenses, comprising: the polishing device comprises a base, a polishing mechanism and a polishing mechanism, wherein the polishing mechanism is arranged on the base; the cooling mechanism is arranged on the base.

Optionally, the grinding mechanism comprises: the base is provided with a box body; the servo motor is arranged in the box body; the output shaft of the servo motor is provided with a first rotating shaft which is rotatably connected with the box body; the grinding wheel is arranged on the first rotating shaft.

Optionally, the cooling mechanism comprises: the first storage box is arranged on the box body; the first storage box is provided with a rubber pipe, and the rubber pipe penetrates through the box body; the base is provided with a second storage box, and a conduit is arranged between the second storage box and the first storage box; and a filter is connected between the second storage tank and the box body.

Optionally, a clamping mechanism is further included, the clamping mechanism comprising: the first connecting block is arranged in the box body; the first connecting block is connected with the air cylinder in a sliding manner; the first spring is arranged between the first connecting block and the cylinder; the cylinder telescopic rod is provided with a second rotating shaft; the top in the box body is provided with a second connecting block; the second connecting block is connected with a second sliding block in a sliding way; the first sliding block is rotatably connected with a first rotating shaft, and the first rotating shaft moves in the box body; the third connecting block is arranged in the box body; the third connecting block is connected with a second sliding block in a sliding manner; the second sliding block is rotatably connected with a fourth rotating shaft; the fourth rotating shaft is internally connected with a sixth rotating shaft in a sliding manner; the fifth rotating shaft is connected with the sixth rotating shaft in a sliding manner and slides in the box body; the third connecting block is provided with a roller; a second spring is arranged between the sixth rotating shaft and the fifth rotating shaft; a third spring is arranged between the sixth rotating shaft and the fourth rotating shaft; the screw rod is arranged on the sixth rotating shaft and is in rotating and sliding fit with the second rotating shaft; the nut is connected to the screw rod through threads.

Optionally, the apparatus further comprises a rotating mechanism, wherein the rotating mechanism comprises: the output shaft of the servo motor is provided with a first straight gear; the gearbox is arranged in the box body; the output shaft on one side of the gearbox is provided with a second straight gear which is meshed with the first straight gear; a third straight gear is arranged on an output shaft on the other side of the gearbox; the fourth straight gear is rotatably connected in the box body and meshed with the third straight gear; a first bevel gear set is arranged between the box body and the fourth straight gear, and is rotatably connected with the box body; a second bevel gear set is arranged between the third rotating shaft and the first bevel gear set and is in sliding connection with the first bevel gear set; the first bearing seat is arranged on the second bevel gear set in a rotating mode, and the third rotating shaft is connected with the first bearing seat in a rotating mode.

Optionally, a switch mechanism is further included, the switch mechanism comprising: the box body is provided with a row limiting block; the box body is provided with a plurality of sixth connecting blocks; the fourth sliding blocks are connected to the sixth connecting blocks in a sliding manner; the box body is provided with a plurality of slide rails; a third sliding block is arranged between the sliding rails in a sliding manner and is matched with the travel limiting block; the third sliding block is symmetrically provided with a third connecting block, and the third connecting block is matched with the third sliding block; the third sliding block is symmetrically provided with a third connecting block, and the third connecting block is matched with the fourth sliding block; and a fourth spring is arranged between the fourth sliding block and the sixth connecting block.

Optionally, the apparatus further comprises a circulation mechanism, wherein the circulation mechanism comprises: the bottom of the box body is provided with a second bearing seat; a first belt transmission component is arranged between the second bearing seat and the first rotating shaft and penetrates through the box body; a third bevel gear set is arranged between the first belt transmission assembly and the box body and is rotatably connected with the box body; the guide pipe is rotatably provided with a booster turbine; and a second belt transmission component is arranged between the second belt transmission component and the third bevel gear set and between the booster turbine and the third bevel gear set.

Alternatively, the volume of the second storage tank is 10L.

Has the advantages that: 1. the invention realizes the polishing of the lens through the polishing mechanism and then realizes the cooling of the lens under the matching of the cooling mechanism, thus preventing the lens from overheating in the polishing process, wherein the cooling mechanism can also collect water.

2. The clamping mechanism is arranged, so that the lens is clamped and fixed.

3. Through starting grinding mechanism, realize slewing mechanism's function, under slewing mechanism and clamping mechanism's cooperation after that, realize driving the lens and rotate, wherein under the cooperation of mould and gyro wheel, make that the lens is polished unanimous with the mould, so people only need change the mould, just can polish out the lens of different shapes.

4. By arranging the switch mechanism, the lens can be protected, and meanwhile, water can be prevented from splashing outwards.

5. Through being equipped with circulation mechanism, under grinding mechanism's cooperation, realize the cyclic utilization to water, and then better water economy resource.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a perspective view of a fourth embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a fifth partial body according to the present invention.

FIG. 7 is a schematic view of a sixth partial body structure according to the present invention.

Fig. 8 is a schematic structural view of a seventh partial body according to the present invention.

Fig. 9 is a schematic perspective view of an eighth partial structure of the present invention.

Fig. 10 is a schematic view of a ninth partial body structure according to the present invention.

FIG. 11 is a schematic view of a tenth partial body structure according to the present invention.

Fig. 12 is a schematic view of an eleventh partial body structure according to the present invention.

Fig. 13 is a schematic structural view of a twelfth partial body according to the present invention.

FIG. 14 is a schematic view of a thirteenth partial body according to the present invention.

FIG. 15 is a schematic view of a fourteenth partially separated body structure according to the present invention.

Reference numbers in the drawings: 1-base, 2-grinding mechanism, 20-box, 21-servo motor, 22-first rotating shaft, 23-grinding wheel, 3-cooling mechanism, 30-first storage box, 31-rubber tube, 32-second storage box, 33-filter, 4-clamping mechanism, 40-first connecting block, 41-cylinder, 42-first spring, 43-second rotating shaft, 44-second connecting block, 45-first slide block, 46-third rotating shaft, 47-third connecting block, 48-second slide block, 49-fourth rotating shaft, 410-fifth rotating shaft, 411-sixth rotating shaft, 412-roller, 413-second spring, 414-third spring, 415-screw rod, 416-nut, 5-rotating mechanism, 50-a first spur gear, 51-a gearbox, 52-a second spur gear, 53-a third spur gear, 54-a fourth spur gear, 55-a first bevel gear set, 56-a first bearing seat, 57-a second bevel gear set, 6-a switch mechanism, 60-a limiting block, 61-a third sliding block, 62-a fourth connecting block, 63-a fifth connecting block, 64-a sliding rail, 65-a sixth connecting block, 66-a fourth sliding block, 67-a fourth spring, 7-a circulating mechanism, 70-a second bearing seat, 71-a first belt transmission assembly, 72-a third bevel gear set, 73-a booster turbine and 74-a second belt transmission assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A device for processing lenses to be suitable for spectacle lenses is shown in figures 1, 2, 3, 4 and 5 and comprises a base 1, a polishing mechanism 2 and a cooling mechanism 3, wherein the polishing mechanism 2 is arranged on the base 1, and the cooling mechanism 3 is arranged on the base 1.

When people need use this device, at first people start grinding machanism 2, add sufficient water in to cooling machanism 3 after that, then just can remove the lens to grinding machanism 2 tops, make grinding machanism 2 polish the lens, wherein the water in cooling machanism 3 can flow to the lens on, cool off the lens, and then avoid the lens overheated at the in-process of polishing, treat after that and polish the completion, people just can take out the lens, so constantly repeat just can realize polishing fast to the lens, wherein fall to the water in grinding machanism 2 and can flow to cooling machanism 3 again in, when people need not use this device, it can to close grinding machanism 2.

Grinding machanism 2 is equipped with box 20 including box 20, servo motor 21, first pivot 22 and emery wheel 23 on the base 1, is equipped with servo motor 21 in the box 20, is equipped with first pivot 22 on the servo motor 21 output shaft, and first pivot 22 is connected with box 20 rotary type, is equipped with emery wheel 23 on the first pivot 22.

The cooling mechanism 3 comprises a first storage box 30, a rubber pipe 31, a second storage box 32 and a filter 33, the first storage box 30 is arranged on the box body 20, the rubber pipe 31 is arranged on the first storage box 30, the rubber pipe 31 penetrates through the box body 20, the second storage box 32 is arranged on the base 1, a conduit is arranged between the second storage box 32 and the first storage box 30, and the filter 33 is connected between the second storage box 32 and the box body 20.

At first people start servo motor 21, add sufficient water at first bin 30 after that, then people just can remove the lens to emery wheel 23 top, servo motor 21 output shaft drives emery wheel 23 through first pivot 22 and rotates, when treating emery wheel 23 and lens contact, emery wheel 23 polishes the lens, wherein water in the first bin 30 can be flowed down by rubber tube 31, and then flow to on the lens, fall to in the box 20 again after that, so just can avoid the lens overheated at the in-process of polishing, treat to polish the completion, people just can take out the lens, so just can realize polishing the high efficiency of lens, water in the box 20 can flow to the second bin 32 by filter 33 simultaneously, wherein filter 33 can filter water, so just can collect water, when people need not use this device, it can to close servo motor 21.

Example 2

On the basis of embodiment 1, as shown in fig. 2, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14 and fig. 15, the clamping mechanism 4 further includes a clamping mechanism 4, the clamping mechanism 4 includes a first connecting block 40, a cylinder 41, a first spring 42, a second rotating shaft 43, a second connecting block 44, a first slider 45, a third rotating shaft 46, a third connecting block 47, a second slider 48, a fourth rotating shaft 49, a fifth rotating shaft 410, a sixth rotating shaft 411, a roller 412, a second spring 413, a third spring 414, a lead screw 415 and a nut 416, the first connecting block 40 is disposed in the box 20, the cylinder 41 is slidably connected to the first connecting block 40, the first spring 42 is disposed between the first connecting block 40 and the cylinder 41, the second rotating shaft 43 is disposed on an expansion rod of the cylinder 41, the second connecting block 44 is disposed on an inner top of the box 20, the first connecting block 45 is slidably connected to the second connecting block 44, a third rotating shaft 46 is rotatably connected to the first slider 45, the third rotating shaft 46 moves in the box 20, a third connecting block 47 is arranged in the box 20, a second slider 48 is rotatably connected to the third connecting block 47, a fourth rotating shaft 49 is rotatably connected to the second slider 48, a sixth rotating shaft 411 is slidably connected to the fourth rotating shaft 49, a fifth rotating shaft 410 is slidably connected to the sixth rotating shaft 411, the fifth rotating shaft 410 slides in the box 20, a roller 412 is arranged on the third connecting block 47, a second spring 413 is arranged between the fifth rotating shaft 410 and the sixth rotating shaft 411, a third spring 414 is arranged between the sixth rotating shaft 411 and the fourth rotating shaft 49, a lead screw 415 is arranged on the sixth rotating shaft 411, the lead screw 415 is rotatably and slidably matched with the second rotating shaft 43, and a nut 416 is threadedly connected to the lead screw 415.

Firstly, people unscrew the nut 416, then sleeve the mold on the screw 415, then people rotate the nut 416 back to fix the mold, the mold contacts the roller 412, then people place the lens between the third rotating shaft 46 and the fifth rotating shaft 410, then start the cylinder 41, the telescopic rod of the cylinder 41 drives the second rotating shaft 43 to move left, the second rotating shaft 43 moves left to sleeve the screw 415, then the second rotating shaft 43 moves left continuously, the second rotating shaft 43 drives the screw 415, the nut 416 and the mold to move left, the screw 415 drives the sixth rotating shaft 411 to move left, the third spring 414 is compressed, then the sixth rotating shaft 411 drives the fifth rotating shaft 410 to move left through the second spring 413, the second spring 413 is compressed, the fifth rotating shaft 410 moves left to clamp the lens, then people can loosen the lens, thus the clamping of the lens can be realized, and when people need to take the lens down, the telescopic rod of the control cylinder 41 moves rightwards to reset, the telescopic rod of the cylinder 41 drives the second rotating shaft 43 to move rightwards, after the second rotating shaft 43 moves to be separated from the screw 415, the third spring 414 and the second spring 413 reset, and then the fifth rotating shaft 410, the sixth rotating shaft 411 and the screw 415 are driven to reset, at the moment, the fifth rotating shaft 410 and the third rotating shaft 46 do not clamp the lens any more, so that people can take the lens down conveniently, and when the device is not needed to be used by people, the cylinder 41 is closed.

The automatic transmission device also comprises a rotating mechanism 5, wherein the rotating mechanism 5 comprises a first straight gear 50, a gearbox 51, a second straight gear 52, a third straight gear 53, a fourth straight gear 54, a first bevel gear set 55, a first bearing seat 56 and a second bevel gear set 57, the first straight gear 50 is arranged on an output shaft of the servo motor 21, the gearbox 51 is arranged in the box body 20, the second straight gear 52 is arranged on an output shaft on one side of the gearbox 51, the second straight gear 52 is meshed with the first straight gear 50, the third straight gear 53 is arranged on an output shaft on the other side of the gearbox 51, the fourth straight gear 54 is connected in a rotating mode in the box body 20, the fourth straight gear 54 is meshed with the third straight gear 53, the first bevel gear set 55 is arranged between the box body 20 and the fourth straight gear 54, the first bevel gear set 55 is rotatably connected with the box body 20, the second bevel gear set 57 is arranged between the third rotating shaft 46 and the first bevel gear set 55, the second bevel gear set 57 is slidably connected with the first bevel gear set 55, the second bevel gear set 57 is rotatably provided with a first bearing seat 56, and the third rotating shaft 46 is rotatably connected with the first bearing seat 56.

When the lens is clamped, a user can start the servo motor 21, the output shaft of the servo motor 21 drives the first spur gear 50 to rotate, the first spur gear 50 drives the gearbox 51 to operate through the second spur gear 52, the output shaft of the gearbox 51 drives the third spur gear 53 to rotate, the third spur gear 53 drives the first bevel gear set 55 to rotate through the fourth spur gear 54, the first bevel gear set 55 drives the second bevel gear set 57 to rotate, the second bevel gear set 57 drives the third rotating shaft 46 to rotate, the third rotating shaft 46 further drives the lens and the fifth rotating shaft 410 to rotate, the fifth rotating shaft 410 rotates so as to rotate the mold, the mold rotates to be matched with the rollers 412, the lens is driven to move up and down through the fifth rotating shaft 410, so that the first sliding block 45 and the second sliding block 48 move up and down, the polishing of the lens can be consistent with the mold, wherein the mold drives the second rotating shaft 43 to move up and down through the screw 415, second pivot 43 and then drive cylinder 41 and reciprocate, and deformation constantly takes place for first spring 42, treats that the lens is polished and accomplishes, and people just can close servo motor 21, and control cylinder 41 telescopic link moves right, takes off the lens again after that, so people only need change the mould and just can polish out the lens of different shapes.

Still include on-off mechanism 6, on-off mechanism 6 is including having a limit line piece 60, third slider 61, fourth connecting block 62, fifth connecting block 63, slide rail 64, sixth connecting block 65, fourth slider 66 and fourth spring 67, be equipped with limit line piece 60 on the box 20, be equipped with a plurality of sixth connecting block 65 on the box 20, equal sliding connection has fourth slider 66 on the sixth connecting block 65, be equipped with a plurality of slide rails 64 on the box 20, sliding type is equipped with third slider 61 between the slide rail 64, third slider 61 and the cooperation of limit line piece 60, the symmetry is equipped with fourth connecting block 62 on the third slider 61, fourth connecting block 62 and the cooperation of fourth slider 66, the symmetry is equipped with fifth connecting block 63 on the third slider 61, fifth connecting block 63 and the cooperation of fourth slider 66, be equipped with fourth spring 67 between fourth slider 66 and the sixth connecting block 65.

When people need to use the device, firstly, the third slide block 61 is moved backwards, the third slide block 61 drives all the parts behind the third slide block to move upwards, the fourth connecting block 62 moves backwards to press the fourth slide block 66 at the back side, so that the fourth spring 67 at the back side is compressed, after the fourth connecting block 62 passes the fourth slide block 66 at the back side, the fourth spring 67 at the back side is reset, the fourth slide block 66 at the back side is reset, then when the fifth connecting block 63 moves backwards to be in contact with the fourth slide block 66 at the front side, the fourth slide block 66 at the front side is pressed, the fourth spring 67 at the front side is compressed, when the fifth connecting block 63 passes the fourth slide block 66 at the front side, the fourth spring 67 at the front side drives the fourth slide block 66 at the front side to reset, so that the fifth connecting block 63 is blocked, so that after people place the lens, the third slide block 61 can move downwards to block the box 20 again, thereby protect the lens for the lens can be more stable polish, and third slider 61 still can prevent that water outwards splashes simultaneously, and wherein the piece 60 of restricting a journey can block third slider 61, makes it can not too move downwards.

The circulating mechanism 7 comprises a second bearing seat 70, a first belt transmission assembly 71, a third bevel gear set 72, a booster turbine 73 and a second belt transmission assembly 74, the second bearing seat 70 is arranged at the bottom of the box body 20, the first belt transmission assembly 71 is arranged between the second bearing seat 70 and the first rotating shaft 22, the first belt transmission assembly 71 penetrates through the box body 20, the third bevel gear set 72 is arranged between the first belt transmission assembly 71 and the box body 20, the third bevel gear set 72 is rotatably connected with the box body 20, the booster turbine 73 is rotatably arranged on the guide pipe, and the second belt transmission assembly 74 is arranged between the booster turbine 73 and the third bevel gear set 72.

When the first rotating shaft 22 rotates, the first rotating shaft 22 drives the third bevel gear set 72 to rotate through the first belt transmission assembly 71, the third bevel gear set 72 drives the booster turbine 73 to operate through the second belt transmission assembly 74, the booster turbine 73 operates to further enable water in the second storage tank 32 to flow into the first storage tank 30 through the guide pipe, so that the water in the first storage tank 30 can be supplemented in time, meanwhile, water can be recycled, and further water resources are saved better.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. An apparatus for processing lenses to be adaptable for use with eyeglass lenses, comprising:

the polishing machine comprises a base (1), wherein a polishing mechanism (2) is arranged on the base (1);

the cooling mechanism (3) is arranged on the base (1);

the grinding mechanism (2) comprises:

the box body (20) is arranged on the base (1);

a servo motor (21), wherein the servo motor (21) is arranged in the box body (20);

a first rotating shaft (22) is arranged on an output shaft of the servo motor (21), and the first rotating shaft (22) is rotatably connected with the box body (20);

the first rotating shaft (22) is provided with a grinding wheel (23);

the cooling mechanism (3) includes:

the first storage tank (30) is arranged on the box body (20);

the rubber tube (31) is arranged on the first storage box (30), and the rubber tube (31) penetrates through the box body (20);

a second storage tank (32), wherein the base (1) is provided with the second storage tank (32), and a conduit is arranged between the second storage tank (32) and the first storage tank (30);

a filter (33), wherein the filter (33) is connected between the second storage tank (32) and the box body (20);

still include clamping mechanism (4), clamping mechanism (4) includes:

the first connecting block (40) is arranged in the box body (20);

the cylinder (41), the first connecting block (40) is connected with the cylinder (41) in a sliding way;

the first spring (42) is arranged between the first connecting block (40) and the air cylinder (41);

a second rotating shaft (43), and a telescopic rod of the air cylinder (41) is provided with the second rotating shaft (43);

the second connecting block (44) is arranged at the top in the box body (20);

the first sliding block (45) is connected to the second connecting block (44) in a sliding mode;

the first sliding block (45) is rotatably connected with a third rotating shaft (46), and the third rotating shaft (46) moves in the box body (20);

a third connecting block (47), wherein the third connecting block (47) is arranged in the box body (20); the second sliding block (48) is connected with the third connecting block (47) in a sliding way;

the fourth rotating shaft (49), the second sliding block (48) is rotatably connected with the fourth rotating shaft (49);

the sixth rotating shaft (411) is connected with the fourth rotating shaft (49) in a sliding manner;

the fifth rotating shaft (410) is connected with the sixth rotating shaft (411) in a sliding mode, and the fifth rotating shaft (410) slides in the box body (20);

the roller (412) is arranged on the third connecting block (47);

a second spring (413), wherein the second spring (413) is arranged between the sixth rotating shaft (411) and the fifth rotating shaft (410);

a third spring (414), wherein the third spring (414) is arranged between the sixth rotating shaft (411) and the fourth rotating shaft (49);

the screw rod (415) is arranged on the sixth rotating shaft (411), and the screw rod (415) is in rotating and sliding fit with the second rotating shaft (43);

the nut (416) is connected to the screw rod (415) in a threaded mode through the nut (416).

2. A device for machining lenses to be applied to spectacle lenses, according to claim 1, further comprising a rotating mechanism (5), the rotating mechanism (5) comprising:

a first straight gear (50) is arranged on an output shaft of the servo motor (21);

a gearbox (51) is arranged in the box body (20);

a second spur gear (52) is arranged on an output shaft on one side of the gearbox (51), and the second spur gear (52) is meshed with the first spur gear (50);

a third straight gear (53), wherein the output shaft on the other side of the gearbox (51) is provided with the third straight gear (53);

a fourth straight gear (54) is rotationally connected in the box body (20), and the fourth straight gear (54) is meshed with the third straight gear (53);

a first bevel gear set (55) is arranged between the box body (20) and the fourth straight gear (54), and the first bevel gear set (55) is rotatably connected with the box body (20);

a second bevel gear set (57) is arranged between the third rotating shaft (46) and the first bevel gear set (55), and the second bevel gear set (57) is connected with the first bevel gear set (55) in a sliding manner;

the first bearing seat (56) is rotationally arranged on the second bevel gear set (57), the third rotating shaft (46) is rotationally connected with the first bearing seat (56).

3. A device for machining lenses to be suitable for spectacle lenses according to claim 2, characterised by comprising a switching mechanism (6), the switching mechanism (6) comprising:

the box body (20) is provided with a limiting block (60);

the box body (20) is provided with a plurality of sixth connecting blocks (65);

the fourth sliding blocks (66) are connected to the sixth connecting blocks (65) in a sliding mode;

the box body (20) is provided with a plurality of slide rails (64);

a third sliding block (61) is arranged between the sliding rails (64) in a sliding manner, and the third sliding block (61) is matched with the limiting block (60);

the third sliding block (61) is symmetrically provided with a fourth connecting block (62), and the fourth connecting block (62) is matched with the fourth sliding block (66);

the fifth connecting block (63) is symmetrically arranged on the third sliding block (61), and the fifth connecting block (63) is matched with the fourth sliding block (66);

and a fourth spring (67) is arranged between the fourth sliding block (66) and the sixth connecting block (65).

4. A device for machining lenses to be applied to spectacle lenses according to claim 3, characterised in that it comprises a circulating mechanism (7), the circulating mechanism (7) comprising:

the second bearing block (70) is arranged at the bottom of the box body (20);

a first belt transmission component (71), wherein a first belt transmission component (71) is arranged between the second bearing seat (70) and the first rotating shaft (22), and the first belt transmission component (71) penetrates through the box body (20);

a third bevel gear set (72), wherein the third bevel gear set (72) is arranged between the first belt transmission assembly (71) and the box body (20), and the third bevel gear set (72) is rotatably connected with the box body (20);

a booster turbine (73), the guide pipe is rotatably provided with the booster turbine (73);

and a second belt transmission assembly (74) is arranged between the second belt transmission assembly (74) and the third bevel gear set (72) and the booster turbine (73).

5. An apparatus for processing lenses to be used in spectacle lenses according to claim 1, wherein: the volume of the second storage tank (32) is 10L.

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