CN110465978A - Cutting tool, cutting apparatus and the cutting method using it - Google Patents

Abstract

The present invention discloses its cutting method of a kind of cutting tool, cutting apparatus and application.Cutting apparatus is to cut optics wound membrane.Cutting apparatus includes cutting tool and container.Cutting tool is to cut optics wound membrane.Container is to receiving surface treatment fluid, and surface treatment liquid is to clean cutting tool.The ingredient that the present invention can improve optics wound membrane is attached the cutting tool the problem of.

Description

Cutting tool, cutting apparatus and the cutting method using it

Technical field

The present invention relates to a kind of cutting tool, cutting apparatus and using its cutting method.

Background technique

When cutting optics wound membrane, optics wound membrane attaches on cutting tool at branch.These attach ingredient in next time The face that cuts of optics wound membrane can be remained in when cutting, and the face of cutting is polluted.Therefore, it needs to propose a kind of to improve optics The ingredient of wound membrane attaches the technology in cutting tool.

Summary of the invention

Therefore, the present invention proposes its cutting method of a kind of cutting tool, cutting apparatus and application, can improve existing ask Topic.

One embodiment of the invention proposes a kind of cutting tool.Cutting tool is to cut an optics wound membrane and including a cutter hub And roughened textures.Cutter hub has a knife face, and roughened textures are formed in knife face, and roughened textures include multiple recess portions.

Wherein, the cutter hub and the roughened textures are one of the forming structure.

Wherein, further include: a surface treatment liquid is attached in the roughened textures.

Wherein, which is liquid antistatic.

Wherein, which includes solvent and antistatic agent, and the weight percent of the antistatic agent accounts for the solvent 0.1%~5% and/or the solvent include alcohol and water, wherein the ratio of the alcohol and the water is between 1:1~3:7.

Wherein, respectively the internal diameter of the recess portion between 5 microns and 80 microns.

Wherein, which be formed on the knife face with sandblasting, water knife or laser.

One embodiment of the invention proposes a kind of cutting apparatus.Cutting apparatus is to cut an optics wound membrane.Cutting apparatus packet Include a cutting tool and a container.Cutting tool is to cut optics wound membrane.Container is to accommodate a surface treatment liquid, at surface Liquid is managed to clean and/or be coated with cutting tool.

Wherein, further include: a surface treated elements contact with the cutting tool and surface treated elements part entrance should In surface treatment liquid, the surface treatment liquid is made to clean and/or be coated with the cutting tool by the surface treated elements.

Wherein, which includes mould release.

Wherein, the rotation direction of the surface treated elements and the rotation direction of the cutting tool be reversed or the surface at The revolving speed of the revolving speed and the cutting tool of managing element is different.

Wherein, the cutting tool with one cleaning length contacted with the surface treated elements, the surface treated elements with one into Enter depth to enter in the surface treatment liquid, this enters depth at least equal to the cleaning length.

Wherein, which is siloxane polymer and/or fluorochemical.

Wherein, which is cutting tool above-mentioned.

Another embodiment of the present invention proposes a kind of cutting method.Cutting method includes the following steps.Aforementioned cut is provided to set It is standby；The cutting tool of cutting apparatus cuts optics wound membrane；And the surface treatment liquid cleaning and/or coating of cutting apparatus are cut Cutter.

Wherein, which further includes: a surface treated elements, contacts with the cutting tool and the surface treated elements Part enters in the surface treatment liquid, and the surface treatment liquid is made to clean and/or be coated with the cutting knife by the surface treated elements Tool.

Wherein, it further includes: controlling the rotation direction of the surface treated elements and the rotation direction of the cutting tool, make the table The rotation direction of surface treatment element and the rotation direction of the cutting tool are reversed, or control turning for the surface treated elements The revolving speed of speed and the cutting tool, keeps the revolving speed of the surface treated elements different with the revolving speed of the cutting tool.

Wherein, the cutting tool with one cleaning length contacted with the surface treated elements, the surface treated elements with one into Enter depth to enter in the surface treatment liquid, this enters depth at least equal to the cleaning length.

Wherein, which includes mould release.

Wherein, which is siloxane polymer and/or fluorochemical.

Wherein, which is liquid antistatic.

Wherein, which includes solvent and antistatic agent, and the weight percent of the antistatic agent accounts for the solvent 0.1%~5% and/or the solvent include alcohol and water, wherein the ratio of the alcohol and the water is between 1:1~3:7.

More preferably understand to have to above and other aspect of the invention, below in conjunction with the drawings and specific embodiments to this Invention is described in detail, but not as a limitation of the invention.

Detailed description of the invention

FIG. 1 to FIG. 2 is painted the schematic diagram of the cutting apparatus according to one embodiment of the invention.

Fig. 3 is painted the schematic diagram of the cutting tool cutting optics wound membrane of Fig. 1.

Fig. 4 is painted the cross-sectional view of the cutting tool according to another embodiment of the present invention.

The cutting surface that Fig. 5 is painted the optical diaphragm of an embodiment according to the present invention is attached with the schematic diagram of surface treatment liquid.

Wherein, appended drawing reference:

10: optics wound membrane

10 ': ingredient

10a: optical diaphragm

10s: face is cut

11: the first protective layers

12: the first coatings

13: polarizing layer

14: the second coatings

15: mucigel

15s: viscose face

16: the second protective layers

100: cutting apparatus

110: transmission wheel

120: bearing against wheel

130,230: cutting tool

130s: surface

140: container

150: surface treated elements

231: cutter hub

232: roughened textures

231s: knife face

232r: recess portion

A1: dotted line

C1: surface treatment liquid

D1, D2: rotation direction

L1: cleaning length

L2: enter depth

L3: thickness is cut

P1: place is cut

T1: contact zone

T11, T12: tangential direction

W1: internal diameter

Specific embodiment

FIG. 1 to FIG. 3 is please referred to, FIG. 1 to FIG. 2 is painted the schematic diagram of the cutting apparatus 100 according to one embodiment of the invention, and The cutting tool 130 that Fig. 3 is painted Fig. 1 cuts off the schematic diagram of optics wound membrane 10.

As shown in Figure 1, cutting apparatus 100 is to cut optics wound membrane 10.Cutting apparatus 100 includes at least one transmission wheel 110, wheel 120, at least one cutting tool 130, at least a container 140 and a surface treated elements 150 are born against.Several transmission wheels 110 to transmit optics wound membrane 10, and optics wound membrane 10 can be held in and be transmitted in wherein the two of these transmission wheels 110 Between.

Although figure is not painted, right cutting apparatus 100 can further include a control module, the controllable transmission wheel of this control module 110, the operating of wheel 120, cutting tool 130 and surface treated elements 150 is born against.For example, control module may include controller and Driver, wherein controller is, for example, the circuit made of semiconductor technology, and driver is, for example, motor.Motor is electrically connected Transmission wheel 110 bears against wheel 120, cutting tool 130 and surface treated elements 150, and controller controllable motor is made to drive these members Part rotation, e.g. controls the revolving speed of these elements.

Transmission wheel 110 can transmit optics wound membrane 10 by cutting tool 130 and bear against between wheel 120.It bears against wheel 120 and cuts out Cutter 130 is oppositely disposed.Cutting tool 130 is to cut optics wound membrane 10.Bearing against wheel 120 can be used as holding for optics wound membrane 10 It leans on, allows cutting tool 130 that can cut off optics wound membrane 10.

As shown in Figures 1 and 2, for container 140 to receiving surface treatment fluid C1, surface treatment liquid C1 is cleanable and/or applies Cloth cutting tool 130, to remove the impurity on cutting tool 130.In addition, surface treatment liquid C1 can also be coated on cutting tool 130 surface 130s, so avoid or reduce these impurity remain in when cutting next time optics wound membrane 10 cut on face or On the surface of cutting tool 130.The embodiment of the present invention be not limited to surface treatment liquid C1 must be provided simultaneously with cleaning and coating (or apply Layer) function, in another embodiment, surface treatment liquid C1 can have one of cleaning and coating function.

In one embodiment, as shown in Figure 1, optics wound membrane 10 includes the first protective layer 11, the first coating 12, polarizing layer 13, the second coating 14, mucigel 15 and the second protective layer 16.Polarizing layer 13 is formed in the first coating 12 and the second coating Between 14.First protective layer 11 is set on the first coating 12.Mucigel 15 is set to the second coating 14 and the second protection Between layer 16, on subsequent bonding to a liquid crystal display panel (not shown).In one embodiment, the light of the embodiment of the present invention Learning wound membrane 10 can be monofilm or be multilayer film.For example, optics wound membrane 10 may include at least one layer of aforementioned several layers of structure.

The material of first coating 12 and the second coating 14 can be selected from by Triafol T (TriacetateCellulose, TAC), polymethyl methacrylate (Polymethylmethacrylate, PMMA), poly- second Alkene terephthalate (Polyethylene Terephthalate, PET), polypropylene (Polypropylene, PP), cyclenes Hydrocarbon polymer (Cyclo Olefin Polymer, COP), polycarbonate (Polycarbonate, PC) or above-mentioned any combination A composed group.

Polarizing layer 13 can be polyvinyl alcohol (polyvinyl alcohol, PVA) film of the dichroism pigment of absorption orientation Or mixed by liquid crystal material attach absorb dye molecule formed.Polyvinyl alcohol can be formed by saponifying polyvinyl acetate.In In some embodiments, polyvinyl acetate can be single polymers of vinyl acetate or the copolymer of vinyl acetate and other monomers Deng.Above-mentioned other monomers can be unsaturated carboxylic acid class, olefines, unsaturated sulfonic acid class or vinyl ethers etc..In other realities Apply in example, polyvinyl alcohol can be modified polyvinyl alcohol, for example, through aldehydes modification polyvinyl formal, polyethylene acetaldehyde or Polyvinyl butyral etc..

First protective layer 11 can be by polyester resin, olefin resin, acetyl cellulose resins, polycarbonate resin, acrylic acid Resin, polybutylene terephthalate (polyethylene terephthalate, PET), polyethylene (polyethylene, PE) or polypropylene (Polypropylene, PP), cyclic olefin resins or combinations of the above, wherein polyester resin is, for example, poly- to benzene Dioctyl phthalate second diester or polyethylene naphthalate, and acrylic resin is, for example, polymethyl methacrylate (PMMA).

Mucigel 15 can e.g. may include, but are not limited to official by being, for example, that the material of (methyl) acrylic copolymer is made The material of energy base, such as (methyl) methyl acrylate, (methyl) ethyl acrylate, (methyl) butyl acrylate, (methyl) acrylic acid The materials such as 2- ethylhexyl.

Second protective layer 16 is, for example, release layer, can be for example the polyethylene terephthalate that surface is coated with mould release Ester film, wherein mould release is for example but not limited to silicone resin.In this way, the second protective layer 16 is easy to remove from mucigel 15, To expose mucigel 15, the optics wound membrane 10 after cutting is made to pass through the bonding of mucigel 15 to liquid crystal display panel (not shown).

In one embodiment, optics wound membrane 10 is selectively included the ingredient of not optically focused, e.g. cyclic olefin polymer (Cyclo Olefin Polymer,COP).The ingredient of such not optically focused will lead to laser and can not focus, and causing can not be primary Cut off optics wound membrane 10.The embodiment of the present invention is reviewed, as shown in figure 3, can once cut off optics wound membrane using cutting tool 130 10, it is not influenced by 10 material of optics wound membrane.It in another embodiment, can be first before cutting tool 130 cuts optics wound membrane 10 Using the segment thickness of laser cutting optics wound membrane 10, optics wound membrane 10 is then cut off by cutting tool 130 again.In this embodiment In, the laser generator for emitting laser may be provided at the upstream of cutting tool 130, as Fig. 1 dotted line A1 at.In addition, laser produces The quantity of raw device can be equal with the quantity of cutting tool 130.

When cutting tool 130 cuts optics wound membrane 10, (the e.g. viscose of ingredient 10 ' of the layer structure of optics wound membrane 10 Layer 15 ingredient) can attach on cutting tool 130, cause it is subsequent cut optics wound membrane 10 when, attach in cutting tool 130 Ingredient 10 ' remain in the cutting on face 10s (the face 10s of cutting is shown in Fig. 3) of optics wound membrane 10.

It in the present embodiment, include a mould release in surface treatment liquid C1.As 130 contact surface treatment fluid C1 of cutting tool When, mould release, which can be coated with, to be attached on cutting tool 130.Mould release can reduce ingredient 10 ' to the attaching property of cutting tool 130, And then it reduces ingredient 10 ' and attaches the quantity in cutting tool 130.In addition, the material of surface treatment liquid C1 includes a siloxanes Polymer, for example, silicon (Silicone) and/or surface treatment liquid C1 can further include a fluorochemical.

As shown in Figures 1 and 2, surface treated elements 150 are directly to contact with cutting tool 130.At 130 turns of cutting tool When dynamic, 150 erasable cutting tool 130 of surface treated elements is attached on cutting tool 130 with mandatory removal (as wiped) Ingredient 10 '.The ingredient 10 ' being removed is transferred on surface treated elements 150, is transferred to the ingredient of surface treated elements 150 10 ' are brought into the surface treatment liquid C1 in container 140 by the rotation of surface treated elements 150, to reduce surface treatment member 10 ' quantity of ingredient on part 150 '.In other words, it can produce by the rotation of surface treated elements 150 to surface treated elements 150 Cleaning and/or Painting effect.When the 10 ' quantity of ingredient dissolved in surface treatment liquid C1 can be more and more, at replaceable surface Manage liquid C1.

In another embodiment, cutting apparatus 100 further includes a filtering module (not being painted), connects container 140, can incite somebody to action Surface treatment liquid C1 in container 140 is exported outward to a filter, after filter filters out ingredient 10 ', then will be (net after filtering After change) surface treatment liquid C1 be recycled in container 140.In this way, the surface treatment liquid C1 in container 140 can not be needed to change, or Reduce the replacement frequency of the surface treatment liquid C1 in container 140.

In one embodiment, as shown in Figure 1, the rotation of the rotation direction D1 of surface treated elements 150 and cutting tool 130 Direction D2 is reversed.For example, the rotation direction D1 of surface treated elements 150 is counterclockwise, and the rotation direction of cutting tool 130 D2 is clockwise.In another embodiment, the rotation direction D1 of surface treated elements 150 can be clockwise, and cutting tool 130 Rotation direction D2 can be counterclockwise.In this way, in the contact zone T1 of surface treated elements 150 and cutting tool 130, surface treatment The tangential direction T11 of element 150 and the tangential direction T12 of cutting tool 130 are in the same direction, and it is excessive can to reduce surface treated elements 150 Rub cutting tool 130, and then reduces the abrasion of cutting tool 130 (compared to this, when the tangent line side of surface treated elements 150 To T11 and cutting tool 130 tangential direction T12 it is reversed when, surface treated elements 150 and the abrasion of cutting tool 130 can increase Add).

In addition, the revolving speed of the revolving speed of surface treated elements 150 and cutting tool 130 is different.For example, surface treated elements 150 revolving speed is slower than the revolving speed of cutting tool 130, and it is opposite with cutting tool 130 that this speed difference can increase surface treated elements 150 Amount of movement attaches the ingredient 10 ' on cutting tool 130 with removal.In one embodiment, the revolving speed of surface treated elements 150 Between 0.5 and 2, this ratio range is enough to remove to be attached on cutting tool 130 ratio with the revolving speed of cutting tool 130 Ingredient 10 ', and be unlikely to cause the excessive wear of cutting tool 130 or surface treated elements 150 again.

In addition, the revolving speed of surface treated elements 150 is slower, the cleaning of surface treated elements 150 and/or coating cutting tool 130 effect is poorer；The revolving speed of surface treated elements 150 is faster, and surface treated elements 150 get rid of surface treatment liquid C1 to cutting The chance of cutter 130 is bigger or measures the more.

As shown in Figure 1,150 part of surface treated elements enters in surface treatment liquid C1, turning surface treated elements 150 Surface treatment liquid C1 can be adhered to when dynamic, and then keeps the surface treatment liquid C1 in rotation of surface treated elements 150 regular clear Clean and/or coating cutting tool 130.In one embodiment, surface treated elements 150 are, for example, sponge, are can absorb at surface Liquid C1 is managed, and the surface treatment liquid C1 of absorption is transmitted to cutting tool 130 by capillary phenomenon, allows more surface treatment liquids C1 cleaning and/or coating cutting tool 130.Under this design, surface treated elements 150 are not rotated optionally, pass through sea Continuous sorbent surface treatment fluid C1 can cleanable and/or coating cutting tool 130.In another embodiment, surface treated elements 150 It can be other type materials, such as rubber or plastics.

In addition, as shown in Fig. 2, making surface treated elements since surface treated elements 150 have soft property and/or elasticity 150 are in close contact with cutting tool 130.In this way, can enhanced surface treatment element 150 removal remain on cutting tool 130 The effect of ingredient 10 '.

As shown in Fig. 2, cutting tool 130 is contacted with cleaning length L1 with surface treated elements 150, surface treated elements 150 into depth L2 to enter in surface treatment liquid C1, into depth L2 at least equal to cleaning length L1, makes through container 140 The surface treated elements 150 of interior surface treatment liquid C1 absorb enough surface treatment liquid C1 and remove the clear of cleaning cutting tool 130 The part of clean length L1.As shown in Figures 1 and 3, cleaning length L1, which is generally equal to or greater than, cuts thickness L3, so that by light The part (cleaning the part of length L1) for learning the cutting tool 130 for entirely cutting face 10s of wound membrane 10 has received cleaning and/or painting Cloth, and then reduce or even avoid remaining in the quantity for cutting the ingredient 10 ' on the 10s of face.

In one embodiment, as shown in Figure 1, cutting tool 130 and the place P1 that cuts of optics wound membrane 10 are located at container 140 Top.In this way, because the particle of ingredient 10 ' caused by cutting can wholly or largely be fallen in container 140, to avoid Local environment of the particle contamination of ingredient 10 ' to cutting apparatus 100.As shown in Fig. 2, the quantity of container 140 and cutting tool 130 It is equal.In another embodiment, the quantity of container 140 can be one, and whole cutting tools 130 of cutting apparatus 100 can position In the surface of container 140, similar technical effect above-mentioned can reach.

The cutting method of one embodiment of the invention includes the following steps.Firstly, providing aforementioned cutting apparatus 100.Then, it cuts out The cutting tool 130 for cutting equipment 100 cuts optics wound membrane 10.Then, cutting apparatus 100 surface treatment liquid C1 cleaning and/or It is coated with cutting tool 130.

Referring to figure 4., it is painted the cross-sectional view of the cutting tool 230 according to another embodiment of the present invention.Previous embodiment The cutting tool 130 of cutting apparatus 100 can also be replaced with the cutting tool 230 of the present embodiment.

Cutting tool 230 includes cutter hub 231 and roughened textures 232.Cutter hub 231 has knife face 231s, and is roughened knot Structure 232 is formed in knife face 231s.Roughened textures 232 include several recess portion 232r.

Cutter hub 231 and roughened textures 232 can be integrally formed structure.For manufacturing method, it can be used e.g. Sandblasting, water knife, laser or other appropriate technologies are formed on the knife face 231s of cutter hub 231, are formed by the range of recess portion 232r Constitute roughened textures 232.For recess portion size, for sandblasting, it is formed by the recess portion 232r of roughened textures 232 Internal diameter W1 generally between about 5 microns and about 80 microns, preferably can be between about 10 microns and about 50 microns.It is so recessed The actual range of the internal diameter W1 of portion 232r can might be less that about 5 microns, or greater than about 80 microns, this hair depending on the process Bright embodiment is not limited.

As shown in figure 4, the roughened textures 232 of the embodiment of the present invention can by the contact mode of cutter and optics wound membrane 10 by Face contact is transformed into point contact, can reduce the frictional resistance that cutting tool 230 cuts optics wound membrane 10.In addition, as shown in figure 4, Surface treatment liquid C1 is attached in roughened textures 232, such as in the recess portion 232r of roughened textures 232, therefore can be increased Add the hydrodynamic lubrication between cutter 230 and optics wound membrane 10, more reduction cutting tool 230 cuts the friction resistance of optics wound membrane 10 Power.

Referring to figure 5., the cutting surface 10s for being painted the optical diaphragm 10a of an embodiment according to the present invention is attached with surface The schematic diagram for the treatment of fluid C1.

230 severing optics wound membrane 10 of cutting tool, to cut out optical diaphragm 10a.It is several recessed due to cutting tool 230 Portion 232r accommodates surface treatment liquid C1, therefore after cutting, and surface treatment liquid C1 can adhere to the cutting surface of optical diaphragm 10a In at least part of 10s.Since cutting tool 230 is by the whole thickness of optical diaphragm 10a, cutting surface 10s includes The severing of first protective layer 11, the first coating 12, polarizing layer 13, the second coating 14, mucigel 15 and the second protective layer 16 Face.Surface treatment liquid C1 is attached to the range of the cutting surface 10s of optical diaphragm 10a by the range and/or table of roughened textures 232 Surface treatment liquid C1 is attached to depending on the range in roughened textures 232.

In the present embodiment, the surface treatment liquid C1 of Fig. 4 and Fig. 5 is liquid antistatic.The surface of the cutting apparatus 100 of Fig. 1 Treatment fluid C1 can be replaced with the liquid antistatic of the present embodiment.Liquid antistatic includes e.g. solvent and surface treating agent, wherein molten Agent includes alcohol and water, and surface treating agent is, for example, antistatic agent.In one embodiment, with solvent for example comprising alcohol and water For 100%, the weight percent of antistatic agent is about about the 0.1%~about 5% of solvent, can reach excellent antistatic effect Fruit.It is that in one embodiment, the ratio of alcohol and water can be between 1:1~3:7, and forming with 3:7 for 100% with solvent With more excellent antistatic effect (for being 1:1 compared to ratio).

As shown in figure 5, can avoid electrostatic since liquid antistatic is attached on the cutting surface 10s of optical diaphragm 10a and inhale Phenomenon, and then impurity is reduced or avoided and attaches on cutting surface 10s, to keep the cleanliness of cutting surface 10s.

Optical diaphragm 10a can be attached on an optical articles (not being painted), to provide optical articles one optical function.It is inciting somebody to action Optical diaphragm 10a is attached in the technique of optical articles, needs first to remove the second protective layer 16 from optical diaphragm 10a, with dew Mucigel 15 out, then again in such a way that mucigel 15 is docked with a transmission element (not being painted) for optical articles, by optical diaphragm 10a is attached on transmission element.Although can be in the glutinous of mucigel 15 during the second protective layer 16 is removed from optical diaphragm 10a Glue surface 15s generates electrostatic, so since cutting surface 10s has excellent cleanliness (impurity is few), makes to be electrostatically adsorbed viscose face 15s Impurity can significantly reduce, this can avoid viscose face 15s of pollution mucigel 15, and then enhance mucigel 15 and optical articles Associativity.In addition, aforementioned optical product is, for example, touch panel, display panel, touch-control display panel or any optics in need The product of diaphragm 10a, and the transmission element of optical articles is, for example, glass, light transmission mould plate or other appropriate members.

In conclusion although the present invention has been disclosed by way of example above, it is not intended to limit the present invention..

Certainly, the present invention can also have other various embodiments, without deviating from the spirit and substance of the present invention, ripe Various corresponding changes and modifications, but these corresponding changes and modifications can be made according to the present invention by knowing those skilled in the art It all should belong to the protection scope of the claims in the present invention.

Claims (22)

1. a kind of cutting tool, to cut an optics wound membrane, which is characterized in that the cutting tool includes:

One cutter hub has a knife face；And

One roughened textures are formed in the knife face, which includes multiple recess portions.

2. cutting tool according to claim 1, which is characterized in that the cutter hub and the roughened textures are one of the forming knot Structure.

3. cutting tool according to claim 1, which is characterized in that further include:

One surface treatment liquid is attached in the roughened textures.

4. cutting tool according to claim 3, which is characterized in that the surface treatment liquid is liquid antistatic.

5. cutting tool according to claim 4, which is characterized in that the liquid antistatic includes solvent and antistatic agent, is somebody's turn to do The weight percent of antistatic agent account for the solvent 0.1%~5% and/or the solvent include alcohol and water, wherein the alcohol and The ratio of the water is between 1:1~3:7.

6. cutting tool according to claim 1, which is characterized in that respectively the internal diameter of the recess portion is between 5 microns and 80 microns Between.

7. cutting tool according to claim 1, which is characterized in that the roughened textures are with sandblasting, water knife or laser It is formed on the knife face.

8. a kind of cutting apparatus, to cut an optics wound membrane, which is characterized in that the cutting apparatus includes:

One cutting tool, to cut the optics wound membrane；And

One container, to accommodate a surface treatment liquid, the surface treatment liquid is to clean and/or be coated with the cutting tool.

9. cutting apparatus according to claim 8, which is characterized in that further include:

One surface treated elements, contact with the cutting tool and the surface treated elements part enters in the surface treatment liquid, make The surface treatment liquid is cleaned and/or is coated with the cutting tool by the surface treated elements.

10. cutting apparatus according to claim 8, which is characterized in that the surface treatment liquid includes mould release.

11. cutting apparatus according to claim 9, which is characterized in that the rotation direction of the surface treated elements and the sanction The rotation direction of cutter is that the revolving speed of reversed or the surface treated elements revolving speeds and the cutting tool is different.

12. cutting apparatus according to claim 9, which is characterized in that the cutting tool is with a cleaning length and the surface Processing element contact, the surface treated elements with one enter depth enter the surface treatment liquid in, this enter depth at least equal to The cleaning length.

13. cutting apparatus according to claim 8, which is characterized in that the surface treatment liquid is siloxane polymer, and/ Or fluorochemical.

14. cutting apparatus according to claim 8, which is characterized in that the cutting tool is any of claim 1~7 Cutting tool described in.

15. a kind of cutting method characterized by comprising

The cutting apparatus according to any one of claims 8 is provided；

The cutting tool of the cutting apparatus cuts the optics wound membrane；And

The surface treatment liquid of the cutting apparatus cleans and/or is coated with the cutting tool.

16. cutting method according to claim 15, which is characterized in that the cutting apparatus further includes:

One surface treated elements, contact with the cutting tool and the surface treated elements part enters in the surface treatment liquid, make The surface treatment liquid is cleaned and/or is coated with the cutting tool by the surface treated elements.

17. cutting method according to claim 16, which is characterized in that further include:

The rotation direction of the surface treated elements and the rotation direction of the cutting tool are controlled, this turn of the surface treated elements is made The rotation direction of dynamic direction and the cutting tool is reversed, or controls the revolving speed and the cutting tool of the surface treated elements Revolving speed keeps the revolving speed of the surface treated elements different with the revolving speed of the cutting tool.

18. cutting method according to claim 16, which is characterized in that the cutting tool is with a cleaning length and the surface Processing element contact, the surface treated elements with one enter depth enter the surface treatment liquid in, this enter depth at least equal to The cleaning length.

19. cutting method according to claim 15, which is characterized in that the surface treatment liquid includes mould release.

20. cutting method according to claim 15, which is characterized in that the surface treatment liquid is siloxane polymer, and/ Or fluorochemical.

21. cutting method according to claim 15, which is characterized in that the surface treatment liquid is liquid antistatic.

22. cutting method according to claim 21, which is characterized in that the liquid antistatic includes solvent and antistatic agent, 0.1%~5% and/or solvent that the weight percent of the antistatic agent accounts for the solvent include alcohol and water, wherein the alcohol And the ratio of the water is between 1:1~3:7.