CN207489668U - A kind of manufacture system of amorphous or nanocrystalline strip lamination - Google Patents

Abstract

The utility model provides the manufacture system of a kind of amorphous or nanocrystalline strip lamination, the manufacture system of manufacture system and Multi-layer amorphous or nanocrystalline strip lamination including individual layer amorphous or nanocrystalline strip lamination；The manufacture system of amorphous or nanocrystalline strip lamination provided by the utility model, utilizes coiled strip overlay film so that the production technology of amorphous or nanocrystalline strip lamination is continuous, convenient for automation；In addition, obtaining Multi-layer amorphous or nanocrystalline strip lamination by multilayer coating film one-pass molding, production efficiency is greatly improved, reduces production cost.

Description

A kind of manufacture system of amorphous or nanocrystalline strip lamination

Technical field

The utility model is related to wireless charging electromangnetic spectrum fields more particularly to a kind of amorphous or nanocrystalline strip to fold The manufacture system of layer.

Background technology

Amorphous or nanocrystalline material are obtained as a kind of novel soft magnetic materials in wireless charging field as magnetic shielding material Using.Its raw material is a kind of ultra-thin amorphous or nanocrystalline strip material, which has good toughness before heat treatment, but Toughness drastically declines after heat treatment, and slight touching, material will crush so that subsequent difficulty of processing increases, production effect Rate reduces.Conventional processing mode is the piece cut into amorphous or nanocrystalline strip material before heat treatment needed for processing at present It after shape material, then is heat-treated, the sheet material after heat treatment carries out overlay film with double faced adhesive tape again, and this mode can not be into Line Continuity Production operation, production efficiency are had a greatly reduced quality.

Utility model content

The defects of in order to overcome the above-mentioned prior art, the technical problem to be solved by the utility model is to provide a kind of amorphous Or the manufacture system of nanocrystalline strip lamination, by the manufacture system, it can be achieved that consecutive production operation, improves production efficiency.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is：

The manufacture system of a kind of individual layer amorphous or nanocrystalline strip lamination, including overlay film component and the second stripping component；Institute It states overlay film component and includes the first stripping component, material driven shaft, concora crush roller and first material winding line shaft；The concora crush roller packet Include the first concora crush roller and the second concora crush roller；

The amorphous of peripheral hardware or nanocrystalline strip coiled strip are installed on the material driven shaft；

The first double face binding of peripheral hardware film strips material coiled strip after the first stripping component removes a face release layer glue-line that exposes with After the amorphous or the amorphous on nanocrystalline strip coiled strip surface layer or nanocrystalline strip overlay film installed on the material driven shaft by The material driven shaft is transferred to the first concora crush roll press；The attaching angle of above-mentioned glue-line is 45~180 °；

The second double face binding of peripheral hardware film strips material coiled strip after the second stripping component removes a face release layer glue-line that exposes with Amorphous or nanocrystalline material after above-mentioned pressing are transferred to the first material winding line shaft after the second concora crush roll press；

The first concora crush roller and the second concora crush roller respectively include the adjustable work of power roller and a position being fixedly mounted Dynamic roller.

Wherein, the first stripping component and the second stripping component respectively include a material line shaft and release film winding is dynamic Power axis, the direction of rotation of the material line shaft and the row of the peripheral hardware double face binding film strips material on the material line shaft It is opposite into direction.

Wherein, the material line shaft and material driven shaft are air-expanding shaft.

The manufacture system of a kind of Multi-layer amorphous or nanocrystalline strip lamination, including laminating component, the laminating component includes Third stripping component, 4 materials line shaft, third concora crush roller, Siping City's pressure roller and second material winding line shaft；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with Peripheral hardware overlay film lamination on the 4 materials line shaft be transferred to after the third concora crush roll press be transferred to it is described Siping City's pressure roller, then be transferred to the second material through described Siping City pressure roller and wind line shaft；The peripheral hardware overlay film lamination table The amorphous of layer or the nanocrystalline and peripheral hardware individual layer amorphous or nanocrystalline strip lamination remove the glue-line exposed after a face release layer Fitting, the peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip are preferably folded using above-mentioned individual layer amorphous or nanocrystalline strip Prepared by the manufacture system of layer.

Wherein, the manufacture system of the Multi-layer amorphous or nanocrystalline strip lamination further includes at least one repetitive unit, institute Repetitive unit is stated between the third concora crush roller and Siping City's pressure roller, it is dynamic that the repetitive unit includes the winding of the 4th release layer Power axis, the 5th concora crush roller, the 5th material line shaft and the 6th concora crush roller；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with Peripheral hardware overlay film lamination on the 4 materials line shaft be transferred to after the third concora crush roll press be transferred to it is described Repetitive unit, in the repetitive unit, across the 5th concora crush roller after through the 4th release layer winding line shaft stripping After the release layer on surface layer the 6th concora crush roller is transmitted to the peripheral hardware overlay film lamination on the 5th material line shaft Next repetitive unit is transferred to after pressing, described Siping City pressure roller is transferred to, then through described after undergoing similary step Siping City's pressure roller is transferred to the second material winding line shaft.

Wherein, the repetitive unit number is 1~8.

Preferably, the repetitive unit number is 1,2,3,6 or 8.

Wherein, the peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip are using above-mentioned individual layer amorphous or nanocrystalline Prepared by the manufacture system of band lamination.

The beneficial effects of the utility model are：

This programme directly using the amorphous or nanocrystalline strip coiled strip after heat treatment, coats amorphous with double-sided adhesive conjunctiva or receives Rice crystal zone material coiled strip carries out wide-angle overlay film and obtains amorphous or nanocrystalline strip lamination, can be reduced by the manufacture system overlay film There is the phenomenon that fracture when by external force in amorphous or nanocrystalline strip coiled strip；Meanwhile using 45~180 ° of larger attaching Angle overlay film so that adhesive film has enough contact area and adhesion strength with amorphous or nanocrystalline strip coiled strip, it is ensured that in overlay film In the process, even if amorphous or any one position of nanocrystalline strip coiled strip are broken, overlay film carries out with still being able to continuity；This Outside, the product after overlay film is still coiled strip so that the continuous production of Multi-layer amorphous or nanocrystalline strip lamination is possibly realized.Using The manufacture system can greatly improve the production efficiency of amorphous or nanocrystalline strip lamination, reduce production cost.

Description of the drawings

Fig. 1 show a kind of individual layer amorphous of the utility model embodiment or the knot of the manufacture system of nanocrystalline strip lamination Structure schematic diagram；

Fig. 2 show the structure diagram of the overlay film component of the utility model embodiment；

Fig. 3 show the structure diagram of the overlay film lamination of the utility model embodiment；

Fig. 4 show the individual layer amorphous of the utility model embodiment or the structure diagram of nanocrystalline strip lamination；

Fig. 5 show the structure diagram of the laminating component of the utility model embodiment；

Fig. 6 show a kind of Multi-layer amorphous of the utility model embodiment or the knot of the manufacture system of nanocrystalline strip lamination Structure schematic diagram；

Fig. 7 show the Multi-layer amorphous of the utility model embodiment or the structure diagram of nanocrystalline strip lamination；

Fig. 8 show the structure diagram for having the two-sided PET film band of base used in the utility model embodiment.

Label declaration：

1st, material driven shaft；2nd, first material winding line shaft；2-2, second material winding line shaft；3-1, the first concora crush Roller；3-2, the second concora crush roller；3-3, third concora crush roller；3-4, Siping City's pressure roller；3-5, the 5th concora crush roller；3-6, the 6th concora crush Roller；4-1, first material line shaft；4-2, second material line shaft；4-3, third material line shaft；4-4,4 materials power Axis；4-5, the 5th material line shaft；5-1, the first release film winding line shaft；5-2, the second release film winding line shaft；5-3、 Third release film winds line shaft；5-4, the 4th release layer winding line shaft；61st, first has the two-sided PET film band coiled strip of base； 62nd, second has the two-sided PET film band coiled strip of base；6-1, PET film；6-2, adhesive sticker；6-3, release film；7th, amorphous or nanocrystalline band Material coiled strip；8th, overlay film lamination；9th, individual layer amorphous or nanocrystalline strip lamination；10th, repetitive unit；11st, Multi-layer amorphous or nanocrystalline Band lamination.

Specific embodiment

For technology contents, the objects and the effects of the utility model are described in detail, below in conjunction with embodiment and match Attached drawing is closed to be explained.

The design of the utility model most critical is:The manufacture system utilizes the mode of coiled strip overlay film, realizes amorphous or receives The continuous automatic production of rice crystal zone material lamination, improves production efficiency, reduces production cost.

The manufacture system of a kind of individual layer amorphous or nanocrystalline strip lamination, including overlay film component and the second stripping component；Institute It states overlay film component and includes the first stripping component, material driven shaft, concora crush roller and first material winding line shaft；The concora crush roller packet Include the first concora crush roller and the second concora crush roller；

The first stripping component includes first material line shaft and the first release film winding line shaft；The first material First double face binding film strips material coiled strip of peripheral hardware is installed on line shaft；

The second stripping component includes second material line shaft and the second release film winding line shaft；The second material Second double face binding film strips material coiled strip of peripheral hardware is installed on line shaft；

The amorphous of peripheral hardware or nanocrystalline strip coiled strip are installed on the material driven shaft；

The first double face binding of peripheral hardware film strips material coiled strip after the first stripping component removes a face release layer glue-line that exposes with After the amorphous or the amorphous on nanocrystalline strip coiled strip surface layer or nanocrystalline strip overlay film installed on the material driven shaft by The material driven shaft is transferred to the first concora crush roll press；The attaching angle θ of above-mentioned glue-line is 45~180 °, attaching angle θ Size can be adjusted by adjusting the position between material driven shaft and the first concora crush roller, orientation axes can also be added to adjust Section；

The second double face binding of peripheral hardware film strips material coiled strip after the second stripping component removes a face release layer glue-line that exposes with Amorphous or nanocrystalline material after above-mentioned pressing are transferred to the first material winding line shaft after the second concora crush roll press and receive Volume obtains individual layer amorphous or nanocrystalline strip lamination；

The first concora crush roller and the second concora crush roller respectively include the adjustable work of power roller and a position being fixedly mounted Dynamic roller.

As can be seen from the above description, the beneficial effects of the utility model are：

During entire overlay film, power is provided by the power roller of the first concora crush roller and the second concora crush roller, with The rotation of power roller, adhesive film band drive amorphous or nanocrystalline strip to move forward；First material line shaft is capable of providing One and first adhesive film band direction of travel tension, the size of the tension is adjusted, which can ensure in overlay film In the process, the first adhesive film band can be close to amorphous or nanocrystalline strip coiled strip so that even if the first adhesive film band is covering Occurring the slight flexible or progress with overlay film in membrane process, each coiled strip outer diameter, which is gradually reduced, causes length to change, Always in the state tensed, coating process still is able to steadily carry out first adhesive film band；Similarly, second material line shaft Also be capable of providing one and second adhesive film band direction of travel tension, it is ensured that the second adhesive film band always in tense State, the first release film winding line shaft and the second release film winding line shaft can also provide a power ensure release film stripping after It can normally wind；The attaching angle θ of glue-line and amorphous or nanocrystalline strip coiled strip can make the first adhesive film between 45~180 ° Band and amorphous or nanocrystalline strip coiled strip have enough contact area and adhesion strength, it is ensured that the first adhesive film band be expert at into Amorphous or nanocrystalline strip coiled strip can be driven to advance together in the process；Meanwhile larger attaching angle can be ensured that and paste Cheng Zhong, even if amorphous or any one position of nanocrystalline strip coiled strip are broken, overlay film carries out with still being able to continuity.

Further, each material line shaft and each material driven shaft are air-expanding shaft.

As can be seen from the above description, the shaft core of material line shaft and material driven shaft uses air-expanding shaft, after being passed through pressure air, The shaft core of material line shaft and material driven shaft can expand, and be easily installed fixed adhesive film band coiled strip or amorphous or nanocrystalline volume Material.

Wherein, each release film winding line shaft can be air-expanding shaft or plain shaft, as long as can realize that release film is wound .

The utility model also provides the manufacture system of a kind of Multi-layer amorphous or nanocrystalline strip lamination, including laminating component, The laminating component includes third stripping component, 4 materials line shaft, third concora crush roller, Siping City's pressure roller and second material and receives Roll up line shaft；

The third stripping component includes third material line shaft and third release film winding line shaft；The third material The individual layer amorphous of peripheral hardware or nanocrystalline strip lamination coiled strip are installed on line shaft；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with Peripheral hardware overlay film lamination on the 4 materials line shaft be transferred to after the third concora crush roll press be transferred to it is described Siping City's pressure roller, then be transferred to the second material through described Siping City pressure roller and wind line shaft；The peripheral hardware overlay film lamination table The amorphous of layer or the nanocrystalline and peripheral hardware individual layer amorphous or nanocrystalline strip lamination remove the glue-line exposed after a face release layer Fitting, the peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip are preferably to be folded using above-mentioned individual layer amorphous or nanocrystalline strip Prepared by the manufacture system of layer.

As can be seen from the above description, two layers of amorphous or nanocrystalline strip lamination can be made by the manufacture system.

Further, it is single to further include at least one repetition for the manufacture system of the Multi-layer amorphous or nanocrystalline strip lamination Member, for the repetitive unit between the third concora crush roller and Siping City's pressure roller, the repetitive unit includes the 4th release layer Wind line shaft, the 5th concora crush roller, the 5th material line shaft and the 6th concora crush roller；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with Peripheral hardware overlay film lamination on the 4 materials line shaft be transferred to after the third concora crush roll press be transferred to it is described Repetitive unit, in the repetitive unit, across the 5th concora crush roller after through the 4th release layer winding line shaft stripping After the release layer on surface layer the 6th concora crush roller is transmitted to the peripheral hardware overlay film lamination on the 5th material line shaft Next repetitive unit is transferred to after pressing, described Siping City pressure roller is transferred to, then through described after undergoing similary step Siping City's pressure roller is transferred to the second material winding line shaft.

As can be seen from the above description, the beneficial effects of the utility model are：

Increase a repetitive unit, you can three layers of amorphous or nanocrystalline strip lamination is made, increases by two repetitive units, i.e., Four layers of amorphous or nanocrystalline strip lamination can be made, similarly, increase N number of repetitive unit, you can N+2 layers of amorphous or nanocrystalline are made Band lamination；The amorphous or the number of plies of nanocrystalline strip that the manufacture system can be according to actual needs add the weight of corresponding number Multiple unit, allows more laminated construction one-pass moldings, greatly improves production efficiency.

Further, the repetitive unit number is preferably 1~8, more preferably 1,2,3,6 or 8.

In the following embodiments, the peripheral hardware double face binding film strips material, which uses, two-sided PET film band (its structure of base As described in Figure 8, including two layers of release film 6-3, two layers of adhesive sticker 6-2 and positioned at intermediate PET film 6-1), certainly, the peripheral hardware Double face binding film strips material may be the two-sided PET film band of no base or other films with caking property, as polyimide film, Polyester film, polyphenylene sulfide film, polypropylene screen etc., it should be clearly that, this is specific embodiment of the utility model, is not therefore limited The protection domain of the utility model patent processed.

It please refers to shown in Fig. 1 to Fig. 4, the embodiment one of the utility model is：

The manufacture system of a kind of individual layer amorphous or nanocrystalline strip lamination, including overlay film component and the second stripping component；Institute It states overlay film component and includes the first stripping component, material driven shaft 1, concora crush roller and first material winding line shaft 2-1；The concora crush Roller includes the first concora crush roller 3-1 and the second concora crush roller 3-2；

The first stripping component includes first material line shaft 4-1 and the first release film winding line shaft 5-1；Described The first of peripheral hardware is equipped on one material line shaft 4-1 the two-sided PET film band coiled strip 61 of base；

The second stripping component includes second material line shaft 4-2 and the second release film winding line shaft 5-2；Described The second of peripheral hardware is equipped on two material line shaft 4-1 the two-sided PET film band coiled strip 62 of base；

The amorphous of peripheral hardware or nanocrystalline strip coiled strip 7 are installed on the material driven shaft 1；

Peripheral hardware first has the glue that the two-sided PET film band coiled strip 61 of base exposes after the first stripping component removes a face release layer Layer is covered with the amorphous on 7 surface layer of the amorphous or nanocrystalline strip coiled strip or nanocrystalline strip installed on the material driven shaft 1 The first concora crush roller 3-1 is transferred to after film by the material driven shaft 1 to press；The attaching angle θ of above-mentioned glue-line is 45~180 °, The size of attaching angle θ can be adjusted by adjusting the position between 1 and first concora crush roller 3-1 of material driven shaft, can also be increased If orientation axes are adjusted；

Peripheral hardware second has the glue that the two-sided PET film band coiled strip 62 of base exposes after the second stripping component removes a face release layer Layer is transferred to the first material winding with the amorphous after above-mentioned pressing or nanocrystalline material after the second concora crush roller 3-2 pressings and moves Power axis 2-1 winds to obtain individual layer amorphous or nanocrystalline strip lamination 9, and (its structure is not as shown in figure 4, PET film 6-1 shows in Fig. 4 Go out)；

The first concora crush roller 3-1 and the second concora crush roller 3-2 respectively includes a power roller being fixedly mounted and a position can The movable roller of tune.

Each material line shaft and each material driven shaft are air-expanding shaft.

Each release film winding line shaft can be air-expanding shaft or plain shaft.

It please refers to shown in Fig. 5, the embodiment two of the utility model is：

The manufacture system of a kind of Multi-layer amorphous or nanocrystalline strip lamination, including laminating component, the laminating component includes Third stripping component, 4 materials line shaft 4-4, third concora crush roller 3-3, Siping City pressure roller 3-4 and second material winding power Axis 2-2；

The third stripping component includes third material line shaft 4-3 and third release film winding line shaft 5-3；Described The individual layer amorphous of peripheral hardware or nanocrystalline strip lamination coiled strip 9 are installed on 3 material line shaft 4-3；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip 9 after third stripping component removes a face release layer with (its structure is not as shown in figure 3, PET film 6-1 is in Fig. 3 for peripheral hardware overlay film lamination 8 on the 4 materials line shaft 4-4 Show) be transferred to third concora crush roller 3-3 pressing after be transferred to Siping City pressure roller 3-4, then through described Siping City pressure roller 3-4 is transferred to the second material winding line shaft 2-2 and winds to obtain two layers of amorphous or nanocrystalline strip lamination；The peripheral hardware covers After the amorphous on 8 surface layer of film lamination or the nanocrystalline and peripheral hardware individual layer amorphous or nanocrystalline strip lamination 9 remove a face release layer The glue-line fitting of exposing.

It please refers to shown in Fig. 5, the embodiment three of the utility model is：

Difference lies in the peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip 9 are embodiment three with embodiment two It is prepared using the scheme of embodiment one.

It please refers to shown in Fig. 6 and Fig. 7, the example IV of the utility model is：

Difference lies in the manufacture system of the Multi-layer amorphous or nanocrystalline strip lamination is also with embodiment two for example IV Including at least one repetitive unit 10, the repetitive unit 10 be located at the third concora crush roller 3-3 and Siping City pressure roller 3-4 it Between, the repetitive unit 10 includes the 4th release layer winding line shaft 5-4, the 5th concora crush roller 3-5, the 5th material line shaft 4-5 With the 6th concora crush roller 3-6；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip 9 after third stripping component removes a face release layer with Peripheral hardware overlay film lamination 8 on the 4 materials line shaft 4-4 transmits after being transferred to the third concora crush roller 3-3 pressings To the repetitive unit 10, in the repetitive unit 10, across the 5th concora crush roller 3-5 after received through the 4th release layer It is passed after rolling up the release layer of line shaft 5-4 overburden removings with the peripheral hardware overlay film lamination 8 on the 5th material line shaft 4-5 Next repetitive unit is transferred to after transporting to the 6th concora crush roller 3-6 pressings, institute is transferred to after undergoing similary step Siping City pressure roller 3-4 is stated, then is transferred to the second material winding line shaft 2-2 through Siping City pressure roller 3-4 and winds to obtain Multi-layer amorphous or nanocrystalline strip lamination 11 (its structure is as shown in fig. 7, PET film 6-1 is not shown in Fig. 7).

It please refers to shown in Fig. 6 and Fig. 7, the embodiment five of the utility model is：

Difference lies in the peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip 9 are embodiment five with example IV It is prepared using the scheme of embodiment one.

In conclusion the manufacture system of amorphous provided by the utility model or nanocrystalline strip lamination, using coiled strip overlay film, So that the production technology of amorphous or nanocrystalline strip lamination is continuous, convenient for automation；In addition, it is obtained by multilayer coating film one-pass molding To Multi-layer amorphous or nanocrystalline strip lamination, production efficiency is greatly improved, reduces production cost.

The above description is only the embodiments of the present invention, and it does not limit the scope of the patent of the present invention, every Equivalents made based on the specification and figures of the utility model are directly or indirectly used in relevant technology neck Domain is equally included in the patent within the scope of the utility model.

Claims (9)

1. the manufacture system of a kind of individual layer amorphous or nanocrystalline strip lamination, which is characterized in that shelled including overlay film component and second From component；The overlay film component includes the first stripping component, material driven shaft, concora crush roller and first material winding line shaft；Institute It states concora crush roller and includes the first concora crush roller and the second concora crush roller；

The amorphous of peripheral hardware or nanocrystalline strip coiled strip are installed on the material driven shaft；

The first double face binding of peripheral hardware film strips material coiled strip after the first stripping component removes a face release layer glue-line that exposes with it is described By described after the amorphous or the amorphous on nanocrystalline strip coiled strip surface layer or nanocrystalline strip overlay film installed on material driven shaft Material driven shaft is transferred to the first concora crush roll press；The attaching angle of above-mentioned glue-line is 45~180 °；

The second double face binding of peripheral hardware film strips material coiled strip after the second stripping component removes a face release layer glue-line that exposes with it is above-mentioned Amorphous or nanocrystalline material after pressing are transferred to the first material winding line shaft after the second concora crush roll press；

The first concora crush roller and the second concora crush roller respectively include an adjustable movable roll of power roller and a position being fixedly mounted Wheel.

2. the manufacture system of individual layer amorphous according to claim 1 or nanocrystalline strip lamination, which is characterized in that described One stripping component and the second stripping component respectively include a material line shaft and release film winding line shaft, the material line shaft Direction of rotation it is opposite with the direction of travel of the peripheral hardware double face binding film strips material on the material line shaft.

3. the manufacture system of individual layer amorphous according to claim 2 or nanocrystalline strip lamination, which is characterized in that the object Expect that line shaft and material driven shaft are air-expanding shaft.

4. a kind of manufacture system of Multi-layer amorphous or nanocrystalline strip lamination, which is characterized in that including laminating component, the fitting Component includes third stripping component, 4 materials line shaft, third concora crush roller, Siping City's pressure roller and second material winding power Axis；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with installation Peripheral hardware overlay film lamination on the 4 materials line shaft is transferred to the described 4th after being transferred to the third concora crush roll press Concora crush roller, then be transferred to the second material through described Siping City pressure roller and wind line shaft；The peripheral hardware overlay film lamination surface layer Amorphous is nanocrystalline with the peripheral hardware individual layer amorphous or nanocrystalline strip lamination is removed the glue-line exposed after a face release layer and is bonded.

5. the manufacture system of Multi-layer amorphous according to claim 4 or nanocrystalline strip lamination, which is characterized in that described outer If individual layer amorphous or nanocrystalline strip lamination coiled strip are using individual layer amorphous according to any one of claims 1 to 3 or receive Prepared by the manufacture system of rice crystal zone material lamination.

6. the manufacture system of Multi-layer amorphous according to claim 4 or nanocrystalline strip lamination, which is characterized in that further include At least one repetitive unit, the repetitive unit is between the third concora crush roller and Siping City's pressure roller, the repetitive unit Including the 4th release layer winding line shaft, the 5th concora crush roller, the 5th material line shaft and the 6th concora crush roller；

Peripheral hardware individual layer amorphous or nanocrystalline strip lamination coiled strip after third stripping component removes a face release layer with installation Peripheral hardware overlay film lamination on the 4 materials line shaft is transferred to the repetition after being transferred to the third concora crush roll press Unit, in the repetitive unit, across the 5th concora crush roller after through the 4th release layer wind line shaft overburden removing Release layer after with the peripheral hardware overlay film lamination on the 5th material line shaft be transmitted to the 6th concora crush roll press After be transferred to next repetitive unit, be transferred to described Siping City pressure roller, then through the described 4th after undergoing similary step Concora crush roller is transferred to the second material winding line shaft.

7. the manufacture system of Multi-layer amorphous according to claim 6 or nanocrystalline strip lamination, which is characterized in that described heavy Multiple unit number is 1~8.

8. the manufacture system of Multi-layer amorphous according to claim 6 or nanocrystalline strip lamination, which is characterized in that described heavy Multiple unit number is 1,2,3,6 or 8.

9. the manufacture system of Multi-layer amorphous according to claim 6 or nanocrystalline strip lamination, which is characterized in that described outer If individual layer amorphous or nanocrystalline strip lamination coiled strip are using individual layer amorphous according to any one of claims 1 to 3 or receive Prepared by the manufacture system of rice crystal zone material lamination.