CN103257524A - Imprint apparatus and imprint method - Google Patents

Abstract

An imprinting device and an imprinting method are provided, and the imprinting device comprises a first roller, a second roller, a flexible imprinting mold, a conveying belt, a first pressurizing device and a curing device. An embossing area is formed between the first roller and the second roller. The flexible stamping die is wound around the first roller and the second roller. The first roller and the second roller drive the flexible stamping die to move and pass through the stamping area. The conveyer belt is arranged below the first roller and the second roller and conveys a plurality of substrates to pass through the imprinting area in sequence. Each substrate is provided with a glue layer. The first pressurizing device provides a first pressurized gas flow to the nip region. The flexible imprint mold maintains the substrates passing through the imprint region in contact with the flexible imprint mold by pressurization of the first pressurized gas flow. The curing device is positioned corresponding to the imprinting area and cures the glue layers.

Description

Embosser and method for stamping

Technical field

The present invention relates to a kind of Embosser and method for stamping, and be particularly related to a kind of Embosser and method for stamping that uses the pliability making ide.

Background technology

At present common photoetching (Lithography) technology comprises beamwriter lithography (Electronic Beam Lithography) technology, ion beam lithography (Ion Beam Lithography) technology, extreme ultraviolet photoetching (Extreme Ultraviolet Lithography) technology and rice imprint lithography (Nanoimprint Lithography) technology how, wherein how the rice imprint lithography is not because be subjected to the restriction of the optics diffraction limit, and have resolution height, speed and reach characteristic with low cost soon, so its application is quite extensive.

Specifically, a kind of known how a rice imprint lithography processing procedure is that glue-line is placed on the substrate, and the making ide that will have an imprinted pattern is stamped into softening glue-line, then solidifies the glue-line that has been patterned.Then, remove making ide and carry out etching, how to etch the rice pattern with the shade by glue-line at substrate.In above-mentioned processing procedure, the out-of-flatness of substrate surface tends to cause glue-line impression unevenness or imperfect.In addition, be monolithic processing procedure and the noncontinuity impression could impress the glue-line on another substrate after needing to wait for curable adhesive layer by making ide impression glue-line, therefore comparatively expend time in.In addition, produce bubble in the glue-line behind the impression, need in vacuum environment, to impress, thereby increased manufacturing cost and waited for the time that vacuumizes.

United States Patent (USP) US20090046362 number discloses a kind of how rice method for stamping, drive the volume fabric by roller pattern is stamped on the glue-line of substrate, and by the ultraviolet light polymerization glue-line, wherein substrate uses travelling belt to transmit.TaiWan, China patent publication No. TW200638461 discloses a kind of how rice method for stamping, utilizes conveying belt or roller to transmit substrate, and by pressure-equalizing device mould is impressed to substrate.TaiWan, China patent publication No. TW201006659 discloses a kind of how rice method for stamping, provides mould and the suitable pressure of workpiece by pressurized air, to form imprinted pattern at workpiece.

Summary of the invention

The present invention proposes a kind of Embosser and method for stamping, can promote homogeneity and the integrality of impression, and can save processing procedure time and cost.

Other purposes of the present invention and advantage can be further understood from the disclosed technical characterictic of the present invention.

For reaching one of above-mentioned or partly or entirely purpose or other purposes, one embodiment of the invention provide a kind of Embosser, comprise first roller, second roller, pliability making ide, conveying belt, first pressue device and solidification equipment.Constitute imprinting area between first roller and second roller.The pliability making ide is around in first roller and second roller.First roller and second roller are suitable for driving that the pliability making ide moves and through imprinting area.Conveying belt is disposed at first roller and second roller below and is suitable for carrying a plurality of substrates to pass through imprinting area in regular turn.Has a glue-line on each substrate.First pressue device provides first forced air to imprinting area.The pliability making ide keeps in touch these substrates and pliability making ide through imprinting area by the pressurization of first forced air.The solidification equipment position is corresponding to imprinting area and solidify these glue-lines that are stamped.

The Embosser of one embodiment of the invention comprises that also first adjusts element, first roller and first is adjusted and is constituted first section between the element, wherein the pliability making ide is around in first roller and first and adjusts element, and first adjusts element is suitable for driving first section to adjust first section with respect to the angle of substrate.

The Embosser of one embodiment of the invention comprises that also second adjusts element, second roller and second is adjusted and is constituted second section between the element, wherein the pliability making ide is around in second roller and this second adjustment element, and second adjusts element is suitable for driving second section to adjust second section with respect to the angle of substrate.

The Embosser of one embodiment of the invention also comprises second pressue device, wherein conveying belt is the pliability conveying belt, first pressue device and second pressue device are disposed at the top of pliability making ide and the below of conveying belt respectively, second pressue device provides the pliability conveying belt of second forced air to imprinting area, and pliability making ide and pliability conveying belt keep in touch a little substrates and pliability making ide through imprinting area by the pressurization of first forced air and second forced air.

In the Embosser of one embodiment of the invention, conveying belt is the hard conveying belt.

In the Embosser of one embodiment of the invention, glue-line is the photocuring glue-line, and solidification equipment comprises light-emitting device.

In the Embosser of one embodiment of the invention, conveying belt and substrate light-permeable, conveying belt is between solidification equipment and pliability making ide.

In the Embosser of one embodiment of the invention, pliability making ide light-permeable and pliability making ide are between solidification equipment and conveying belt.

In the Embosser of one embodiment of the invention, glue-line is the heat curing glue-line, and solidification equipment comprises heating arrangement.

In the Embosser of one embodiment of the invention, glue-line is the thermoplasticity glue-line, and solidification equipment comprises cooling device.

For reaching one of above-mentioned or partly or entirely purpose or other purposes, one embodiment of the invention provide a kind of method for stamping.Drive by one first roller and one second roller that a pliability making ide moves and through an imprinting area, wherein the pliability making ide is around in first roller and this second roller, imprinting area is between first roller and second roller.Carry a plurality of substrates through imprinting area in regular turn by a conveying belt, wherein have a glue-line on each substrate.Provide one first forced air to imprinting area by one first pressue device, so that the pressurization of pliability making ide by first forced air kept in touch these substrates and pliability making ide through imprinting area.Solidify these glue-lines by a solidification equipment.

In the method for stamping of one embodiment of the invention, drive the step that the pliability making ide moves and comprise that driving the pliability making ide enters imprinting area and leave imprinting area from second roller from first roller, method for stamping comprises that also adjusting element by first adjusts first section that constitutes between first roller and the first adjustment element with respect to the angle of substrate.

In the method for stamping of one embodiment of the invention, drive the step that the pliability making ide moves and comprise that driving the pliability making ide enters imprinting area and leave imprinting area from second roller from first roller, method for stamping comprises that also adjusting element by second adjusts second section that constitutes between second roller and the second adjustment element with respect to the angle of substrate.

The method for stamping of one embodiment of the invention, also comprising by second pressue device provides second forced air to imprinting area, so that the pressurization of pliability making ide by second forced air kept in touch a little substrates and pliability making ide through imprinting area, wherein first pressue device and second pressue device are disposed at the top of pliability making ide and the below of conveying belt respectively.

In the method for stamping of one embodiment of the invention, glue-line is the photocuring glue-line, and the step of solidifying glue-line comprises by the solidification equipment irradiation glue-line that emits beam.

In the method for stamping of one embodiment of the invention, glue-line is the heat curing glue-line, and the step of solidifying glue-line comprises by solidification equipment heating glue-line.

In the method for stamping of one embodiment of the invention, glue-line is the thermoplasticity glue-line, and the step of solidifying glue-line comprises by solidification equipment cooling glue-line.

In the method for stamping of one embodiment of the invention, in regular turn conveying substrate through the step of imprinting area comprise make substrate at least wherein two be positioned at imprinting area simultaneously.

In the method for stamping of one embodiment of the invention, drive the pliability making ide and move and carry a plurality of substrates to comprise translational speed and the moving direction that the translational speed that makes the pliability making ide and moving direction are same as substrate through the step of imprinting area.

Based on above-mentioned, in the above embodiment of the present invention, has following one of them advantage at least, first roller and second roller drive the pliability making ide through imprinting area, and conveying belt carries these substrates to pass through imprinting area in regular turn, and be subjected to the curing of impression and the solidification equipment of pliability making ide with making these glue-line continuitys on these substrates, with the effect of the continuous manufacturing that reaches similar production line, save the average processing procedure time.In addition, exerting pressure of first forced air that flexible characteristic and first pressue device by the pliability making ide provides can allow the pliability making ide comparatively equably glue-line be impressed, to promote homogeneity and the integrality of impression.In addition, in the process of the movement of pliability making ide and impression, by the drive of roller and exerting pressure of first forced air, can force the bubble that is formed in the glue-line to be discharged from, produce bubble in the glue-line so needn't in vacuum environment, impress just can reduce, to save processing procedure cost and time.

For above-mentioned feature and advantage of the present invention can be become apparent, a plurality of embodiment cited below particularly, and cooperate appended graphicly, be described in detail below.

Description of drawings

Fig. 1 is the synoptic diagram of the Embosser of one embodiment of the invention.

Fig. 2 A to Fig. 2 C is the synoptic diagram of successive process of the substrate of Fig. 1.

Fig. 3 is the synoptic diagram of the Embosser of another embodiment of the present invention.

Fig. 4 is the synoptic diagram of the Embosser of another embodiment of the present invention.

Fig. 5 is the synoptic diagram of the Embosser of another embodiment of the present invention.

Fig. 6 is the process flow diagram of the method for stamping of one embodiment of the invention.

[main element symbol description]

50: substrate

52: glue-line

100,200,300,400: Embosser

110,210,310,410: the first rollers

120,220,320,420: the second rollers

130,230,330,430: the pliability making ide

130a: first section

130c: second section

140,240,340,440: conveying belt

150,250,350,450: the first pressue devices

160,260,360,460: solidification equipment

170a, 270a, 370a, 470a: first adjusts element

170b, 270b, 370b, 470b: second adjusts element

180,280,380,480: the second pressue devices

290: solidification equipment

390: heating arrangement

A1, A2: angle

L1, L2: ultraviolet light

R: imprinting area

Embodiment

About aforementioned and other technology contents, characteristics and effect of the present invention, in the following detailed description that cooperates with reference to graphic a plurality of embodiment, can clearly present.The direction term of mentioning in following examples, for example upper and lower, front, rear, left and right etc. only are the directions with reference to annexed drawings.Therefore, the direction term of use is explanation, but not is used for limiting the present invention.

Fig. 1 is the synoptic diagram of the Embosser of one embodiment of the invention.Please refer to Fig. 1, the Embosser 100 of present embodiment comprises one first roller 110, one second roller 120, a pliability making ide 130, a conveying belt 140, one first pressue device 150 and a solidification equipment 160.Constitute an imprinting area R between first roller 110 and second roller 120, pliability making ide 130 is around in first roller 110 and second roller 120, and first roller 110 and second roller 120 are in order to drive pliability making ide 130 and move and through imprinting area R.Conveying belt 140 is disposed at first roller 110 and second roller, 120 belows and in order to carry a plurality of substrates 50 to pass through imprinting area R in regular turn, wherein has a glue-line 52 on each substrate 50.First pressue device 150 is in order to providing one first forced air F1 to imprinting area R, and the pressurization of pliability making ide 130 by the first forced air F1 makes these substrates 50 through imprinting area R keep in touch with pliability making ide 130.The position of solidification equipment 160 is corresponding to imprinting area R and solidify these glue-lines 52, wherein because the thickness relationship of glue-line 52, make that substrate 50 and pliability making ide 130 can be for directly contacting or indirect contact, the present invention Figure 1 shows that the embodiment of indirect contact not as limit.

Under above-mentioned configuration mode, be subjected to these glue-line 52 continuitys on these substrates 50 impression of pliability making ide 130, solidification equipment 160 continuitys ground solidifies these glue-lines 52, therefore can reach the effect of the continuous manufacturing of similar production line, thereby save the average processing procedure time.In addition, the first forced air F1 that flexible characteristic and first pressue device 150 by pliability making ide 130 provides exerts pressure, and can allow pliability making ide 130 comparatively equably glue-line 52 be impressed, to promote homogeneity and the integrality of impression.In addition, substrate 50 is sent in the process of imprinting area R at conveying belt 140, drive by first roller 110 and second roller 120 and conveying belt 140, make pliability making ide 130 progressively with glue-line 52 pressings, and make substrate 50 progressively enter imprinting area R and be subjected to exerting pressure of the first forced air F1, can force the bubble that is formed in the glue-line 52 to be discharged from, produce bubble in the glue-line 52 so can in vacuum environment, impress just can reduce, to save processing procedure cost and time.

Fig. 2 A to Fig. 2 C is the process flow diagram of successive process of the substrate of Fig. 1.In the present embodiment, can further carry out lithographic process to substrate 50 so that it becomes light emitting diode (light emitting diode, substrate LED).Specifically, through the impression of above-mentioned Embosser 100, can produce and shown in Fig. 2 A, how to have a substrate 50 of rice imprinted pattern glue-line 52.Then, shown in Fig. 2 B, the shade by glue-line 52 carries out etching to substrate 50.At last, remove glue-line 52 and can obtain the substrate with patterned surface 50 shown in Fig. 2 C, the substrate 50 with patterned surface can make the of heap of stone brilliant step of follow-up light emitting diode comparatively smooth, reduces brilliant defective of heap of stone.Of heap of stone brilliant step in the light emitting diode processing procedure is the known technology in affiliated field, is not given unnecessary details at this.

Please refer to Fig. 1, in the present embodiment, by the drive of first roller 110 and second roller 120, pliability making ide 130 enters imprinting area R and leaves imprinting area R from second roller 120 from first roller 110.Embosser 100 comprises that also one first adjusts element 170a and one second adjustment element 170b, it is the first section 130a that first roller 110 and first is adjusted between the element 170a, it is the second section 130c that second roller 120 and second is adjusted between the element 170b, and the first section 130a and the second section 130c are positioned at outside the imprinting area R.First adjusts element 170a can drive the first section 130a adjusting the first section 130a with respect to the included angle A 1 of substrate 50, and second adjusts element 170b and can drive the second section 130c to adjust the second section 130c with respect to the included angle A 2 of substrate 50.Setting by the first adjustment element 170a, can cooperate material, structure, the substrate 50 of glue-line 52 with the different of process parameter such as thickness of glue-line 52 included angle A 1 to be adjusted, pliability making ide 130 can be contacted with suitable angle with glue-line 52 and enter imprinting area R1, to reduce the probability that produce bubbles in the glue-line 52.Setting by the second adjustment element 170b, can cooperate material, structure, the substrate 50 of glue-line 52 with the different of process parameter such as thickness of glue-line 52 included angle A 2 to be adjusted, pliability making ide 130 and glue-line 52 can be left and the demoulding, the probability that causes glue-line 52 to damage during with the reduction demoulding with suitable angle.

The Embosser 100 of present embodiment also comprises one second pressue device 180, and conveying belt 140 is the pliability conveying belt.First pressue device 150 and second pressue device 180 are disposed at the top of pliability making ide 130 and the below of conveying belt 140 respectively.Second pressue device 180 provides one second forced air F2 to conveying belt 140, and the pressurization of the second forced air F2 that the first forced air F1 that pliability making ide 130 provides by first pressue device 150 and second pressue device 180 provide makes these substrates 50 by imprinting area R keep in touch with pliability making ide 130.In other embodiments, conveying belt 140 can be the hard conveying belt and these substrate 50 anchorage forces can be provided, and then need not dispose second pressue device 180 as shown in Figure 1 in the case.

The present invention is not limited the material kind of glue-line 52.For instance, each glue-line 52 can be the photocuring glue-line, and solidification equipment 160 is light-emitting device, comes glue-line 52 is cured in order to send ultraviolet light L1.As shown in Figure 1, the conveying belt 140 of present embodiment is between solidification equipment 160 and pliability making ide 130, therefore be that photocuring glue-line and solidification equipment 160 are that conveying belt 140 and substrate 50 light-permeables are so that ultraviolet light L1 can shine glue-line 52 under the situation of light-emitting device at glue-line 52.In addition, second pressue device 180 between solidification equipment 160 and conveying belt 140 can make ultraviolet light L1 shine glue-line 52 by dislocation, perforate or other suitable mode.

Fig. 3 is the synoptic diagram of the Embosser of another embodiment of the present invention.Please refer to Fig. 3, in the Embosser 200 of present embodiment, the configuration mode that first roller 210, second roller 220, pliability making ide 230, conveying belt 240, first pressue device 250, solidification equipment 260, first are adjusted element 270a, the second adjustment element 270b and second pressue device 280 is identical with configuration mode shown in Figure 1, is not given unnecessary details at this.The Embosser 200 of Fig. 3 and the Embosser 100 of Fig. 1 different be in, Embosser 200 also comprises solidification equipment 290, comes glue-line 52 is cured in order to send ultraviolet light L2.The pliability making ide 230 of present embodiment is between solidification equipment 290 and conveying belt 240, therefore be that photocuring glue-line and solidification equipment 290 are under the situation of light-emitting device at glue-line 52, pliability making ide 230 light-permeables are so that ultraviolet light L2 can shine glue-line 52.In addition, first pressue device 250 between solidification equipment 290 and pliability making ide 230 can make ultraviolet light L2 shine glue-line 52 by dislocation, perforate or other suitable mode.

Fig. 4 is the synoptic diagram of the Embosser of another embodiment of the present invention.Please refer to Fig. 4, in the Embosser 300 of present embodiment, the configuration mode that first roller 310, second roller 320, pliability making ide 330, conveying belt 340, first pressue device 350, first are adjusted element 370a, the second adjustment element 370b and second pressue device 380 is identical with configuration mode shown in Figure 1, is not given unnecessary details at this.The Embosser 300 of Fig. 4 and the Embosser 100 of Fig. 1 different be in, the solidification equipment 360 of Embosser 300 is heating arrangement.At glue-line 52 under the situation of heat curing glue-line, solidification equipment 360 in order to heat glue-line 52 so that glue-line 52 solidify.Solidification equipment 360 for example is to heat glue-line 52 by baking, electric heating, hot blast or other suitable mode, and the present invention is not limited this.

Fig. 5 is the synoptic diagram of the Embosser of another embodiment of the present invention.Please refer to Fig. 5, in the Embosser 400 of present embodiment, the configuration mode that first roller 410, second roller 420, pliability making ide 430, conveying belt 440, first pressue device 450, first are adjusted element 470a, the second adjustment element 470b and second pressue device 480 is identical with configuration mode shown in Figure 1, is not given unnecessary details at this.The Embosser 400 of Fig. 5 and the Embosser 100 of Fig. 1 different be in, the solidification equipment 460 of Embosser 400 is cooling device.Be under the situation of thermoplasticity glue-line at glue-line 52, solidification equipment 460 in order to cool off glue-line 52 so that glue-line 52 solidify.Solidification equipment 360 for example is by providing cooling draught or other suitable mode to cool off glue-line 52, and the present invention is not limited this.In other embodiments, can not dispose cooling device yet and glue-line 52 is cooled off naturally.In addition, in the present embodiment, for example be by placing first roller 410 heating arrangement 490 heating glue-lines 52 before to make glue-line 52 softening, successfully to impress.

Below be example with the Embosser 100 of Fig. 1, method for stamping of the present invention is described.Fig. 6 is the process flow diagram of the method for stamping of one embodiment of the invention.Please refer to Fig. 1 and Fig. 6, move and process imprinting area R by first roller 110 and second roller, 120 drive pliability making ides 130, wherein pliability making ide 130 is around in first roller 110 and second roller 120, and imprinting area R is between first roller 110 and second roller 120 (step S602).Carry a plurality of substrates 50 through imprinting area R in regular turn by conveying belt 140, wherein have glue-line 52 (step S604) on each substrate 50.Provide the first forced air F1 to imprinting area by first pressue device 150, so that the pressurization of pliability making ide 130 by the first forced air F1 makes these substrates 50 through imprinting area R keep in touch (step S606) with pliability making ide 130.Solidify these glue-lines 52 (step S608) by solidification equipment 160.

Above-mentioned steps S602 and step S604 synchronously carry out, and for example be that translational speed and moving direction with pliability making ide 130 is controlled to be translational speed and the moving direction that is same as these substrates 50, so that 130 pairs of each glue-lines 52 of pliability making ide are when impressing, being unlikely to has the changing of the relative positions and destroys imprinted pattern with substrate 50.In addition, for example be to make at least wherein two (being three) of these substrates 50 be positioned at imprinting area R simultaneously in the diagram, simultaneously the glue-line 52 on a plurality of substrates 50 being impressed and to solidify, and the effect of continuous manufacturing that can reach similar production line is to save the average processing procedure time.

The method for stamping of present embodiment comprises that also adjusting element 170a by first adjusts the first section 130a with respect to the included angle A 1 of substrate 50, pliability making ide 130 can be contacted with suitable angle with glue-line 52 and enter imprinting area R, to reduce the probability that produce bubbles in the glue-line 52.In addition, the method for stamping of present embodiment comprises that also adjusting element 170b by second adjusts the second section 130c with respect to the included angle A 2 of substrate 50, pliability making ide 130 and glue-line 52 can be left and the demoulding, the probability that causes glue-line 52 to damage during with the reduction demoulding with suitable angle.In addition, the method for stamping of present embodiment also comprises by second pressue device 180 provides the second forced air F2 to imprinting area R, so that the pressurization of the second forced air F2 that the first forced air F1 that pliability making ide 130 provides by first pressue device 150 and second pressue device 180 provide makes these substrates 50 through imprinting area R keep in touch with pliability making ide 130.When solidification equipment 160 solidifies these glue-lines 52, pressurization by first pressue device 150 and second pressue device 180 makes these substrates 50 keep in touch with pliability making ide 130, how to improve the transcription rate of rice imprinted pattern, avoided before glue-line 52 solidifies fully, substrate 50 and pliability making ide 130 produces and separates or the changing of the relative positions and destroy imprinted pattern

In the present embodiment, each glue-line 52 is the photocuring glue-line, and the solidification equipment 160 in above-mentioned steps S608 is to emit beam to shine these glue-lines 52 that are stamped, so that glue-line 52 solidifies.In another embodiment, if each glue-line 52 is the heat curing glue-line, then utilize 360 pairs of glue-lines 52 of solidification equipment as shown in Figure 4 to heat to solidify glue-line 52.In another embodiment, if each glue-line 52 be the thermoplasticity glue-line, then utilization 460 pairs of glue-lines 52 of solidification equipment as shown in Figure 5 cool off to solidify glue-line 52, or allow each glue-line 52 cool off naturally and solidify.

Comprehensive the above, in the above embodiment of the present invention, has following one of them advantage at least, first roller and second roller drive the pliability making ide through imprinting area, and conveying belt carries these substrates to pass through imprinting area in regular turn, and be subjected to the curing of impression and the solidification equipment of pliability making ide with making these glue-line continuitys on these substrates, with the effect of the continuous manufacturing that reaches similar production line, save the average processing procedure time.In addition, exerting pressure of first forced air that flexible characteristic and first pressue device by the pliability making ide provides can allow the pliability making ide comparatively equably glue-line be impressed, to promote homogeneity and the integrality of impression.In addition, in the process of the movement of pliability making ide and impression, by the drive of roller and exerting pressure of first forced air, can force the bubble that is formed in the glue-line to be discharged from, produce bubble in the glue-line so needn't in vacuum environment, impress just can reduce, to save processing procedure cost and time.Moreover, can utilize the first adjustment element to adjust pliability making ide and the contacted angle of glue-line, with the probability of generation bubble in the reduction glue-line, and can utilize second to adjust the demoulding angle that element is adjusted pliability making ide and glue-line, the probability that causes glue-line to damage during with the reduction demoulding.

The above only is preferred embodiment of the present invention, can not limit scope of the invention process with this, and the simple equivalent of doing according to claim of the present invention and summary of the invention changes and revises, and all still belongs in the scope that patent of the present invention contains.In addition, arbitrary embodiment of the present invention or claim must not reached the disclosed whole purposes of the present invention or advantage or characteristics.In addition, summary part and title only are the usefulness of auxiliary patent document search, are not to limit interest field of the present invention.

Claims (19)

1. an Embosser comprises one first roller, one second roller, a pliability making ide, a conveying belt, one first pressue device and a solidification equipment,

Constitute an imprinting area between this first roller and this second roller,

This pliability making ide is around in this first roller and this second roller, and wherein this first roller and this second roller are suitable for driving that this pliability making ide moves and through this imprinting area,

This conveying belt is disposed at this first roller and this second roller below and is suitable for carrying a plurality of substrates in regular turn by this imprinting area, wherein respectively has a glue-line on this substrate,

This first pressue device is suitable for providing one first forced air to this imprinting area, and wherein this pliability making ide keeps in touch these substrates and this pliability making ide through this imprinting area by the pressurization of this first forced air,

The position of this solidification equipment is corresponding to this imprinting area and solidify these glue-lines.

2. Embosser as claimed in claim 1, it is characterized in that, comprise that also one first adjusts element, constitute one first section between this first roller and this first adjustment element, wherein this pliability making ide is around in this first roller and this first adjustment element, and this first adjustment element is suitable for driving this first section to adjust this first section with respect to the angle of this substrate.

3. Embosser as claimed in claim 1, it is characterized in that, comprise that also one second adjusts element, constitute one second section between this second roller and this second adjustment element, wherein this pliability making ide is around in this second roller and this second adjustment element, and this second adjustment element is suitable for driving this second section to adjust this second section with respect to the angle of this substrate.

4. Embosser as claimed in claim 1, it is characterized in that, also comprise one second pressue device, wherein this conveying belt is the pliability conveying belt, this first pressue device and this second pressue device are disposed at the top of this pliability making ide and the below of conveying belt respectively, this second pressue device provides one second forced air this pliability conveying belt to this imprinting area, and this pliability making ide and this pliability conveying belt keep in touch these substrates and this pliability making ide through this imprinting area by the pressurization of this first forced air and this second forced air.

5. Embosser as claimed in claim 1 is characterized in that, this conveying belt is the hard conveying belt.

6. Embosser as claimed in claim 1 is characterized in that, this glue-line is the photocuring glue-line, and this solidification equipment comprises a light-emitting device.

7. Embosser as claimed in claim 6 is characterized in that, this conveying belt and this substrate light-permeable, and this conveying belt is between this solidification equipment and this pliability making ide.

8. Embosser as claimed in claim 6 is characterized in that, this pliability making ide light-permeable and this pliability making ide are between this solidification equipment and this conveying belt.

9. Embosser as claimed in claim 1 is characterized in that, this glue-line is the heat curing glue-line, and this solidification equipment comprises a heating arrangement.

10. Embosser as claimed in claim 1 is characterized in that, this glue-line is the thermoplasticity glue-line, and this solidification equipment comprises a cooling device.

11. a method for stamping comprises:

Drive that a pliability making ide moves and by an imprinting area, wherein this pliability making ide is around in this first roller and this second roller by one first roller and one second roller, this imprinting area is between this first roller and this second roller;

Carry a plurality of substrates through this imprinting area in regular turn by a conveying belt, wherein respectively have a glue-line on this substrate;

Provide one first forced air to this imprinting area by one first pressue device, so that the pressurization of this pliability making ide by this first forced air kept in touch these substrates and this pliability making ide through this imprinting area; And

Solidify these glue-lines by a solidification equipment.

12. method for stamping as claimed in claim 11, it is characterized in that, drive the step that this pliability making ide moves and comprise that driving this pliability making ide enters this imprinting area and leave this imprinting area from this second roller from this first roller, this method for stamping comprises that also adjusting element by one first adjusts one first section that constitutes between this first roller and this first adjustment element with respect to the angle of this substrate.

13. method for stamping as claimed in claim 11, it is characterized in that, drive the step that this pliability making ide moves and comprise that driving this pliability making ide enters this imprinting area and leave this imprinting area from this second roller from this first roller, this method for stamping comprises that also adjusting element by one second adjusts one second section that constitutes between this second roller and this second adjustment element with respect to the angle of this substrate.

14. method for stamping as claimed in claim 11, also comprising by one second pressue device provides one second forced air to this imprinting area, so that the pressurization of this pliability making ide by this second forced air kept in touch these substrates and this pliability making ide through this imprinting area, wherein this first pressue device and this second pressue device are disposed at the top of this pliability making ide and the below of this conveying belt respectively.

15. method for stamping as claimed in claim 11 is characterized in that, this glue-line is the photocuring glue-line, and the step of solidifying these glue-lines comprises by this solidification equipment these glue-lines that irradiation is stamped that emit beam.

16. method for stamping as claimed in claim 11 is characterized in that, this glue-line is the heat curing glue-line, and the step of solidifying these glue-lines comprises by this solidification equipment and heats these glue-lines.

17. method for stamping as claimed in claim 11 is characterized in that, this glue-line is the thermoplasticity glue-line, and the step of solidifying these glue-lines comprises by this solidification equipment cools off these glue-lines.

18. method for stamping as claimed in claim 11 is characterized in that, carry the step of these substrates by this imprinting area to comprise in regular turn to make these substrates at least wherein two be positioned at this imprinting area simultaneously.

19. method for stamping as claimed in claim 11, it is characterized in that, drive this pliability making ide and move and carry these substrates to comprise translational speed and the moving direction that the translational speed that makes this pliability making ide and moving direction are same as these substrates through the step of these imprinting area.

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