CN105383983A - Base material transmission system - Google Patents

Abstract

The invention relates to a base material transmission system. The base material transmission system comprises a base material transferring device, a rolling rotating shaft and a wind pressure providing device. The base material transferring device is used for transferring a base material. The rolling rotating shaft is used for rolling the base material coming from the base material transferring device, and an included angle is formed between the base material and the rolling rotating shaft. As at least a part of the wind pressure providing device is located within the included angle formed between the base material and the rolling rotating shaft, wind pressure is applied in the manner of facing the included angle, and the degree of the included angle is changed, the base material located at the included angle can be supported to be flat, and folds can be prevented from generating.

Description

Substrate delivery system

Technical field

The invention relates to a kind of conveying technology of base material, and particularly about a kind of transmission system with the flexible substrate of rough surface.

Background technology

The transfer mode of current flexible substrate normally utilizes the technology of continuous Scroll (roll-to-roll) to realize.Furthermore, one end of flexible substrate can around unreeling on roller, and the other end of flexible substrate can around on rolling roller.Unreel roller and rolling roller can rotate simultaneously, and make flexible substrate from unreeling roller toward the transmission of rolling roller.

Many flexible substrates are had to be long rice base material (such as more than 1000 meters) at present, if this long rice base material is passed in tendency to develop, then need to allow this long rice base material maintain the state of high tension, can maintain in order to long rice base material and even up but not sagging state, thus allow long rice base material can successfully toward the transmission of rolling roller.But when long rice base material is maintained high tension state, the surface of long rice base material easily produces fold.

In general, eliminate fold the means commonly used have two kinds.The first means reduces rolling roller and the rotating speed unreeling roller.Although reduction rolling roller and the rotating speed unreeling roller can prevent the generation of fold, the decline of production capacity also can be caused.The second means reduce the tension force of long rice base material, but, if tension force reduces, then easily make long rice base material sagging, when even causing rolling, the situation of base material knocking over.

Summary of the invention

In view of this, an object of the present invention is to provide a kind of substrate delivery system, when reducing roller rotating speed and substrate tension, prevents flexible substrate from producing fold when rolling.

In order to achieve the above object, according to one embodiment of the present invention, a kind of substrate delivery system comprises a base material transfer device, a rolling rotating shaft and a blast generator.Base material transfer device transmits a base material.Rolling rotating shaft is in order to the base material of retracting from base material transfer device, and makes base material and rolling rotating shaft fold an angle.Blast generator is positioned at base material and the angle folded by rolling rotating shaft at least in part, and in order to bestow a blast towards angle, and change the angle of angle.

In above-mentioned embodiment, blast generator can bestow blast towards the angle folded by base material and rolling rotating shaft, therefore can be flat by the base material support being positioned at angle, thus prevents the generation of fold.

The above be only set forth the present invention for the problem solved, the technological means of dealing with problems and effect etc. of producing thereof, detail of the present invention is introduced in detail by embodiment hereafter and relevant drawings.

Accompanying drawing explanation

For above and other object of the present invention, feature, advantage and embodiment can be become apparent, appended the description of the drawings is as follows:

Fig. 1 illustrates the lateral plan of the substrate delivery system according to first embodiment of the invention;

Fig. 2 illustrates the block diagram of the blast generator shown in Fig. 1;

Fig. 3 illustrates the birds-eye view of the rolling rotating shaft shown in Fig. 1;

Fig. 4 illustrates the partial top view of the rough surface of the base material according to an embodiment of the present invention;

Fig. 5 illustrates the partial top view of the rough surface of the base material according to another embodiment of the present invention;

Fig. 6 illustrates the lateral plan of the substrate delivery system according to second embodiment of the invention;

Fig. 7 illustrates the block diagram of the blast generator shown in Fig. 6;

Fig. 8 illustrates the lateral plan of the substrate delivery system according to third embodiment of the invention;

Fig. 9 illustrates the lateral plan of the substrate delivery system according to four embodiment of the invention; And

Figure 10 illustrates the lateral plan of the substrate delivery system according to fifth embodiment of the invention.

Detailed description of the invention

Below will disclose multiple embodiment of the present invention with accompanying drawing, as clearly stated, the details in many practices will be explained in the following description.But those of ordinary skill in the art should recognize, in some embodiments of the present invention, the details in these practices is also non-essential, does not therefore apply to limit the present invention.In addition, for simplifying for the purpose of accompanying drawing, some known usual structures and element illustrate in the mode simply illustrated in the accompanying drawings.

First embodiment

Fig. 1 illustrates the lateral plan of the substrate delivery system according to first embodiment of the invention.As shown in Figure 1, in present embodiment, substrate delivery system can comprise base material transfer device 100, rolling rotating shaft 200 and blast generator 300.Base material transfer device 100 can transmit flexual base material 400 towards rolling rotating shaft 200.In other words, base material 400 can be passed to rolling rotating shaft 200 along the direction of transfer D1 shown in figure from base material transfer device 100.Rolling rotating shaft 200 can furl the base material 400 from base material transfer device 100, and makes base material 400 and rolling rotating shaft 200 fold an angle theta.Blast generator 300 is positioned at base material 400 and the angle theta folded by rolling rotating shaft 200 at least in part, and blast generator 300 can bestow blast towards angle theta, and change the angle of angle theta.

Because angle theta can be bestowed blast by blast generator 300, therefore the base material 400 be positioned at arround angle theta can be subject to the impact of blast and be put down by support, thus eliminates the fold because overtension produces.Thus, base material 400 can close in rolling rotating shaft 200 at the situation last volume of no wrinkle.In other words, though base material 400 maintain high tension and high pass speed when and fold may be produced, but due to this fold can eliminate by blast, therefore base material 400 can be made to close in rolling rotating shaft 200 at the situation last volume of no wrinkle.

Furthermore, as shown in Figure 1, in present embodiment, blast generator 300 can comprise air feed supervisor 310 and pliability discharge pipe 320.Pliability discharge pipe 320 is communicated with air feed supervisor 310, and in order to bestow blast towards angle theta.For example, air feed supervisor 310 can be communicated with outside gas feeder (not being shown in this figure), and can receive the gas that this gas feeder discharges.Pliability discharge pipe 320 has connectivity port 322 respect to one another and exposes port 324.Air feed supervisor 310 has towards the surface 312 of angle theta.Connectivity port 322 is communicated with the opening on surface 312 being positioned at air feed supervisor 310, and to expose port 324 be exposed in angle theta.Thus, 310 receiver gases can be responsible for from air feed in connectivity port 322, and this gas flow is after pliability discharge pipe 320, can be ejected in angle theta from exposure port 324, and bestow positive wine pressure to angle theta.Therefore, the base material 400 be positioned at arround angle theta can be propped up by gas, and can eliminate fold.When the base material 400 be positioned at arround angle theta is propped up by gas, the angle of angle theta can be increased.

In present embodiment, due to pliability discharge pipe 320 be have flexual, therefore operator can according to the position of angle theta, carry out bending flexible discharge pipe 320, to adjust the position of the exposure port 324 of pliability discharge pipe 320, make exposure port 324 be positioned at angle theta, and be beneficial to and bestow positive wine pressure towards angle theta.

In present embodiment, blast generator 300 bestows positive wine pressure to angle theta, and in other embodiments, blast generator 300 also can bestow negative blast to angle theta.For example, blast generator 300 can be communicated to vacuum pump, to extract the air in angle theta, and bestows negative blast to angle theta.The base material 400 be positioned at arround angle theta can be subject to the impact of this negative blast, and is pulled downwardly flat, and fold can be made to eliminate.Be subject to the impact of negative blast when the base material 400 be positioned at arround angle theta and be pulled downwardly at ordinary times, the angle of angle theta can be reduced.

Fig. 2 illustrates the block diagram of the blast generator 300 shown in Fig. 1.As shown in Figure 2, in present embodiment, the quantity of pliability discharge pipe 320 can be multiple.Each pliability discharge pipe 320 has air-out direction D2.The air-out direction D2 of at least two pliability discharge pipes 320 is not parallel.In other words, the air-out direction D2 of at least two pliability discharge pipes 320 is different.Because these pliability discharge pipes 320 towards different air-out direction D2 air-out, therefore for the different fold degree of the upper different regional area of base material 400 (can consult Fig. 1), can be bestowed different blast, thus bestow the suitable blast of each regional area.Furthermore, because these pliability discharge pipes 320 all have pliability, therefore when operating, operator can for the fold degree of regional area different on base material 400, carry out bending flexible discharge pipe 320, to adjust the air-out direction D2 of pliability discharge pipe 320, make each regional area all can be bestowed suitable blast.

Fig. 3 illustrates the birds-eye view of the rolling rotating shaft 200 shown in Fig. 1.As shown in Figure 3, in present embodiment, rolling rotating shaft 200 has rolling region 210 and non-rolling region 220.Non-rolling region 220 is positioned at outside rolling region 210.Base material 400 in rolling rotating shaft 200 is covered with on rolling region 210, and be not positioned on non-rolling region 220.In other words, rolling rotating shaft 200 only have rolling region 210 be furnished with base material 400, but not without being furnished with base material 400 on rolling region 220.Rolling rotating shaft 200 has axial direction A.Rolling region 210 has width d in the axial direction A of rolling rotating shaft 200, and 300 Hao meter ≤d≤1500 millimeter.In other words, the fabric width of base material 400 that this substrate delivery system can be transmitted is between 300 millimeters to 1500 millimeters.

In present embodiment, base material 400 has coarse surface 401.The roughness height on this coarse surface 401 is at least 4 nanometers.Should be appreciated that, the roughness described in this specification is the center line average roughness (centerlineaverageroughness) that representative utilizes the surface measured by probe-type surface analysis instrument (analyser that the model provided by KosakaLaborataryLtd. is ET4000A).In some embodiments, the roughness height on surface 401 can between 4 to 1500 nanometers.Although coarse surface 401 has ups and downs microstructure, and base material 400 may be caused when transmitting, the tension force that surface 401 is born is uneven, causes surface 401 to produce gauffer.But, because the base material 400 be positioned at arround angle theta can be subject to blast, even if therefore uneven tension force is born because of its ups and downs microstructure in coarse surface 401, this surface 401 also can be subject to the impact of blast and support flat, to prevent the generation of fold.

In some embodiments, aforementioned rough surface 401 can have fixing one patterned (pattern), for example, has the surface 401 of fixing one patterned as shown in Figures 4 and 5.In detail, as shown in Figure 4, surface 401 can be provided with the section difference structure 402 of intermittent arrangement.These sections of difference structures 402 can rectangular pattern by what overlook sight.Spacing I1 between adjacent two sections of poor structures 402 can be fixing (as between 250 microns to 650 microns), and these section difference structures 402 can be raised or sunken in surface 401, and with surface 401 at a distance of one section of difference (as 1.5 microns), and present concavo-convex fluctuating shape.In addition as shown in Figure 5, surface 401 can be provided with the section difference structure 402a of intermittent arrangement.These section of difference structure 402a is the pattern be made up of multiple string diamond block together by what overlook sight.Maximum spacing I2 between adjacent two sections of poor structure 402a can be fixing (as 300 microns), and the long L of hypotenuse of the diamond block of each section of difference structure 402a can be 250 microns.These section differences structure 402a can be raised or sunken in surface 401, and with surface 401 at a distance of one section of difference (as 1.5 microns), and present concavo-convex fluctuating shape.In some embodiments, rough surface 401 also can be the convex-concave surface of irregular (in uneven thickness) without fixing one patterned.

In present embodiment, as shown in Figure 1, substrate delivery system also can comprise and unreels actuating device 500 and rolling actuating device 600.Base material transfer device 100 can comprise and unreels rotating shaft 110, and base material 400 can be wound in this unreels in rotating shaft 110.Unreeling rotating shaft 110 is rotate (such as: both rotate clockwise) along equidirectional with rolling rotating shaft 200, to make base material 400 along direction of transfer D1, transmits towards rolling rotating shaft 200.Unreel actuating device 500 can be coupled in and unreel rotating shaft 110, and unreel rotating shaft 110 rotate in order to drive, and rolling actuating device 600 can be coupled in rolling rotating shaft 200, and in order to drive rolling rotating shaft 200 to rotate along the rotation direction identical with unreeling rotating shaft 110.

In other embodiments, substrate delivery system also can adopt and unreel actuating device 500 and rolling actuating device 600, and changes to rotate in artificial mode and unreel rotating shaft 110 and rolling rotating shaft 200.

Embodiment 1

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, wherein the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, base material thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.5 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Embodiment 2

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between the present embodiment and embodiment 1 is that the blast that blast generator 300 provides is more weak.Specifically, the material of base material 400 is polyethylene terephthalate (PET), and the fabric width of base material 400 is 650 millimeters, and length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.1 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Embodiment 3

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between the present embodiment and embodiment 1 is that the blast that blast generator 300 provides is stronger.Specifically, the material of base material 400 is polyethylene terephthalate (PET), and the fabric width of base material 400 is 650 millimeters, and length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.9 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Embodiment 4

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between the present embodiment and embodiment 1 is that the roughness height on the surface 401 of base material 400 is higher.Specifically, the material of base material 400 is polyethylene terephthalate (PET), and the fabric width of base material 400 is 650 millimeters, and length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 1.5 microns.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.5 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Embodiment 5

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between the present embodiment and embodiment 4 is that the blast that blast generator 300 provides is more weak.Specifically, the material of base material 400 is polyethylene terephthalate (PET), and the fabric width of base material 400 is 650 millimeters, and length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 1.5 microns.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.1 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Embodiment 6

The present embodiment adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between the present embodiment and embodiment 4 is that the blast that blast generator 300 provides is stronger.Specifically, the material of base material 400 is polyethylene terephthalate (PET), and the fabric width of base material 400 is 650 millimeters, and length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 1.5 microns.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.9 kilogram weights, and rolling speed is when being set as 15 meters/minute, rolling rotating shaft 200 can rolling base material 400 smoothly, and the base material 400 in rolling rotating shaft 200 can not produce fold.

Comparative example 1

This comparative example adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between this comparative example and embodiment 1 is that the blast that blast generator 300 provides is more weak.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 4.0 kilogram weights, and rolling speed is when being set as 15 meters/minute, though rolling rotating shaft 200 can rolling base material 400 smoothly, the base material 400 in rolling rotating shaft 200 can produce fold.It can thus be appreciated that when blast is 4.0 kilogram weight, this blast is not enough to base material 400 to support flat, and cannot eliminate fold completely.

Comparative example 2

This comparative example adopts the substrate delivery system shown in Fig. 1 to transmit base material 400, and the difference between this comparative example and comparative example 1 is that the blast that blast generator 300 provides is stronger.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, the blast that blast generator 300 provides is set as 5.0 kilogram weights, and rolling speed is when being set as 15 meters/minute, though rolling rotating shaft 200 can rolling base material 400 smoothly, excessive blast can produce gas line by the base material 400 in rolling rotating shaft 200.It can thus be appreciated that, when blast is 5.0 kilogram weight, though this blast is enough to base material 400 to support flat, lines can be left because wind-force is excessive on base material 400.

Comparative example 3

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 1 omits blast generator 300 except being, also comprises the decline of rolling speed.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, and when rolling speed is set as 5 meters of/minute, though rolling rotating shaft 200 can rolling base material 400 smoothly, the decline of rolling speed can cause the decline of production capacity further.

Comparative example 4

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 3 is the rising of rolling speed.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, and rolling speed is when being set as 9 meters/minute, though rolling rotating shaft 200 can rolling base material 400 smoothly, this rolling speed still lower than the rolling speed (15 meters/minute) of embodiment 1 to 6, therefore can cause the decline of production capacity.

Comparative example 5

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 3 is the rising of rolling speed.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 10 kilogram weights, and when rolling speed is set as 10 meters of/minute, though rolling rotating shaft 200 can rolling base material 400 smoothly, too fast rolling speed causes base material 400 and produces fold.

Comparative example 6

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 3 is the decline of base material 400 winding tension and the rising of rolling speed.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 3 kilogram weights, and when rolling speed is set as 15 meters of/minute, though rolling rotating shaft 200 can the base material of speed rolling faster 400, because tension force declines, therefore base material 400 easily shake and easily damaging or scratch.

Comparative example 7

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 6 is the rising of base material 400 winding tension.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 5 kilogram weights, and when rolling speed is set as 15 meters of/minute, because tension force is not enough, therefore base material 400 easily departs from the surface of rolling rotating shaft 200, and cannot rolling smoothly, the situation of generation knocking over.

Comparative example 8

This comparative example adopts shown in Fig. 1, but do not have the substrate delivery system of blast generator 300 to transmit base material 400, and the difference between this comparative example and comparative example 7 is the rising of base material 400 winding tension.Specifically, the material of base material 400 is polyethylene terephthalate (Polyethyleneterephthalate, PET), and the fabric width of base material 400 is 650 millimeters, length is 3000 meters, and thickness is 50 microns, and the roughness height on the surface 401 of base material 400 is 4 nanometers.When the winding tension of base material 400 is set as 8 kilogram weights, and when rolling speed is set as 15 meters of/minute, tension force is still not enough to strain base material 400, therefore base material 400 still easily departs from the surface of rolling rotating shaft 200, and cannot rolling smoothly, the situation of generation knocking over.

Second embodiment

Fig. 6 illustrates the lateral plan of the substrate delivery system according to second embodiment of the invention.Fig. 7 illustrates the block diagram of the blast generator 300a shown in Fig. 6.As shown in the 6th and 7 figure, the Main Differences between present embodiment from the first embodiment is that blast generator 300a's is different.The blast generator 300a of present embodiment can be Air knife mechanism.Specifically, blast generator 300a can comprise air feed supervisor 310a.Air feed supervisor 310a has surperficial 312a and air outlet 314a.Surface 312a is towards angle theta.Air outlet 314a is opened in surperficial 312a, to bestow blast towards angle theta, and changes the angle of angle theta, thus supports the base material 400 arround flat angle theta.

For example, air feed supervisor 310a can be communicated with outside gas feeder (not being shown in this figure), and receives the gas that this gas feeder discharges.Because the surperficial 312a of air feed supervisor 310a offers air outlet 314a, therefore the gas that air feed supervisor 310a receives can spray from air outlet 314a towards angle theta.And positive wine pressure is bestowed to angle theta.Therefore, the base material 400 be positioned at arround angle theta can be propped up by gas, and can eliminate fold.When the base material 400 be positioned at arround angle theta is propped up by gas, the angle of angle theta can be increased.

In present embodiment, blast generator 300a bestows positive wine pressure to angle theta, and in other embodiments, blast generator 300a also can bestow negative blast to angle theta.For example, blast generator 300a can be communicated to vacuum pump, to extract the air in angle theta, and bestows negative blast to angle theta.The base material 400 be positioned at arround angle theta can be subject to the impact of this negative blast, and is pulled downwardly flat, and fold can be made to eliminate.Be subject to the impact of negative blast when the base material 400 be positioned at arround angle theta and be pulled downwardly at ordinary times, the angle of angle theta can be reduced.

The other technologies feature of present embodiment with above in the contained content of the first embodiment identical, therefore not repeated description.

3rd embodiment

Fig. 8 illustrates the lateral plan of the substrate delivery system according to third embodiment of the invention.As shown in Figure 8, the Main Differences between present embodiment and the first embodiment is that the blast generator 300 of present embodiment is moveable.Specifically, the substrate delivery system of present embodiment can comprise mobile device 710.Mobile device 710 can be coupled in blast generator 300, and can by blast generator 300 along the direction away from rolling rotating shaft 200 or move close to the direction of rolling rotating shaft 200.Thus, the visual demand of operator moves blast generator 300.For example, mobile device 710 can when blast generator 300 be excessively far away apart from base material 400, blast generator 300 is moved along the direction close to rolling rotating shaft 200, or when blast generator 300 is excessively near apart from base material 400, blast generator 300 is moved along the direction away from rolling rotating shaft 200, to prevent blast generator 300 contact substrate 400, and interfere the rolling operation of base material 400.

In some embodiments, as shown in Figure 8, substrate delivery system can comprise distance arrangement for detecting 720 and mobile inspire device 730.Distance arrangement for detecting 720 is the shortest distances detecting blast generator 300 to base material 400.The mobile device 730 that inspires is coupled in distance arrangement for detecting 720 and mobile device 710, with when the shortest distance of blast generator 300 to base material 400 is less than preset value, inspires mobile device 710 and move blast generator 300.Thus, when base material 400 continues to furl in rolling rotating shaft 200, the base material 400 in rolling rotating shaft 200 is made to accumulate thicker, and when moving closer to the exposure port 324 of pliability discharge pipe 320, distance arrangement for detecting 720 can detect the distance exposing port 324 to base material 400 and be less than preset value, and blast generator 300 is moved towards the direction away from rolling rotating shaft 200 by mobile device 710, to prevent exposure port 324 contact substrate 400 of pliability discharge pipe 320, and interfere the rolling operation of base material 400.

The other technologies feature of present embodiment with above in the contained content of the first embodiment identical, therefore not repeated description.

4th embodiment

Fig. 9 illustrates the lateral plan of the substrate delivery system according to four embodiment of the invention.As shown in Figure 9, the Main Differences between present embodiment and the first embodiment is that the substrate delivery system of present embodiment can comprise processing unit (plant) 800.Base material transfer device 100 and rolling rotating shaft 200 are the relative both sides being positioned at processing unit (plant) 800.In other words, processing unit (plant) 800 is between base material transfer device 100 and rolling rotating shaft 200, and position is on the bang path of base material 400.Processing unit (plant) 800 can do processing process to base material 400.For example, in some embodiments, processing unit (plant) 800 can be pay-off, with feeding on base material 400.In some embodiments, processing unit (plant) 800 can be spray equipment, to carry out spraying operation to base material 400.In some embodiments, processing unit (plant) 800 can be heating arrangement, to heat base material 400.Should be appreciated that, above-mentioned processing unit (plant) 800 is only illustration, and is not used to limit the present invention.

The other technologies feature of present embodiment with above in the contained content of the first embodiment identical, therefore not repeated description.

5th embodiment

Figure 10 illustrates the lateral plan of the substrate delivery system according to fifth embodiment of the invention.As shown in Figure 10, the Main Differences between present embodiment and the first embodiment is that the substrate delivery system of present embodiment comprises relaying rotating shaft 900.Base material transfer device 100 and rolling rotating shaft 200 are the relative both sides laying respectively at relaying rotating shaft 900, and the position at relaying rotating shaft 900 place is the position higher than rolling rotating shaft 200 place.Part thereof 400 can walk around relaying rotating shaft 900, and draw high by relaying rotating shaft 900.Specifically, relaying rotating shaft 900 is on the bang path of base material 400, and the level height of its position is higher than unreeling the level height of rotating shaft 110 with rolling rotating shaft 200 position.

Thus, part thereof 400 can walk around relaying rotating shaft 900 and draw high by relaying rotating shaft 900, therefore the angle of base material 400 and the angle theta folded by rolling rotating shaft 200 can be increased, and be further beneficial to blast generator 300 towards angle theta and bestow blast, to support flat base material 400, and to prevent fold from producing.

The other technologies feature of present embodiment with above in the contained content of the first embodiment identical, therefore not repeated description.

Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention; anyly be familiar with this those skilled in the art; without departing from the spirit and scope of the present invention; when being used for a variety of modifications and variations, the scope that therefore protection scope of the present invention ought define depending on appending claims is as the criterion.

Claims (12)

1. a substrate delivery system, is characterized in that, comprises:

One base material transfer device, in order to transmit a base material;

One rolling rotating shaft, in order to retracting this base material from this base material transfer device, and makes this base material and this rolling rotating shaft fold an angle; And

One blast generator, is positioned at this base material and this angle folded by this rolling rotating shaft at least in part, in order to bestow a blast towards this angle, and changes the angle of this angle.

2. substrate delivery system according to claim 1, is characterized in that, this blast generator comprises:

One air feed supervisor; And

At least one pliability discharge pipe, is communicated with this air feed supervisor, and in order to bestow a blast towards this angle.

3. substrate delivery system according to claim 2, is characterized in that, the quantity of described at least one pliability discharge pipe is multiple, described pliability discharge pipe wherein at least both air-out directions are not parallel.

4. substrate delivery system according to claim 1, is characterized in that, also comprise:

One mobile device, in order to by this blast generator along the direction away from this rolling rotating shaft or move close to the direction of this rolling rotating shaft.

5. substrate delivery system according to claim 4, is characterized in that, also comprise:

One distance arrangement for detecting, in order to detect the shortest distance of this blast generator to this base material; And

One moves and inspires device, when this blast generator is less than a preset value to this shortest distance of this base material, moves this blast generator in order to inspire this mobile device.

6. substrate delivery system according to claim 1, it is characterized in that, this rolling rotating shaft has a rolling region and is positioned at the extra-regional non-rolling region of this rolling, wherein this base material is covered with on this rolling region and is not positioned on this non-rolling region, wherein this rolling region has a width d on an axial direction of this rolling rotating shaft, wherein 300 Hao meter ≤d≤1500 millimeter.

7. substrate delivery system according to claim 1, is characterized in that, this blast generator comprises:

One air feed supervisor, this air feed supervisor has surface and a multiple air outlet, and this surface is towards this angle, and described air outlet is opened in this surface.

8. substrate delivery system according to claim 1, is characterized in that, this base material transfer device comprises:

One unreels rotating shaft, and it rotates along equidirectional with this rolling rotating shaft, and this base material is transmitted towards this rolling rotating shaft.

9. substrate delivery system according to claim 1, is characterized in that, also comprise:

At least one processing unit (plant), this base material transfer device and this rolling rotating shaft are the relative both sides being positioned at this processing unit (plant), and this processing unit (plant) is in order to do processing process to this base material.

10. substrate delivery system according to claim 9, is characterized in that, this processing unit (plant) is a pay-off, a spray equipment or a heating arrangement.

11. substrate delivery systems according to claim 1, it is characterized in that, this base material has coarse surface, and the roughness height on this surface is at least 4 nanometers.

12. substrate delivery systems according to claim 1, it is characterized in that, this base material has coarse surface, and the roughness height on this surface is for being between 4 to 1500 nanometers.