JP3905601B2 - Film pasting method and apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a film attaching method and apparatus for attaching a film to the surface of a substrate exemplified by a printed wiring board substrate, a liquid crystal display device, and a glass substrate of a plasma display device.
[0002]
[Prior art]
In the process of manufacturing a printed wiring board used for electronic devices such as computers, a conductive layer on the surface of the printed wiring board substrate is formed on a translucent support film (usually a translucent resin film typified by polyester). A laminate film in which a photosensitive resin layer is formed directly or via an intervening layer and covered with a cover film is peeled off and attached to the laminate film. Thereafter, the wiring pattern film is overlaid, and the photosensitive resin layer is exposed for a predetermined time through the wiring pattern film and the translucent support film. Next, after peeling off the translucent support film, the exposed photosensitive resin layer is developed to form an etching mask pattern, and then unnecessary portions of the conductive layer are removed by etching, whereby predetermined A printed wiring board having the following wiring pattern is formed. In addition, a similar laminate film is applied in a process of forming display cells on a glass substrate of a liquid crystal display device or a plasma display device.
[0003]
As a film pasting apparatus for pasting the laminate film as described above, a continuous film is unwound from a film roll, and a plurality of substrates are sequentially and intermittently transported on a substrate transport surface by a transport means. Along the film tension surface, the photosensitive resin layer is on the film tension surface side, and the two layers are passed between the lamination rolls, and the film is continuously crimped to a plurality of substrates. There is a so-called continuous tension type in which the substrate is conveyed.
[0004]
The translucent support film attached to the substrate must be peeled off before or after exposure and before the development process, leaving the photosensitive resin layer on the substrate side. Or it must later be separated between each substrate.
[0005]
When the translucent support film is pulled in the peeling direction, if the photosensitive resin layer on the back side is continuous from the protruding portion from the substrate onto the substrate, it must be left when peeling the translucent support film. There is a problem that the photosensitive resin layer on the substrate is peeled off following the photosensitive resin layer at the protruding portion.
[0006]
In order to solve these problems, conventionally, in a film peeling apparatus disclosed in, for example, Japanese Patent Application Laid-Open No. 7-157186, after a film is continuously attached to a substrate, a photosensitive resin is formed at a gap position between the substrates. Only the layer is cut in the film width direction along the edge of the substrate, and then the translucent support film is continuously peeled, and at this time, the peeled translucent support film side is A photosensitive resin layer is attached between the substrates.
[0007]
Moreover, in the film pasting apparatus disclosed in Japanese Patent Laid-Open No. 8-150694, slits are formed in the width direction of the film in advance in the portions of the photosensitive resin layer corresponding to the respective substrates, and are continuously pasted to the substrates as they are. Then, after pasting, the substrate is cut at positions between the substrates, and the translucent support film is peeled off from the cut edge.
[0008]
Furthermore, the film pasting apparatus disclosed in Japanese Patent Application Laid-Open No. 7-110575 discloses a cover film and a photosensitive resin inside the cover film, which are slightly wider than both ends of a portion corresponding to each substrate before peeling the cover film. The film was cut in the film width direction together with the layer, and then only the cover film to be attached to the substrate was peeled off with an adhesive tape to expose the photosensitive resin layer, and in this state, it was continuously attached to the substrate. Is. After pasting, the translucent support film is cut with a cutter at each inter-substrate position.
[0009]
[Problems to be solved by the invention]
As disclosed in Japanese Unexamined Patent Publication No. 7-110575, when the photosensitive resin layer is cut together with the cover film, only the cover film of the portion attached to the substrate has to be selectively peeled off. However, there is a problem that the processing speed is inevitably reduced.
[0010]
Further, when only the photosensitive resin layer is cut at a gap position between the substrates while the film is stuck to the substrate as in the film pasting device of JP-A-7-157186, the alignment of the cutting device is performed. When the structure is complicated and the viscosity of the photosensitive resin layer is low or thin, cutting is very difficult, and the photosensitive resin adheres to the blade edge of the cutter during the cutting, and this surrounds the surroundings. There is a problem of getting dirty.
[0011]
The present invention has been made in view of the above-described conventional problems. The photosensitive resin layer can be cut before being attached to the substrate, and when the photosensitive resin layer is cut together with the cover film, the cut is made. It is not necessary to peel off the cover film of the part, so that a complicated peeling mechanism is unnecessary, the processing speed can be improved, and the translucent support film can be peeled continuously. It is an object to provide an attaching method and apparatus.
[0012]
[Means for Solving the Problems]
The method of the present invention is the method of claim 1, wherein the photosensitive resin layer of the laminate film formed by laminating at least two layers of the translucent support film and the photosensitive resin layer unwound from the film roll is provided. The thickness direction of the translucent support film at two predetermined intervals in the film longitudinal direction One After cutting in the film width direction, leaving the part, the translucent support film is transported so that the photosensitive resin layer faces the film-pasting surface of a plurality of substrates that are intermittently fed sequentially. A translucent support that is fed along a surface and fed together with the substrate between a pair of rotating lamination rolls to continuously connect a plurality of substrates to be intermittently connected, and then to the substrate Film continuously from substrate Wind up A step of peeling, wherein the two portions to be cut are substantially corresponding to the rear end of the substrate and the front end of the substrate following the substrate. In addition, when the translucent support film is continuously wound from the substrate and peeled off, the photosensitive resin layer between the two locations is continuously wound in a state of being attached to the translucent support film. In The above-mentioned object is achieved by a film sticking method characterized by the above.
[0013]
According to a second aspect of the present invention, the film may be cut while moving the means for cutting the photosensitive resin layer along the laminated film in the same direction and in the same direction.
[0014]
As in claim 3, a tensile force adjusting means for adjusting the tensile force of the laminate film is disposed at a position before and after cutting the photosensitive resin layer, and the tensile force is applied to the laminate film. The photosensitive resin layer may be cut.
[0015]
According to the present invention, as in claim 4, a film supply source that continuously supplies at least a light-transmitting support film and a photosensitive resin layer in a strip shape, and a substrate transport surface. A pair of laminations for feeding a substrate conveying means for continuously conveying a plurality of substrates and the translucent support film while sandwiching the substrate so that the photosensitive resin layer faces the substrate conveying surface. A film pasting apparatus for continuously pasting the laminate film on a plurality of substrates that are sequentially and intermittently conveyed,
The photosensitive resin layer is formed at two predetermined intervals substantially equal to the distance between the rear end of the preceding substrate and the front end of the subsequent substrate conveyed by the substrate conveying means in the film longitudinal direction. Leave a part in the thickness direction of the translucent support film A cutter that cuts in the film width direction, and the translucent support film that is disposed on the exit side of the lamination roll and is attached to the substrate, is continuously removed from the substrate. Wind up A support film peeling means for peeling off At the same time, when the support film peeling means is continuously wound up and peeled off from the substrate, the photosensitive resin layer between the two places is continuously attached to the transparent support film. By a film sticking device characterized in that it is configured to wind up automatically The above object is achieved.
[0016]
As in claim 5, a pair of the cutters are disposed at the predetermined interval in the film longitudinal direction and are movable in the film width direction, and are opposed to the tip of the disk cutter via the film conveyance surface. And a cutter stand that supports the laminate film when the disc cutter moves in the film width direction, and includes the pair of disc cutters and the cutter stand in the feeding direction of the laminate film. Can be moved at the same speed as this Ru A tutter moving device may be provided.
[0017]
As in claim 6, a tension applying device that applies tension in the longitudinal direction of the film may be provided on the laminate film in the vicinity of the cutter.
[0018]
According to another invention of the present invention, a light-transmitting support film unwound from a film roll, a photosensitive resin layer directly or indirectly laminated on the light-transmitting support film, The cover film of a laminate film having a cover film laminated with a light-sensitive resin layer, together with the photosensitive resin layer, at two predetermined intervals in the film longitudinal direction, Thickness direction One The cover film including the cut portion is cut in the film width direction, the adhesive film of the adhesive tape is pressed and peeled off from the photosensitive resin layer, the cover film is peeled off, and then the translucent support film is removed. The photosensitive resin layer is supplied along the substrate transfer surface so that the photosensitive resin layer is directed to the film-pasting surface of the plurality of substrates that are sequentially and intermittently fed between the pair of rotating lamination rolls together with the substrate. Then, a plurality of substrates are intermittently connected to each other so as to be intermittently connected, and then a light-transmissive supporting film attached to the substrate is continuously attached from the substrate. Wind up A step of peeling, wherein the two portions to be cut are substantially corresponding to the rear end of the substrate and the front end of the substrate following the substrate. In addition, when the translucent support film is continuously wound from the substrate and peeled off, the photosensitive resin layer between the two locations is continuously wound in a state of being attached to the translucent support film. In The above-mentioned object is achieved by a film sticking method characterized by the above.
[0019]
The film may be cut while moving the means for cutting the photosensitive resin layer along the laminate film in the same direction and in the same direction as in the eighth aspect.
[0020]
Further, as described in claim 9, a tensile force adjusting means for adjusting the tensile force of the laminate film is disposed at a position before and after the photosensitive resin layer is cut, and the tensile force is applied to the laminate film. While , Mosquito The bar film and the photosensitive resin layer may be cut.
[0021]
Another invention of the present invention includes a translucent support film, a photosensitive resin layer laminated on the translucent support film, and a cover film laminated over the photosensitive resin layer. A film supply source for continuously supplying the laminate film in a strip shape, a cover film peeling means for continuously peeling the cover film from the laminate film supplied from the film supply source, and a plurality along the substrate transport surface The substrate transport means for continuously transporting the substrate and the translucent support film from which the cover film has been peeled are sent while being sandwiched between the substrate so that the photosensitive resin layer faces the substrate transport surface. A laminate film on which a cover film is peeled off continuously on a plurality of substrates which are sequentially and intermittently conveyed. In kicking film applying apparatus,
2 at a predetermined interval approximately equal to the distance between the rear end of the preceding substrate and the front end of the subsequent substrate conveyed by the substrate conveying means in the film longitudinal direction at a position between the film supply source and the cover film peeling means. In place, the translucent film, together with the photosensitive resin layer, the cover film Support film Thickness direction One A cover film cutter that cuts in the film width direction leaving a portion, and the translucent support film that is disposed on the exit side of the lamination roll and is attached to the substrate, continuously from the substrate Wind up A support film peeling means for peeling, and the cover film peeling means for continuously sticking the adhesive surface of the adhesive tape to the cover film including the portion cut at the two locations, and the film transport surface So that the cover film is continuously peeled away from the The support film peeling means is continuously wound in a state where the photosensitive resin layer between the two places is attached to the translucent support film when the translucent support film is continuously wound and peeled off from the substrate. To take It is configured to achieve the above object.
[0022]
As in claim 11, a pair of the cover film cutters are arranged at the predetermined interval in the film longitudinal direction and are movable in the film width direction, and the tip of the disk cutter is interposed via the film conveyance surface. And a cutter stand that supports the laminate film when the disc cutter moves in the film width direction, and the pair of disc cutters and the cutter stand are arranged on the laminate film. A cover film cutter moving device that can be moved at a constant speed in the feeding direction may be provided.
[0023]
Moreover, you may provide the tension | tensile_strength provision apparatus which provides the tension | tensile_strength of a film longitudinal direction to the said laminated body film in the vicinity of the said cover film cutter like Claim 12.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail with reference to the drawings.
[0025]
As shown in FIG. 1, the film tensioning apparatus 10 according to the present invention unwinds a laminate film 14 from a film roll 12 that is a film supply source, and forms a cover film 14 </ b> C (described later) constituting the laminate film 14. Is peeled off by the cover film peeling device 16, and then superimposed on the upper surfaces of the plurality of substrates 20 that are sequentially and intermittently conveyed by the substrate conveying device 18, and is passed between the upper and lower lamination rolls 22 </ b> A and 22 </ b> B together with the substrate 20. The laminate film 14 is pressure-bonded to the substrate 20.
[0026]
The laminate film 14 that is continuously press-bonded to the plurality of substrates 20 is continuously peeled off from each substrate 20, thereby being separated for each substrate.
[0027]
As shown in FIG. 2, the laminate film 14 is laminated so as to cover the translucent support film 14A, the photosensitive resin layer 14B laminated on the translucent support film, and the photosensitive resin layer 14B. The cover film 14 </ b> C is formed and continuously unwound from the film roll 12 wound in a band shape. Here, “translucency” in the translucent support film 14 means that light or a beam that exposes the photosensitive resin layer 14B, that is, visible light, ultraviolet light, X-ray, electron beam, or the like can be transmitted.
[0028]
The unwinding tension of the film roll 12 is controlled by a torque motor 12A. The laminate film 14 unwound from the film roll 12 is wound around a pair of guide rolls 26A and 26B, and is extended along a horizontal film transport surface from here and wound around a tension applying suction roll 28. It has been.
[0029]
The tension applying suction roll 28 has a large number of suction holes on its outer periphery, and is rotated while sucking the wound laminated film 14 (detailed illustration is omitted).
[0030]
Here, the laminate film 14 is configured such that the cover film 14 </ b> C is on the upper side between the guide roll 26 </ b> B and the tension applying suction roll 28.
[0031]
The cover film peeling device 16 is provided at a position immediately before the tension applying suction roll 28, and the adhesive tape 32 unwound from the adhesive tape roll 30 toward the cover film 14C side is used as two pairs of pinch rolls. When the adhesive tape 32 is taken up by the take-up roll 36, the cover film 14C is peeled off from the photosensitive resin layer 14B and taken up at the same time.
[0032]
The cover film 14C is placed at a position between the guide roll 26B and the cover film peeling device 16 at two locations having a predetermined interval in the film feeding direction, leaving the translucent support film 14A in the laminate film 14. A cover film cutter 38 that cuts in the film width direction is provided together with the photosensitive resin layer 14B.
[0033]
The cover film cutter 38 is opposed to the pair of disc cutters 38A and 38B arranged at the predetermined intervals in the film feeding direction and the tips (lower ends) of the disc cutters 38A and 38B via the film conveyance surface. And when the disc cutters 38A and 38B move in the film width direction, the disc cutters 38A and 38B include a horizontal cutter base 38C that supports the laminate film. Here, the cutter base 38 </ b> C is formed to have a length that covers the lower side in the width direction in the drawing of the laminate film 14.
[0034]
As shown in FIG. 3, the disk cutters 38A and 38B are driven in the film width direction by a driving device 38D made of, for example, a rodless cylinder, and once or twice in the width direction, the cover film 14C is covered once or twice. Has been cut off.
[0035]
The cutter table 38C and the driving device 38D can be moved at the same speed in the same direction in synchronization with the feeding of the laminated film 14 by the cover film cutter moving device 40. Therefore, the disk cutters 38A and 38B can perform so-called running cut without stopping the feeding of the laminated film 14.
[0036]
The cover film cutter moving device 40 includes a rack 40A arranged in parallel with the film conveying surface and a pinion 40B meshing with the rack 40A. The pinion 40B is attached to the cutter base 38C and the driving device 38D, and the pinion 40B By being driven by the motor 40C, the disk cutters 38A and 38B and the cutter base 38C are moved in synchronization with the laminate film 14.
[0037]
A guide roll for guiding the laminated film 14 (the translucent support film 14A and the photosensitive support layer 14B) from which the cover film 14C has been peeled off between the tension applying suction roll 28 and the lamination rolls 22A and 22B. 42A, 42B and the film preheater 42C are arranged in this order.
[0038]
The upper guide roll 42A is provided with a tension pickup 44. The force applied to the guide roll 42A is used to detect the tensile force of the laminated film 14 at this position, thereby controlling the film tension to be optimum. The negative pressure of the tension applying suction roll 28 is controlled via the device 46.
[0039]
The guide roll 42B guides the laminated film 14 so that it enters obliquely between the lamination rolls 22A and 22B, and the film preheater 42C heats the laminated film 14 to a predetermined temperature immediately before the substrate pressure bonding. Is.
[0040]
Reference numeral 48 in FIG. 1 denotes a heater for heating the substrate 20 on the substrate transfer surface 18A formed at the upper end of the substrate transfer device 18.
[0041]
On the downstream side of the lamination rolls 22A and 22B, pinch rolls 50A and 50B that are spaced apart from each other in the substrate transport direction, and a support film winding roll 60 are disposed above them.
[0042]
The upper lamination roll 22A can be separated from (opened / closed) the lower lamination roll 22B by a lamination roll opening / closing device 56 (see FIG. 4), and the substrate tip sensor 54 detects the tip of the substrate 20. When the leading edge reaches the position between the lamination rolls 22A and 22B, the controller 46 is closed so as to sandwich the substrate 20, and the substrate trailing edge sensor 58 detects the substrate trailing edge, which is the lamination. It is set to “open” when it comes out between the rolls 22A and 22B.
[0043]
Next, the operation of the film pasting apparatus will be described.
[0044]
First, the laminate film 14 is unwound from the film roll 12, passed through the guide rolls 26A, 26B, the tension applying suction roll 28, the guide rolls 42A, 42B, and passed between the lamination rolls 22A, 22B in the standby state (open state), Further, the tip is wound around the support film winding roll 60 through the pinch rolls 50A and 50B.
[0045]
At this time, the cover film 14 </ b> C is peeled off from the tip by the cover film peeling device 16 and wound up.
[0046]
Next, the entire film sticking apparatus 10 is operated. At this time, the cover film cutter 38 is cut by the disk cutters 38A and 38B at the rear end of the preceding substrate in a state where the laminated film 14 is stuck and It is set in advance so as to be slightly wider than the position corresponding to the front end of the subsequent substrate.
[0047]
When the film sticking device 10 is operated, first, while transporting the laminate film 14, the cover film cutter 38 is moved in synchronism with the laminate film 14 by the cover film cutter moving device 40, and then by the driving device 38 </ b> D. The disc cutters 38A and 38B are driven to cut the cover film 14C along with the photosensitive resin layer 14B on the back side in the film width direction (see FIG. 5). If the cutting edges of the disk cutters 38A and 38B are slightly cut into the translucent support film 12 during this cutting, the photosensitive resin layer 14B can be cut more reliably. The translucent support film 12 is sufficiently thick as compared with the photosensitive resin layer 14B, so that even if it is cut slightly, it is not cut.
[0048]
On the other hand, the cover film peeling device 16 strongly presses the adhesive tape 32 unwound from the adhesive tape roll 30 to the cover film 14C between the pinch rolls 34A and 34B, and then winds it by the take-up roll 36. It is wound together with the adhesive tape 32 and peeled off from the photosensitive resin layer 14B.
[0049]
Since the adhesive tape 32 is continuously pressed onto the cover film 14C, the portion where the cutting line is inserted is surely adhered by the disk cutters 38A and 38B and is taken up by the take-up roll 36.
[0050]
When the cover film 14C is cut by the disk cutters 38A and 38B of the cover film cutter 38, the laminate film 14 is fed while adsorbing the laminate film 14 and the torque motor 12A that controls the rotation of the film roll 12. The tension applying suction roll 28 to be applied provides an optimum tension for cutting.
[0051]
The laminate film 14 from which the cover film 14C has been peeled off by the cover film peeling device 16 and the photosensitive resin layer 14B has been exposed has guide rolls 42A and 42B and a film preheater with the photosensitive resin layer 14B facing the substrate transport surface 18A. Passing the 42C position, it reaches the lamination rolls 22A and 22B.
[0052]
At this time, the laminate film 14 is attached to the substrate 20 in a state where the photosensitive resin layer 14B is pressure-bonded to the upper surface of the substrate 20 conveyed by the substrate conveying device 18.
[0053]
The substrate 20 is transported by the substrate transport device 18 so that the position where the rear end is cut by the downstream disk cutter 38B is located on the film pasting surface near the rear end of the substrate. Further, the cutting position by the upstream disk cutter 38A with respect to the leading end of the succeeding substrate 20 is adjusted so as to be positioned on the film pasting surface in the vicinity of the leading end of the succeeding substrate.
[0054]
Accordingly, cutting lines 39A and 39B obtained by cutting the laminated film 14 stuck on the plurality of substrates 20 conveyed intermittently by the disk cutters 38A and 38B are as shown in FIG.
[0055]
In this state, when the translucent support film 14A attached to the substrate is taken up by a support film take-up roll, the photosensitive resin layer 14B on the substrate 20 becomes as shown in FIG. Since the photosensitive resin layer 14B between the substrates 20 and 20 is not attached to the substrate 20, the photosensitive resin layer 14B is separated from the photosensitive resin layer 14B on the substrate at the positions of the cutting lines 39A and 39B. The film is wound on the support film winding roll 60 in a state of being attached to the support film 14A.
[0056]
Therefore, each substrate 20 is separated at the same time as the translucent support film 14A is peeled from the substrate 20.
[0057]
Here, a separating member for guiding the translucent support film 14A at an acute angle may be provided near the exit side of the pinch rolls 50A and 50B, as indicated by reference numeral 62 in FIG. In this case, separation between the porous support film side and the substrate 20 side portion of the photosensitive resin layer 14B is smoothly performed.
[0058]
In the example of the above embodiment, the laminate film is a laminate of a translucent support film, a photosensitive resin layer, and a cover film. However, as shown in FIG. The present invention is also applicable to the case of using a laminate film 15 that includes a conductive support film 15A and a photosensitive resin layer 15B and does not include a cover film. In this case, the cutter cuts only the photosensitive resin layer or a part of the permeable support film and the photosensitive resin layer.
[0059]
Here, the cutting may be anything that can block the photosensitive resin layer, and substantially includes removal.
[0060]
Further, the cover film cutter 38 cuts the laminate film 14 while moving in synchronization with the laminate film 14, but the present invention is not limited to this. An accumulator for accumulating the laminate film 14 is provided at a position between the film cutter 38 and the lamination rolls 22A and 22B, and the laminate film 14 is supplied to the lamination rolls 22A and 22B, but is laminated at the position of the cover film cutter 38. It is good also as a structure which stops the feed of the body film 14 and cut | disconnects the cover film 14C.
[0061]
The cutting lines 39A and 39B are positioned slightly shifted from the end surface in the transport direction of the substrate 20 toward the center of the substrate upper surface when the film is attached to the substrate 20, but the present invention is not limited to this. 9A to 9E, the same position as the end face of the substrate 20 or a protruding position may be used.
[0062]
The present invention is also applicable to the case where a laminate film is attached to the lower surface or both surfaces of a substrate, and the laminate film is attached to one or both surfaces of the substrate while transporting the substrate in a vertical direction or an oblique direction. is there.
[0063]
【The invention's effect】
Since the present invention is configured as described above, it is not necessary to cut the photosensitive resin layer after the film is attached to the substrate, and the photosensitive resin layer can be easily cut and the translucent support film is continuously peeled off. Thus, the processing speed can be improved. In addition, the photosensitive resin layer can be reliably cut together with the cover film, and contamination of the cutter by the photosensitive resin can be prevented, and the entire cover film after cutting can be continuously peeled from the photosensitive resin layer. , It has an excellent effect that the processing speed can be increased.
[Brief description of the drawings]
FIG. 1 is a schematic side view including a partial block diagram showing a film pasting apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged cross-sectional view showing a laminate film used in the film pasting apparatus
FIG. 3 is a perspective view showing a main part of a cover film cutting device in the film sticking device.
FIG. 4 is a block diagram showing a control system of the film pasting apparatus.
FIG. 5 is an enlarged cross-sectional view showing a laminate film cut by a cover film cutter
FIG. 6 is an enlarged sectional view showing a state in which a laminate film is attached to a substrate.
FIG. 7 is an enlarged cross-sectional view showing a state in which a laminate film is peeled from a substrate
FIG. 8 is an enlarged cross-sectional view showing another laminated film
FIG. 9 is an enlarged cross-sectional view showing various manners of attaching the laminated film to the substrate.
[Explanation of symbols]
10 ... Film sticking device
12 ... Film roll
14, 15 ... Laminated film
14A, 15A ... Translucent support film
14B, 15B ... photosensitive resin layer
14C ... Cover film
16 ... Cover film peeling device
18 ... Substrate transfer device
18A ... substrate transfer surface
20 ... Board
22A, 22B ... Lamination roll
24 ... Separation cutter
28 ... Tensioning suction roll
32 ... Adhesive tape
38 ... Cover film cutter
38A, 38B ... Disc cutter
38C ... Cutter stand
38D ... Drive device
39A, 39B ... cutting line
40 ... Cover film cutter moving device
46 ... Control device
60 ... Support film take-up roll

Claims (12)

The photosensitive resin layer of the laminate film formed by laminating at least two layers of the translucent support film and the photosensitive resin layer unwound from the film roll at two predetermined intervals in the film longitudinal direction, after cutting to leave part of the thickness direction the film width direction of the translucent support film, a translucent support film, the photosensitive resin layer, a plurality of coming intermittently and sequentially transmitted in the substrate Supply along the transport surface of the substrate so that it faces the film tensioning surface, feed it between a pair of rotating lamination rolls together with the substrate, and paste it continuously to connect multiple substrates intermittently Next, the method includes a step of continuously winding and peeling the translucent support film attached to the substrate from the substrate, and the two portions to be cut are divided into a rear end of the substrate and a substrate following the substrate. Tip of , Together with the approximately corresponding position, the light transmissive support film during peeling taking continuously wound from the substrate, the photosensitive resin layer between the two places, in a state of adhering to the translucent support film A film sticking method characterized by being continuously wound up .   2. The film sticking method according to claim 1, wherein the film is cut while moving the means for cutting the photosensitive resin layer along the laminated film in the same direction and in the same direction.   In claim 1 or 2, disposing the tensile force adjusting means for adjusting the tensile force of the laminate film at a position before and after cutting the photosensitive resin layer, and applying a tensile force to the laminate film, A method for pasting a film, comprising cutting the photosensitive resin layer. A film supply source for continuously supplying a laminated film formed by laminating at least a translucent support film and a photosensitive resin layer in a strip shape, and a substrate conveying means for continuously conveying a plurality of substrates along the substrate conveying surface And a pair of lamination rolls that feed the translucent support film while sandwiching the substrate so that the photosensitive resin layer faces the substrate transport surface, and intermittently. In a film sticking apparatus for continuously sticking the laminate film to a plurality of substrates that are sequentially conveyed,
The photosensitive resin layer of the translucent support film is placed at two predetermined intervals approximately equal to the distance between the rear end of the preceding substrate and the front end of the subsequent substrate conveyed by the substrate conveying means in the film longitudinal direction . A cutter that cuts in the film width direction leaving a part in the thickness direction, and the translucent support film that is disposed on the exit side of the lamination roll and is attached to the substrate, is continuously from the substrate. wound and peeled off the support film peeling means and the provided Rutotomoni, wherein the support film peeling means, upon the release of the said translucent support film wound up continuously from the substrate, the photosensitive between the two locations A film sticking apparatus, wherein the resin layer is continuously wound in a state of being attached to a light-transmitting support film . 5. The disk cutter according to claim 4, wherein a pair of the cutters are arranged at the predetermined interval in the film longitudinal direction and are movable in the film width direction, and are opposed to the tip of the disk cutter via the film conveyance surface. And a cutter table that supports the laminated film when the disk cutter moves in the film width direction, and includes the pair of disk cutters and the cutter table in the feeding direction of the laminated film, film applying apparatus characterized in that a moved at this same speed obtained Luke Potter mobile device.   6. The film tensioning device according to claim 4, further comprising a tension applying device that applies a tension in a film longitudinal direction to the laminate film in the vicinity of the cutter. A translucent support film unwound from a film roll, a photosensitive resin layer laminated directly or indirectly on the translucent support film, and a cover film laminated over the photosensitive resin layer the cover film of the laminate film composed of Te, with the photosensitive resin layer, at two points of the film longitudinal direction at predetermined intervals, cutting the film width direction, leaving part of the thickness direction of the translucent support film The cover film containing the cut portion is peeled off from the photosensitive resin layer by pressing the pressure-sensitive adhesive layer of the pressure-sensitive adhesive tape. Are supplied along the transport surface of the substrate so as to be directed to the film-pasting surface of the plurality of substrates that are sequentially fed, and sent between a pair of rotating lamination rolls together with the substrate, Plate intermittently continuously affixed thereto to connect, then translucent support film that is stuck to the substrate comprises the step of peeling taking continuously wound from the substrate, it is the cutting 2 The positions are substantially corresponding to the rear end of the substrate and the front end of the substrate that follows the substrate, and when the transparent support film is continuously wound off from the substrate and peeled off, the two locations A method of attaching a film, wherein the photosensitive resin layer in between is continuously wound in a state of being attached to a translucent support film .   8. The film sticking method according to claim 7, wherein the film is cut while moving the means for cutting the photosensitive resin layer along the laminate film in the same direction and in the same direction. In claim 7 or 8, disposing the tensile force adjusting means for adjusting the tensile force of the laminate film at a position before and after cutting the photosensitive resin layer, and applying a tensile force to the laminate film , cover films and methods film applying, characterized in that cutting the photosensitive resin layer. Film supply source for continuously supplying a laminated film including a translucent support film, a photosensitive resin layer laminated on the translucent support film, and a cover film laminated over the photosensitive resin layer in a band shape Cover film peeling means for continuously peeling the cover film from the laminate film supplied from the film supply source, substrate transport means for continuously transporting a plurality of substrates along the substrate transport surface, A pair of lamination rolls that feed the translucent support film from which the cover film has been peeled off, with the photosensitive resin layer facing the substrate transport surface while being stacked and sandwiched between the substrates, In a film sticking apparatus for continuously sticking a laminate film from which the cover film has been peeled off to a plurality of substrates that are intermittently conveyed sequentially,
2 at a predetermined interval approximately equal to the distance between the rear end of the preceding substrate and the front end of the subsequent substrate conveyed by the substrate conveying means in the film longitudinal direction at a position between the film supply source and the cover film peeling means. in place, the cover film together with the photosensitive resin layer, and the cover film cutter for cutting the film width direction, leaving part of the thickness direction of the translucent support film, is disposed on the outlet side of the lamination roll And a support film peeling means for continuously winding and peeling off the translucent support film after being attached to the substrate, and the cover film peeling means is provided on the adhesive surface of the adhesive tape. Is continuously adhered to the cover film including the portion cut at the two locations, and is separated from the film transport surface to thereby remove the cover film. The Lum as continuously peeled off, the supporting film peeling means, the time of the translucent support film is peeled off by taking continuously wound from the substrate, the translucent light-sensitive resin layer between the two locations A film sticking apparatus, wherein the film sticking apparatus is configured to be continuously wound up while attached to a support film .   11. The cover film cutter according to claim 10, wherein a pair of the cover film cutters are arranged at the predetermined interval in the film longitudinal direction and are movable in the film width direction, and are opposed to the tip of the disk cutter via the film conveyance surface. And a cutter table that supports the laminate film when the disc cutter moves in the film width direction, and includes the pair of disc cutters and the cutter table in the feeding direction of the laminate film. And a cover film cutter moving device capable of moving at a constant speed.   The film tensioning device according to claim 10 or 11, further comprising a tension applying device that applies tension in the film longitudinal direction to the laminate film in the vicinity of the cover film cutter.

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