KR20160040544A - Defect inspection system, and film manufacturing device - Google Patents

Abstract

The defect inspection system includes a film conveying section for conveying a strip-shaped film, a defect inspection section for inspecting defects of the film conveyed by the film conveyance section, and a defect inspection section And a recording section capable of recording defect information relating to a defect detected by the defect inspection section on a downstream side of the film, wherein the film conveyance section records the defect information on the first surface of the film by the recording section And a second mode in which the film is wound in each of a first mode in which the defect information is recorded on the first surface and a second mode in which the defect information is recorded on the second surface, This winding includes the second conveying roller portion.

Description

[0001] DEFECT INSPECTION SYSTEM AND FILM MANUFACTURING DEVICE [0002]

The present invention relates to a defect inspection system and a film production apparatus.

The present application claims priority based on Japanese Patent Application No. 2013-161809 filed on Aug. 2, 2013, the contents of which are incorporated herein by reference.

A film such as a polarizing plate is wound around the core after inspecting defects such as foreign matter, irregular defect and the like. Information about the position and kind of defect (hereinafter referred to as defect information) is recorded on the film by printing a bar code on the end of the film or by marking the defect portion. When the winding amount reaches a certain amount, the film wound on the core material is separated from the film on the upstream side and is shipped as a disk roll. As a defect inspection system for inspecting film defects as described above, there is known a defect inspection system including a defect inspection portion and a recording portion for recording defect information on a film on a transport path of the film (see, for example, Patent Document 1).

Patent Document 1: JP-A-2011-7779

In the defect inspection system as described above, for example, when the ink adhesion is poor due to the material of the recording surface, or when the recording surface is used as a bonding surface to which other film members are bonded after the defect inspection process, It is necessary to appropriately change the recording surface to either the front surface or the back surface.

Therefore, it is considered that recording portions corresponding to the front and back surfaces of the film are provided, respectively, and these are properly selected and used. However, in this configuration, the cost increases due to an increase in the installation cost, or the installation space of the recording section increases, and the system itself becomes larger. In addition, the cost of the system is increased due to enlargement of the system.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a defect inspection system and a film production apparatus capable of recording defect information on both sides of a film at low cost while suppressing installation space.

In order to achieve the above object, the present invention adopts the following means.

(1) A defect inspection system according to an embodiment of the present invention includes: a film transporting unit for transporting a strip-shaped film; a defect inspection unit for performing defect inspection of the film carried by the film transporting unit; And a recording section that is provided downstream of the defect inspection section in the constituting film transport path and is capable of recording defect information relating to defects detected by the defect inspection section on the film, A first mode in which the defect information is recorded on a first side of the film and a second mode in which the defect information is recorded on a second side of the film, And a second conveying roller portion in which the film is wound in either one of the first mode and the second mode.

(2) In the aspect of (1), the first conveying roller unit may switch the conveying direction of the film in a part of the film conveying path in response to switching between the first mode and the second mode Maybe.

(3) In the above mode (1) or (2), the film conveying section conveys the film in the first film conveyance path in the first mode, and conveys the film to the second film The first conveying roller portion and the second conveying roller portion are provided such that distances between the defect checking portion and the recording portion are equal to each other in the first film conveying path and the second film conveying path, good.

(4) In any one of (1) to (3), the recording section may record the defect information on the film wound on the first conveying roller section.

(5) In any one of (1) to (4), at least one of the first conveying roller portion and the second conveying roller portion may include a plurality of roller members.

(6) An apparatus for producing a film according to an embodiment of the present invention comprises a film production unit for producing a strip-shaped film and a defect inspection unit for performing defect inspection of the film produced by the film production unit, The defect inspection unit has any one of the above-mentioned (1) to (5).

According to the present invention, defect information can be recorded on both sides of the film at low cost while suppressing the installation space.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a schematic configuration of a film production apparatus and showing a state of being transported by a first film transportation path; Fig.
Fig. 2 shows a schematic configuration of a film production apparatus, and shows a state in which it is transported by a second film transportation path. Fig.
Fig. 3 is a view showing a schematic configuration of a film production section. Fig.

Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following embodiments. In all of the following drawings, dimensions, ratios, and the like of the respective components are appropriately different in order to make the drawings easy to see. In the following description and drawings, the same or corresponding elements are denoted by the same reference numerals, and redundant description is omitted.

1 and 2 show a schematic configuration of a film production apparatus according to an embodiment of the present invention. Fig. 1 shows a state in which a film is transported by a first film transport path, Fig. 2 shows a state in which a film is transported by a second film transport And is conveyed by the route.

1 and 2, the film production apparatus 1 includes a film production unit 10 for producing a predetermined film 100, and a film production unit 10 for producing a film 100 produced in the film production unit 10. [ A defect inspection unit 5 for performing a predetermined defect inspection, and a control unit 50. [

The components of the film production apparatus 1 are collectively controlled by the control unit 50 as an electronic control unit. The defect inspection unit 5 is constituted by a defect inspection system according to an embodiment of the present invention.

The defect inspection unit 5 includes a defect inspection section 20 and a recording section 30 capable of recording defect information on defects detected by the defect inspection section 20 on both sides of the film 100, And a film transport section 40 for sequentially transporting the film 100 between the defect inspection section 20 and the recording section 30. [

In the defect inspection unit 5, the film transfer section 40 transfers the film 100 (100) produced in the film production unit 10 via the first film transfer path 40A or the second film transfer path 40B Can be returned. The switching of the first film transport path 40A or the second film transport path 40B in the film transport section 40 is performed by an operation by an operator.

In the present embodiment, the film 100 transported via the first film transport path 40A is transported to the recording section 30 when one side (first side) 100b side reaches the recording section 30, . On the other hand, when the film 100 transported via the second film transport path 40B reaches the recording section 30, the other surface (second surface) 100c side faces the recording section 30. [ That is, when the first film transport path 40A is selected in the film transport section 40, the recording section 30 can record the defect information on the side 100b of the film 100, The recording section 30 can record defect information on the side of the other side 100c of the film 100 when the second film transport path 40B is selected in the second film transport path 40. [ The one side 100b of the film 100 is a side of the film 100 manufactured by the film production unit 10 to which the first protection film 100B is bonded as described later, 100 is the side to which the second protection film 100C is bonded (see Fig. 3).

The defect inspection section 20 detects defects of the film 100 by carrying out an inspection process such as a reflection inspection, a transmission inspection, an oblique transmission inspection, and a Cross-Nicole transmission inspection on the film 100 being transported. The installation position of the defect inspection section 20 is not limited to that shown in Fig. 1, and may be anywhere between the film production unit 10 and the recording section 30 in the transport path of the film 100. [

The defect inspection section 20 includes illumination sections 21a and 22a for irradiating light to the film 100 and light emission sections 21a and 22a emitted from the illumination sections 21a and 22a and passing light (one or both of reflection and transmission) And photodetectors 21b and 22b capable of detecting changes in the film 100 due to the presence or absence of defects. The defect inspection section 20 is provided with an illumination section and a photodetector for each kind of defect to be inspected.

The illumination units 21a and 22a irradiate light whose light intensity, wavelength, polarization state, etc. are adjusted according to the type of inspection performed by the defect inspection unit 20. [ The photodetectors 21b and 22b are constituted by an image pickup device such as a CCD and pick up a film 100 of a portion irradiated with light by the illumination units 21a and 22a. The detection results (imaging results) of the photodetectors 21b and 22b are output to the control unit 50. [

In the present embodiment, the film conveying section 40 is configured such that the other surface 100c of each of the first film conveying path 40A and the second film conveying path 40B is connected to the photodetectors 21b and 22b The film 100 is transported to the defect inspection section 20 so as to be opposed.

The control unit 50 analyzes the image picked up by the photodetectors 21b and 22b, and judges the position, kind, etc. of the defect. When the controller 50 determines that a defect exists in the film 100, the control unit 50 controls the recording unit 30 to record defect information on the film 100 as described later.

In the present embodiment, the control unit 50 includes a computer system.

The computer system includes an arithmetic processing unit such as a CPU and a storage unit such as a memory or a hard disk. The control unit 50 of the present embodiment includes an interface capable of performing communication with an external device of a computer system. The control unit 50 may be connected to an input device capable of inputting an input signal. The input device includes an input device such as a keyboard and a mouse, or a communication device capable of inputting data from an external device of the computer system. The control unit 50 may include a display device such as a liquid crystal display or the like that indicates the operation status of each part of the film production apparatus 1, or may be connected to a display device.

An operating system (OS) for controlling the computer system is installed in the storage unit of the control unit 50. [ The storage section of the control section 50 is provided with a program for executing processing for accurately transporting the film 100 to each section of the film production apparatus 1 by controlling each section of the film production apparatus 1 in the arithmetic processing section It is recorded. The arithmetic processing unit of the control unit 50 can read various kinds of information including a program recorded in the storage unit. The control unit 50 may include a logic circuit such as an ASIC (Application Specific Integrated Circuit) that performs various processes required to control each section of the film production apparatus 1. [

The storage section is a concept including a semiconductor memory such as a RAM (Random Access Memory) and a ROM (Read Only Memory), an external storage device such as a hard disk, a CD-ROM reading device, a disk type storage medium and the like. The storage unit is functionally functioning as a storage area for storing the program software in which the control procedures of the operations of the film production unit 10, the defect inspection unit 20, the recording unit 30 and the film transport unit 40 are described, Is set.

The recording section 30 is provided on the downstream side of the defect inspection section 20 in the transport direction in the first film transport path 40A or the second film transport path 40B on which the film 100 is transported. The recording unit 30 records defect information related to defects detected by the defect inspection unit 20 on one side 100b of the film 100 (the side on which the first protection film 100B is bonded) or the other side 100c (The side of the side where the second protection film 100C is bonded). The defect information includes information about the position and type of the defect, and the like.

The recording unit 30 records defect information on the film 100 at a predetermined timing after defect inspection is performed by the defect inspection unit 20. [ The timing at which recording is performed by the recording unit 30 is determined by the conveying distance of the film 100 from the defect checking unit 20 to the recording unit 30. [

For example, a rotary encoder for measuring the transport amount of the film 100 is disposed on the transport path of the film 100, and the transport amount of the film 100 (the number of pulses counted by the rotary encoder) The control section 50 controls the recording section 30 to record the defect information on the film 100. In this case,

The recording unit 30 records defect information on the surface (one side 100b and the other side 100c) of the film 100 in the form of an identification code (one-dimensional barcode, two-dimensional barcode, QR code . The identification code includes, for example, information (information on the position of the defect) indicating how far the defect detected by the defect inspection section 20 exists from the position where the bar code is attached, along the film width direction. The identification code may include information on the type of the detected defect.

The recording unit 30 displays marks (marking) of the positions of the defects directly on the surface of the film 100 by performing dot-type, line-type, or frame-type marking of a size including defects in defective portions of the film 100, Maybe. At this time, information on the kind of the result may be recorded by indicating a mark or a shape indicating the type of defect together with the mark in the defect position.

The recording unit 30 may be configured to attach the marked label to the surface of the film 100. [

The film conveying section 40 includes a first conveying roller section 43, a second conveying roller section 45, and a film winding section 44.

1 and 2, when the defect information is recorded on the first surface (first surface) 100b of the film 100 by the recording unit 30 (the first conveying roller unit 43) Mode) and the case where defect information is recorded on the other side (second side) 100c (second mode), the film 100 is wound. That is, the first conveying roller unit 43 is configured so that the film conveying unit 40 is configured so that even when the first film conveying path 40A or the second film conveying path 40B is selected, will be. In other words, unlike the later-described second conveying roller portion 45, the first conveying roller portion 43 is also used in the first film conveying path 40A and the second film conveying path 40B.

The second conveying roller unit 45 conveys the recording medium 30 in the case where the defect information is recorded on the first surface 100b of the film 100 by the recording unit 30 in the first mode, (Second mode) in which the defect information is recorded in the defect management area 100c, the film 100 is wound in any one of the modes. In other words, the second conveying roller unit 45 moves the film 100 in the film conveying unit 40 in response to the switching of the path between the first film conveying path 40A and the second film conveying path 40B The method of winding is changed. The second conveying roller portion 45 is not used in both the first film conveying path 40A and the second film conveying path 40B.

In the present embodiment, the second conveying roller portion 45 includes a roller portion 41 for recording on one side and a roller portion 42 for recording on the other side.

The single-sided recording roller section 41 winds the film 100 when the defect information is recorded on one side 100b of the film 100 by the recording section 30. [ That is, the roller portion 41 for single-surface recording is wound with the film 100 when the first film transport path 40A is selected.

2, when the defect information is recorded on the other side 100c of the film 100 by the recording unit 30, the film 100 for the other side of the rollers 42 is wound around the winding 100, . In other words, the roller portion 42 for writing on the other side is wound on the film 100 when the second film transport path 40B is selected in the film transport section 40.

In the present embodiment, the one-side recording roller portion 41 is composed of a plurality of (two in this embodiment) rollers 41a. In Fig. 1, arrows along the outer periphery of each roller 41a indicate the rotational direction of the roller 41a.

The roller 41a may be constituted by a driven roller rotated by the conveying force of the film 100 or may be constituted by a main roller which applies a conveying force to the film 100 or may be composed of a mixture of these . The number of rollers 41a in the roller portion 41 for single-surface recording is not limited to two, but may have one or three or more rollers 41a.

In the present embodiment, the roller 42 for recording on the other side is composed of one roller 42a. In Fig. 1, the arrows along the outer periphery of the roller 42a indicate the rotational direction of the roller 42a.

The roller 42a may be constituted by a driven roller rotated by the conveying force of the film 100 or may be constituted by a main roller for imparting a conveying force to the film 100, . In the roller portion 42 for recording on the other surface, the number of the rollers 42a is not limited to one, but may have a plurality of rollers 42a.

The first conveying roller portion 43 is composed of a front end portion 43A, a middle portion 43B and a rear end portion 43C. The front end portion 43A, the intermediate portion 43B, and the rear end portion 43C are each composed of a plurality of rollers. For example, the front end portion 43A is constituted by a plurality of (three in this embodiment) rollers 43a, and the intermediate portion 43B is constituted by a plurality of (three in this embodiment) rollers 43b And the rear end portion 43C is constituted by a plurality of (four in this embodiment) rollers 43c.

These rollers 43a, 43b and 43c may be constituted by driven rollers rotated by the conveying force of the film 100 or may be constituted by main rollers which apply a conveying force to the film 100, But they may be composed of a mixture of them. The number of the rollers 43a, 43b, and 43c in the front end 43A, the middle portion 43B, and the rear end 43C is not limited to the above, and can be appropriately changed.

In Figs. 1 and 2, arrows along the outer periphery of the rollers 43a, 43b, and 43c indicate the rotational directions of the rollers 43a, 43b, and 43c. 1 and 2, the respective rollers 43b constituting the intermediate portion 43B are referred to as rollers 43b1, 43b2 and 43b3 in the order from the upper side to the lower side of Figs. 1 and 2, respectively The rollers 43a1, 43a2 and 43a3 constituting the front end portion 43A are arranged in this order from the upstream side to the downstream side of the film 100 in the conveying direction of Figs. It is called.

Here, the case where the first film transport path 40A is selected by the operator will be described.

In this case, as shown in Fig. 1, the film 100 drawn out from the film producing unit 10 is conveyed from the upstream side to the downstream side in the conveying direction by the front end portion 43A (roller 43a) The winding roller portion 41 (the roller 41a), the intermediate portion 43B (the roller 43b), and the rear end portion 43C (the roller 43c).

The film 100 is stretched along the common internal line direction of the rollers 43a2 and 43a3 constituting the front end portion 43A and then pulled upward via the roller 43a3 in the first film transport path 40A And is wound on the one-side recording roller portion 41 by rotation.

The film 100 passed through the one-side recording roller portion 41 is wound in this order on the rollers 43b1, 43b2 and 43b3 of the intermediate portion 43B. At this time, the rollers 43b1, 43b2 and 43b3 are all rotated counterclockwise as shown in Fig. 1, and only the roller 43a2 of the front end portion 43A rotates clockwise, and the rollers 43a1, 43a3 rotate counterclockwise, respectively.

When the first film transport path 40A is selected as described above, the film 100 passes through the recording section 30 from the upper side to the lower side in the vertical direction by passing the one-side recording roller section 41. [ At this time, the film 100 is transported so that the one side 100b faces the recording unit 30. [ Therefore, the recording unit 30 can record defect information on one side 100b of the film 100 that is transported via the first film transport path 40A.

The film 100 passed through the roller 43b3 of the intermediate portion 43B is folded upward in the vertical direction and then wound on the film winding portion 44 via the rear end portion 43C (roller 43c) .

Next, a case where the second film transport path 40B is selected by the operator will be described.

In this case, as shown in Fig. 2, the film 100 drawn out from the film producing unit 10 is conveyed from the upstream side to the downstream side in the conveying direction by the front end portion 43A (roller 43a) The roller portion 42 (the roller 42a), the intermediate portion 43B (the roller 43b) and the rear end portion 43C (the roller 43c) are wound in this order.

The film 100 is stretched along the common outer circumferential direction of the rollers 43a2 and 43a3 constituting the front end portion 43A and then pulled downward through the roller 43a3 to be rotated to the other surface recording roller portion 42 It is wound. As shown in Fig. 2, only the roller 43a1 of the front end portion 43A rotates counterclockwise, and the rollers 43a2 and 43a3 rotate clockwise.

The film 100 passed through the other surface recording roller portion 42 is wound in this order on the rollers 43b3, 43b2 and 43b1 of the intermediate portion 43B. At this time, as shown in Fig. 2, the rollers 43b1 and 43b2 rotate in the clockwise direction, and the roller 43b3 rotates in the counterclockwise direction.

When the second film transport path 40B is selected as described above, the film 100 passes through the recording section 30 from the lower side to the upper side in the vertical direction by passing through the roller portion 42 for the other surface recording. At this time, the film 100 is transported so that the other surface 100c faces the recording unit 30. [ Therefore, the recording unit 30 can record the defect information on the other surface 100c of the film 100 that is transported via the second film transport path 40B.

The film 100 passed through the roller 43b1 of the intermediate portion 43B is wound around the film winding portion 44 via the rear end portion 43C (roller 43c).

As described above, in the present embodiment, in the case where the first film transport path 40A is selected and the second film transport path 40B is selected, And the conveying direction of the film 100 is switched in a part thereof.

That is, the first conveying roller portion 43 is located between the roller 43a3 of the front end portion 43A and the roller 43a2 of the front end portion 43A in the case where the second film conveying path 40B is selected and the first film conveying path 40A is selected, And the rotation directions of the rollers 43b1 and 43b2 in the second roller 43B are switched. The rotation direction of the rollers 43a3, 43b1, and 43b2 may be switched only when the rollers are driven rollers by driving the film winding unit 44, for example. On the other hand, for example, in the case where these rollers are constituted by the main rollers, in accordance with the switching by the selection of the first and second film transport paths 40A and 40B, You can switch the direction of rotation.

In this embodiment, the film conveying section 40 is arranged so that the distance between the defect inspection section 20 and the recording section 30 in the first film transport path 40A and the second film transport path 40B is A roller portion 41 for recording on one side, a roller portion 42 for recording on the other side, and a first conveying roller portion 43 are provided. That is, the arrangement position between the rollers 41a, 42a, 43a, 43b and 43c constituting the roller portion 41 for recording on one side, the roller portion for recording on the other side 42 and the first conveying roller portion 43 , Pitch and the like are optimized to satisfy the above conditions.

For this reason, the film transporting section 40 is provided with the defect information on the one surface 100b in the first film transport path 40A and the defect surface on the other surface 100c in the second film transport path 40B The time for recording the defect information by the recording unit 30 after the defect inspection by the defect inspection unit 20 is performed (the timing for recording the defect information by the recording unit 30 ) Can be made the same. Therefore, according to the switching of the first film transport path 40A and the second film transport path 40B, it is possible to eliminate the trouble of adjusting the timing of performing the recording by the recording section 30. [ Therefore, the defect information can be precisely recorded at the predetermined position at the timing when the predetermined position of the film 100 on which the defect information is detected by the defect checking section 20 reaches the recording section 30.

Fig. 3 is a view showing a schematic configuration of the film producing unit 10. Fig. As shown in Fig. 3, the film production unit 10 is to produce the film 100 by bonding protection films (surface protective films) 100B and 100C to the film substrate 100A. The film base material 100A and the protection films 100B and 100C may be any flexible band-shaped film, and the material and composition thereof are not particularly limited. Hereinafter, the protection films 100B and 100C may be referred to as a first protection film 100B and a second protection film 100C, respectively.

3, the film production unit 10 includes a first line 11, a second line 12, a third line 13, a fourth line 14 and a fifth line 15, Respectively. The second line 12, the third line 13 and the fifth line 15 constitute a conveyance line of the first protection film 100B. The fourth line 14 and the fifth line 15 constitute a conveyance line of the second protection film 100C. The first line 11, the third line 13 and the fifth line 15 constitute a conveying line of the film base 100A.

A plurality of rolls (for example, a guide roll 31 in this embodiment) for forming a transport path of the film base material 100A and the protection films 100B and 100C are provided in the respective lines 11, 12, 13, , Nip rolls (33, 34, 35, 36)) are provided.

The first line 11 manufactures and transports the film substrate 100A. The film base material 100A is a polarizing film in the case of the present embodiment, but the film base material 100A is not limited thereto. In the first line 11, a PVA (polyvinyl alcohol) film to be a base material of the polarizer is subjected to dyeing treatment, crosslinking treatment and stretching treatment.

Thereafter, a polarizer protective film made of TAC (triacetylcellulose) or the like is bonded to both surfaces thereof to produce a film base 100A. The film base material 100A is not limited to a polarizing film but may be other films such as a retardation film, a light diffusion film, a light reflection film, a lens film, a conductive film, an insulation film, and a photosensitive film.

The second line 12 unwinds and transports the first protection film 100B from the first disk roll R1. The first protection film 100B is a PET (polyethylene terephthalate) film in the case of the present embodiment, but the first protection film 100B is not limited thereto.

The third line (13) has a pair of nip rolls (33, 34) arranged in parallel with each other in the axial direction. A predetermined clearance is formed between the pair of nip rolls 33 and 34, and this gap serves as a bonding position between the film base material 100A and the first protection film 100B. Inside the gap, the film base material 100A and the first protection film 100B are overlapped with each other. The film base material 100A and the first protection film 100B are sandwiched between the nip rolls 33 and 34 and fed to the downstream side while being pressed. Thus, the first protection film 100B is bonded to one surface of the film substrate 100A.

The fourth line 14 uncovers and transports the second protection film 100C from the second disk roll R2. The second protection film 100C is a PET (polyethylene terephthalate) film in the case of the present embodiment, but the second protection film 100C is not limited thereto.

The fifth line 15 carries the second protection film 100C by bonding it to the other side of the film base 100A (the side opposite to the side where the first protection film 100B is bonded). The film 100 is produced by bonding the first protection film 100B and the second protection film 100C to one side and the other side of the film substrate 100A.

The fifth line 15 has a pair of nip rolls 35 and 36 arranged in parallel with each other in the axial direction. A predetermined gap is formed between the pair of nip rolls 35 and 36, and this gap serves as a bonding position between the film base material 100A and the second protection film 100C. Inside the gap, the film base material 100A and the second protection film 100C are overlapped and introduced. The film base material 100A and the second protection film 100C are pinched between the nip rolls 35 and 36 and fed to the downstream side. Thus, the second protection film 100C is bonded to the other surface of the film substrate 100A.

In this way, the film production unit 10 can produce the film 100 by bonding the first and second protection films 100B and 100C to both sides of the film substrate 100A.

As described above, according to the film production apparatus 1 of the present embodiment, since the operator changes the first film transport path 40A or the second film transport path 40B as the transport path of the film 100, It is possible to record defect information on each of both sides of the film 100 while inspecting the defect on both sides (the one side 100b and the other side 100c).

Therefore, it is possible to record defect information on both sides of the film 100 by only one recording section 30. Compared with the case where two recording sections are provided for the double-side recording as in the conventional case, , Defect inspection of the film can be performed at low cost. Further, it is possible to manufacture the film 100 on which the defect information is recorded at a low cost.

While the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it is needless to say that the present invention is not limited to these examples. Various shapes and combinations of the constituent members shown in the above-described examples are merely examples, and can be variously changed based on design requirements and the like within a range not deviating from the main object of the present invention. For example, in the above-described embodiment, the case where the defect inspection section 20 is disposed only on the downstream side of the film production unit 10 is described as an example. However, the present invention is not limited to this, 11, the second line 12, and the fourth line 14, the defect inspection portion may be provided. This makes it possible to inspect defects in the film base material 100A before the protection films 100B and 100C are bonded and improve the accuracy of defect inspection in the film 100. [

Although the defect inspection unit 5 has been described as an example of a configuration provided in the film production apparatus 1 for inspecting the film 100 manufactured in the film production unit 10 in the above embodiment, May function as an inspection apparatus monolith to inspect defects in the film produced in addition to the film producing unit 10. [ In this case, defect inspection of the film is carried out by transferring the film from the original roll of the inspection object to the recording unit 30 while releasing the film by the film conveying unit 40, recording the predetermined defect information, 44). As described above, the roll of the inspection target can be transported to another factory, and defects of the film can be inspected by using only the defect inspection unit 5 at the other factory.

In the above embodiment, the case where the second conveying roller portion 45 includes both the one-side recording roller portion 41 and the other-side recording roller portion 42 is described as an example. However, Maybe. For example, the second conveying roller portion 45 may be constituted only by the one-side recording roller portion 41. In this case, the film 100 passing through the second film conveying path 40B on which the defect recording on the other surface 100c is performed is conveyed by being wound only on the first conveying roller portion 43, and is conveyed on the first surface 100b The film 100 passing through the first film transport path 40A on which fault recording for the first transport roller section 43 and the second transport roller section 45 (one-side surface recording roller section 41) And is conveyed.

Alternatively, the second conveying roller portion 45 may be constituted only by the other surface recording roller portion 42. In this case, the film 100 passing through the second film transport path 40B on which the defect recording on the other surface 100c is performed has the first transport roller portion 43 and the second transport roller portion 45 The film 100 is conveyed by being wound around the first conveying roller portion 43 and conveyed through the first film conveying path 40A where defects are recorded on the first surface 100b, It is returned by winding.

1: film production apparatus, 5: defect inspection unit, 10: film production unit, 20: defect inspection unit, 30: recording unit, 40: film transport unit, 40A: first film transport path, 40B: (Second conveying roller portion), 41a: roller, 42: roller portion for second surface recording (second conveying roller portion), 42a: roller, 43: first conveying roller portion A second conveying roller portion and a second conveying roller portion are provided in the first and second conveying rollers.

Claims (6)

A film conveying section for conveying the strip-shaped film,
A defect inspection unit for inspecting defects of the film conveyed by the film conveyance unit;
And a defect detection unit for detecting defects of the film transport path, wherein the film transport path is provided downstream of the defect inspection unit in the film transport path,
Wherein the film conveying unit comprises:
A first conveying roller unit in which the film is wound in each of a first mode in which the defect information is recorded on the first surface of the film by the recording unit and a second mode in which the defect information is recorded on the second surface,
And a second conveying roller unit in which the film is wound in either the first mode or the second mode,
And a defect inspection system. The defect inspection system according to claim 1, wherein the first conveying roller unit switches the conveying direction of the film in a part of the film conveying path in response to switching between the first mode and the second mode, . The film conveying apparatus according to claim 1 or 2, wherein the film conveying section conveys the film in the first film conveying path in the first mode and conveys the film in the second film conveying path in the second mode, Wherein the first conveying roller portion and the second conveying roller portion are provided such that distances between the defect checking portion and the recording portion of the first film conveying path and the second film conveying path are equal to each other. The defect inspection system according to any one of claims 1 to 3, wherein the recording section records the defect information on the film wound on the first conveying roller section. The defect inspection system according to any one of claims 1 to 4, wherein at least one of the first conveying roller portion and the second conveying roller portion includes a plurality of roller members. A film production unit for producing a strip-shaped film,
A defect inspection unit for performing a defect inspection of the film produced by the film production unit
Wherein the defect inspection unit comprises the defect inspection system according to any one of claims 1 to 5.

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