TW201123328A - Apparatus for fabricating liquid crystal display device and method for fabricating liquid crystal display device using the same - Google Patents

Abstract

Disclosed are an apparatus for fabricating a liquid crystal display (LCD) device and a method for fabricating an LCD device using the same, the apparatus including a cutting unit configured to cut an anisotropic conductive film (ACF), an ACF peeling unit configured to prevent a tape carrier package (TCP) from being separated from an absorbent plate, the TCP bonded with the ACF, and simultaneously peel up the ACF from a base film, a TCP feeding unit configured to feed the TCP, an ACF bonding correction unit configured to minimize an error occurred upon feeding the TCP for bonding the ACF, an ACF pro-bonding inspection unit configured to measure a TCP punching position and determine positions of align marks formed on the TCP, by use of a capturing device, an ACF post-bonding inspection unit configured to determine whether the ACF has been bonded and the positions of the align marks, by use of a capturing device, the determination being executed after bonding the ACF onto the TCP, and an index unit configured to rotate with vacuum-absorbing the ACF-bonded TCP to feed the TCP onto a pad terminal of a lower substrate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device (LCD), and in particular, to a manufacturing apparatus of a liquid crystal display device and a method of manufacturing the same, which uses a tape A Tape Carrier Package (TCP) system for electrically connecting a liquid crystal panel to a printed circuit board having a driving circuit of the liquid crystal panel. [Prior Art] Generally, a liquid crystal display device (LCD) actually includes a liquid crystal (LC) panel which is formed by interposing a pair of substrates and disposing a liquid crystal having optical anisotropy and polarization characteristics therebetween. An electrode for generating an electric field is formed on a surface of the pair of substrates defining the liquid crystal panel facing each other. The electric field change generated between the electrodes is used to manually adjust the alignment direction of the liquid crystal molecules to produce a change in light transmittance. Such a change in light transmittance allows for visual display of different images. At the same time, the liquid crystal panel is connected to the printed circuit board by a - φ package (TCP). The printed circuit board has a gate driving circuit for outputting a scanning signal and a data driving circuit for outputting an image signal. Figure 1 is a perspective view of a typical liquid crystal panel. As shown in FIG. 1F, the typical liquid crystal panel 1 is configured such that a bottom array substrate 12 and a top color light-emitting substrate 18 are combined with each other and a liquid crystal layer (not shown) is located therebetween and at least one The printed circuit board 2 is connected along the side of the liquid crystal panel 10 by a plurality of tape and reel packages (TCP) 30, wherein a gate driving circuit and a data driving circuit are fixed in the printed circuit board 2. In the following section, part a of the "i" will be described in more detail in conjunction with "Fig. 2". 201123328 In a typical liquid crystal panel 10, the array substrate 12 is larger in area than the color filter substrate 18 such that two adjacent sides of the array substrate 12 violently exit the exterior of the color filter substrate 18. Further, a plurality of first pads 16 respectively extracted from the gate lines and the data lines are arranged on the exposed sides. Here, the first pad 16 can be divided into a plurality of groups' each of which includes a first pad 16 arranged in a number of similarly spaced intervals. A plurality of second pads 22 that output scan signals or video signals are located on at least one side of the printed circuit board 20. The second pad 22 can also be divided into a plurality of groups, each group containing a plurality of second pads 22 arranged at fairly even intervals. Moreover, a plurality of first and second contact pads 32 and 34 may be arranged at both ends of each tape package (TCP) 3G 'the first and second contact pads 32 and 34 at the same good interval and each group The first and second pads 16 and 22 correspond to one-to-one, and the cap-and-package (TCP) 30 connects the liquid crystal panel 1G to the printed circuit board. As shown in the "Fig. 2", it is formed in a tape-reel type. The first and _ Μ contact pads 32 and 34 at both ends of the package (Tcp) are connected to the first 塾 22 of the liquid crystal panel 10 and the second 塾 22 of the printed circuit board 2 in correspondence with each other. According to the -to-corresponding contact tape and reel package (TCp), the first and second contacts 32 and 34 and the liquid crystal panel 10 and the printed circuit board 20 are the first and second (four) ^ over the age-reel _合______ "3rd picture" is a cross-sectional view of the HMD line along "1st picture". Covering each other, Figure 3F, 7F, in the tape-and-reel package (TCP) 3() and _substrate 12 cover, so that the first connection on the end of the tape-like closure (like) 3〇201123328 touches The pad 32 is in a state of facing the first pad 16 on one side of the array substrate 12, and the anisotropic conductive film (ACF) 26 is located between the tape package (TCP) 3 and the array substrate 12. Thereafter, a heating tool 45 applies a heat and pressure along the outer surface of the edge of the tape-and-reel package (TCP) 30 by slidingly pressing the outer surface of the edge of the tape-and-reel package (TCP) 30 to obtain the first A connection between the contact pad % and the first pad 16. Although not shown, the same rules apply to the connection between the second pad 22 of the printed circuit board 2 and the second contact pad 34 of the tape package (TCP) 30. Here, the anisotropic conductive film (ACF) 26 may be a strip shape in which the conductive particles are distributed in a thermosetting manner, so that the resin portion is hardened by heat and pressure while the conductive particles inside thereof are pressed up and down so that The connection between the first 塾 16 and the first contact pad 32 is allowed to correspond one-to-one. Tape and Reel Automatic Bonding (TAB) technology has several advantages: it adds the effective area of the panel' and because it is mounted directly on the substrate by a relatively simple process, the circuit provides a simple structure and is compared to a glass flip chip package. (C0G) 2 surgery should meet the problem of 'CQG' technology to produce a more detailed resolution of the liquid crystal panel to produce a problem of fine mounting on the substrate. The following is a simple description of the tape-and-reel package (TCp) alignment system using Tape Auto-Tapping (TAB) technology, in conjunction with Figure 4 and Figure 5. Fig. 4 is a flow chart showing a conventional tape-and-reel package (TCP) alignment process using a tape-and-reel package (10) for the prior art. Figure 5 is a different device in the tape-and-reel package (TCP) alignment process using a conventional tape-and-reel package, and the anisotropic 201123328 conductive film (ACF) bond and volume are respectively obtained. Plan view with automatic joint (TAB) supply. As shown in FIG. 4, the tape reel (tcp) alignment process using a conventional tape and reel package (Tcp) alignment system may include a first step (s1), the first step. The anisotropic derivative (ACF) 26 is bonded over the first turn 16 on the side of the array substrate 12 by using an anisotropic conductive film (ACF) bonding device (not shown). Then, in a first step (S12), a first contact pad (not shown) on one end of the tape package (tcp) 30 • and a first side on one side of the array substrate 12 ( The figure is not) facing each other. In a third step (S14) and a fourth step (S16), a predetermined heating means (not shown) is used to heat the outer surface of the edge of the tape reel package (TCp) by sliding it. And the pressure acts along the outer surface of the edge of the tape-and-reel package (Tcp) to obtain the connection between the first contact pad and the first pad. Here, the anisotropic conductive film (ACF) 26 is a strip in which the conductive particles are distributed in the thermosetting resin so that the resin portion is hardened by heat and pressure while the conductive particles inside thereof are pressed up and down so that The connection between the first pad and the first contact pad is allowed to correspond one-to-one. In a fifth step S18', a misalignment detecting device (not shown) is used to detect whether the first 塾 (not shown) of the liquid β θ panel 10 and the first contact of the tape and reel package (tcp) 3 塾 ( The figures are not shown to meet each other, and the connection between the anisotropic conductive film (ACF) 26 and the tape-and-reel package (TCP) 3 is produced by a tape automated bonding (TAB) process. However, the tape-and-reel 201123328 package (TCP) alignment system using the conventional tape-tape automatic bonding (Tab) technology has the following serious problems. Tape and Reel (TCP) using the Tape and Tray Automated Bonding (TAB) technology of the prior art, in addition to the anisotropic guide surface (ACF) bonding, requires a tape-and-reel package through the supply (TCP). ) The tape is automatically joined to the device. In particular, the device for bonding an anisotropic conductive film (ACF) over the panel is provided separately and which occupies approximately 30% of the total device length of the tape and reel package (TCP) alignment system. Moreover, the attachment of an anisotropic conductive film (ACF) of a conventional tape-and-reel package (Tcp) alignment device tilts the manufacturing cost of all components, which locally increases the manufacturing cost. Moreover, the conventional technology of the tape and tape type (TCP) alignment system is equipped with an anisotropic conductive film (ACF) bonding device and a tape and reel packaging (TCp) supply device, resulting in layout and investment costs. Increase. SUMMARY OF THE INVENTION - Therefore, it is an object of the present invention to provide a liquid crystal display device mounting apparatus and a method of manufacturing the same, and the present invention does not independently use an anisotropic conductive film (ACF) bonding device. In order to increase manufacturing efficiency, it is possible to significantly reduce the length and manufacturing cost of an entire device. These and other advantages of the present invention have been made in order to provide a specific and general description of the present invention. A manufacturing apparatus for a liquid crystal display device includes a cutting unit 'for anisotropic conduction (ACF); An anisotropic conductive film peeling sheet 1 is used to prevent a tape package (TCP) from being separated from an absorbing panel, and the roll f-type package incorporates the anisotropic guide, and the anisotropic conductive film From a 201123328 base film, a tape-and-reel package supply unit for supplying the tape and reel package; a counter-steep conductive film combined with a correction unit for minimizing the supply of an anisotropic conductive film Errors caused by the ΊΤ-type package; - anisotropic conductive film front bond detection sheet */, using a capture device to measure the position of a tape package package perforation and determine the position of the alignment mark formed on the tape and reel package; After the directional conductive film is combined with the detection sheet 7', the device is more or less than the position of the anisotropic conductive voyage and the alignment mark = after the anisotropic conductive film is bonded to the tape-type sealing,彳a shows a single it's vacuum Attaching the anisotropic conductive film is bonded to the tape and the package is rotated, transfer tape is supplied to the package - the terminal pads on - the base substrate. In order to obtain the objects and other advantages of the present invention, the present invention has been specifically and broadly described. The method of manufacturing a liquid crystal display device using a tape-and-reel package alignment includes a method of providing a color filter plate, a base substrate and a liquid-day (10) plate, the liquid crystal panel is located between the color filter plate and the base substrate; an anisotropic conductive film which is added to the fine phase; the self-turning anisotropic conductive film; Wei Jing panel Fu domain set _ tape-type county '· combined with this anisotropic conductive tape-type county; money combined with the combination of anisotropic conductive film on the tape substrate packaged on the base substrate. The apparatus for manufacturing the crystal ageing apparatus of the present invention and the method of manufacturing the same can have the following effects. In the manufacturing apparatus of the liquid crystal display device of the present invention and the method of manufacturing the same, a single-orientation conductive enthalpy (ACF) bonding device that occupies 1/5 of the total length of the device (4) (10) of the tape-and-reel package (TCP) is not used. It is integrated with a separate tape and reel package (Tcp) device to allow the TCp to be combined with a liquid crystal 201123328. It is used for liquid crystal display without the need for a separate panel, thereby considerably reducing Device length. As a result, the cleaning chamber of the device (LCD) module process can be used as another cost. Moreover, in the manufacturing apparatus of the liquid crystal display device of the present invention and the manufacturing of the street, a free-type automatic correction based on the hinge structure is used in order to ensure quality and landscaping, that is, the correction is related to the anisotropic guide The combination is to promote the accurate bonding of the anisotropic conductive film to the tape and reel package. In the manufacturing apparatus of the liquid crystal display device of the present invention and the method of manufacturing the same, the combination of the anisotropic guiding tape has a fine solution, so that the utilizing-capturing device anisotropic conductive film corresponds to the de-marking- Exactly arranged. Further, in the manufacturing apparatus of the liquid crystal display device of the present invention and the method of manufacturing the same, the cutting state of the tape-passing tape-wrap package can recognize the combination of the anisotropic conductive film and the amount of the can-prey can be easily formed. The conductive film has been combined. Further application areas of the present invention will be revealed by the following detailed description. It is to be understood that the detailed description of the present invention is intended to be illustrative and not restrictive. [Embodiment] Hereinafter, a manufacturing apparatus of a liquid crystal display device (LCD) of a difficult embodiment of the present invention will be described in detail with reference to the section of the present invention. Fig. 6 is a schematic view showing a manufacturing apparatus of a liquid crystal display device of the present invention. As shown in Fig. 6, a tape-and-reel package (TCP) alignment system which is a manufacturing apparatus of a liquid crystal display device (LCD) 201123328 of the present invention may include an isoconductive film (ACF) butterfly unit 21A. - anisotropic derivative (acf) stripping unit 22, - tape and reel package (TCP) supply unit 23, a bonding tool unit ice, anisotropic transfer film (ACF) combined with correction unit mo, anisotropy Conductive film (a front/back combination detection unit 260 and 27 (as shown in Figure 12 and Figure 13), and an indicator unit 29 (as shown in Figure 14). Anisotropic Conductive Film (ACF) _ Unit (10) is a free-rotation type automatic correction with a hinge-based structure that functionally ensures reliable tape and reel package (TCP) quality and tape and reel package (TCP) settings. The anisotropic conductive film (ACF) stripping unit 220 is a separate stripping device. The anisotropic conductive film (ACF) stripping unit DO is configured to prevent an anisotropic conductive film bonded to a tape and reel package (TCP). (ACF) separated from the absorption panel (not shown). Tape and Reel (TCP) supply unit 230 and The bonding tool unit 24A has a structure capable of minimizing the deviation of the supply of the tape-and-reel package (TCP) for achieving a combination of anisotropic conductive film (ACF). In addition, an anisotropic conductive film (ACF) The combination correction unit 25 移动 can move the anisotropic conductive film (ACF) bonding position through the deviation of the change of the center of the tape-and-reel package (TCP) and the tape-and-reel package (TCP) to maintain an accurate Anisotropic conductive film (ACF) bonding. The anisotropic conductive film (ACF) front bond detecting unit 260 can provide a capturing device, such as a camera, to measure the position of the perforation of the tape and reel package (TCp) by the camera and define Aligning the position of the mark, and then transmitting the information to the anisotropic guide 11 201123328 Electro-membrane (ACF) bonding correction unit 25 〇. The combined detection unit may have a capture device after the conductive film (ACF). For example, a camera is more like an electrical MACF). After bonding, the anisotropic conductive film (ACF) has been properly bonded and the position of the alignment mark is recognized. Further, the indicating unit 290 can vacuum-adsorb the tape and reel package (TCP) and rotate about 60 degrees each time to supply the tape and reel package (Tcp) to the pad terminal of a base substrate in each process. Fig. 7 is a schematic view showing an anisotropic conductive film (ACF) cutting unit of a tape and tape type (TCP) alignment system for manufacturing a liquid crystal display device of the present invention. As shown in Fig. 7, the anisotropic conductive film (ACF) cutting unit 21 can ensure the cutting quality and the reliability of the setting by using the free-rotation type automatic correction with the -based mechanism. According to the prior art towel-setting device-cutting knife; however, such a structure continuously produces a quality-related problem, for example, the cutting of the anisotropic conductive film (acf) fails or excessively cuts the anisotropic conductive film ( Acf). In order to solve such a problem, the present invention also uses the conventional method of setting a cutter according to a set mold. However, as shown in Fig. 7, the structure of a panel is changed. That is, in order to cut an anisotropic conductive film (ACF) over a base film (140 of "Fig. 8"), if all of the knife holders 212 are moved forward to strike a panel 214, the panel 214 The hinge 216 is momentarily tilted to remain parallel to all of the knives 218. Therefore, the cutter setting which is repeated several times in the prior art can be completed only once in the present invention. 12 201123328 The panel rotation of the anisotropic conductive film (ACF) of the branch to adjust the parallelism of the end of the blade of the cutting anisotropic conductive film (ACF) 126 - the cutter 218, and the operation of the panel (10) makes the cutter (10) The blade is parallel to the anisotropic conductive film ((10) shirt. That is, when the cutter (10) that cuts the anisotropic conductive film (ACF) 126 is moved forward to the panel 214 where the anisotropic conductive film (ACF) 126 is placed. If the parallelism between the cutter 218 and the face plate 214 is adjusted, the anisotropic conductive film (ACF) 126 is uniformly cut. However, if the face plate 214 and the cutter 218 are fixed to the state in which the face plate and the file cutter are not parallel to each other. Then, the anisotropic conductive film 126 is unevenly cut, and the panel 214 is movable around the center of the hinge 216 and fixes the cutter plus the mold impact panel 214, and the panel 214 is adjusted to the surface of the panel 214 and the mold. The state of the contact, Fig. 8 is a schematic view of the anisotropic conductive film (ACF) stripping unit of the tape-type entrapment (tcp) alignment system for manufacturing a liquid crystal display device (Lc). As shown in Figure 8, the present invention uses Manufacturing of Liquid Crystal Display Device (Lcd) • Tape and Reel Package (TCP) Alignment System Anisotropic Conductive Film (ACF) stripping unit 220 is a stripping device that transmits forward/backward moving parts like forward or backward The movement 'is peeled off from the base film 140 combined with the anisotropic conductive film (acf) through the use-separator 226. The anisotropic conductive film (ACF) stripping unit 22 can be used to prevent the anisotropy from being bonded thereto. A tape-and-reel package (TCP) 130 of conductive film (ACF) m is separated from an absorbing panel (not shown). An anisotropic conductive film (ACF) 126 over a passivation film is bonded to a tape and reel package ( After TCP) 130, a process of stripping the passivation film is required. When the passivation film is stripped 13 201123328 = the adhesion between the suction = (ACF) 126 and the purified crucible is greater than the m (tcp) m of the money, Therefore, the tape = (cp) 130 and the passivation film are moved. To prevent this problem, a small panel is pressed toward the tape winding package (TCP) 130 toward an absorption direction (not shown). ^ Conductive film (10)) 126 is directly bonded. The tape side on the tape and reel package (tcp) 13〇. The present invention is applied to a split-type stripping device, rather than a roller-type stripping device, which can produce a tape-and-reel package (TCP) due to the creation of a vacuum-adsorbing device that is perpendicular to the tape-type seal-type stripping device. The 'Athotropic Conductive Tantalum (ACF) stripping unit of the present invention has a sharp face and is aged _Qingmu (10). The "9th" is the alignment system for manufacturing a liquid crystal display device (L(9) roll package fCP) of the present invention. Schematic of a tape and reel package (Tcp) supply unit. The first embodiment is a schematic diagram of a bonding tool unit for manufacturing a liquid crystal display alpha package (TCP) alignment system of the present invention. The tape and reel package (TCP) supply unit 23G of the present invention can package (10) supply execution (4) and - tape and reel package (10) to supply volume =. The tape and reel package (TCP) supply unit 23 can be supplied to the tape and reel package (TCP) by the tape reel package (10) supply actuator 232. Here, the tape supply package (TCp) side tape reel package (10) is supplied to the jig for a predetermined length due to the combination with the anisotropic conductor 201123328 electric film (ACF). The bonding tool U 24A of the tape and reel package (TCP) alignment system may also be provided with a cutter head 242 which is permeable to an anisotropic conductive film (ACF) bonded to the tape reel type (TCP). Applying a predetermined pressure to press the anisotropic conductive film (ACF) 〇 '11th image" The manufacture of the (4) liquid crystal age device (LCD) tape-and-reel package (TCP) alignment system anisotropic conductive film (ACF) A schematic diagram of a combined correction unit. - Read 252 represents the servo motor, and an element 256 represents a nut member 254 and 258 representing the LM block. That is, the LM sliders 254 and 258 represent the sliders on the LM lane that accurately guides the linear motion. As shown in "Fig. 11", the present invention is used to manufacture a liquid crystal display device like D) = the π-type package (tcp) alignment system of the anisotropic derivative (ACF) bonding correction unit 250 is passed through a tape and reel package ( Tcp) Variation in the variation of the centering and tape-and-reel package (Tcp) centering moves the anisotropic conductive film (ACF) bonding position, thereby maintaining a precise anisotropic conductive film (ACF) bonding state. When the anisotropic conductive film (ACF) is bonded to the liquid crystal panel according to the prior art, the combination obtains an error range of about 2 〇〇 micrometers (um). Therefore, there is no need for a separate parent device. However, in the towel of the present invention, the anisotropic conductive film (ACF) is directly combined with the occupational package (TCP), and the hearing is obtained with a large _ 〇 0 micrometer (um) error range, so the present invention requires a γ axis. A separate correction device in the direction. In other words, the γ direction indicates the width of one of the anisotropic conductive films (ACF) 15 201123328 Π 2 mm)' and the direction of the x-axis indicates the direction in which the anisotropic conductive film (ACF) is perpendicular to the width direction. . The # and the present invention identify the edge of the tape and reel package (TCP) and the alignment mark by an acquisition of a government device such as a camera prior to the combination of anisotropic conduction (ACF). The position of the anisotropic conductive film (acf) to which the k is to be bonded. Therefore, the identifiable error is combined and the pre-correction is carried out according to the tape-and-reel package (TCp) perforation and the tape-and-reel package (TCP), thereby satisfying the setting conditions. Fig. 12 and Fig. 13 are schematic views showing a front-rear bonding detecting unit of a tape-removing (Tcp)-to-transfer anisotropic conductive film (5) for manufacturing a liquid crystal display device (LCD) of the present invention. The "figure diagram" is the camera and the indication part of the front/rear combined detection unit of the anisotropic conductive film (ACF) of the tape package (tcp) alignment system for manufacturing a liquid crystal display device (LCD) of the present invention. schematic diagram. As shown in FIG. 12, the tape-and-reel package (tcp) of the present invention for manufacturing a liquid crystal display device (5) d) can be used with a capture-capture device in conjunction with the ACF front-end detection unit 260. For example, a camera 264 measures a tape package (TCP) perforation size and defines the position of the alignment marks for transmitting information to the anisotropic conductive film (ACF) bonding correction unit 25A. And as shown in FIG. 13 and FIG. 14 , the tape-type county (TCp) for manufacturing a liquid crystal display device (LCD) of the present invention is aligned with the Wei anisotropic conductive film (ACF) and combined with the detection unit. Camera 274 can be used to properly engage and align the position of the indicia. Prior to the bonding of the anisotropic conductive film (ACF), the anisotropic conductive film 201123328 (ACF) front bonding detecting unit 26 of the present invention can recognize the tape-wrap edge (tcp) edge/alignment mark by the camera 264. And determining the size and absorption position of the tape and reel package (TCp), thereby correcting the position of the bonded anisotropic conductive film (ACF). The anisotropic conductive film (ACF) post-integration detecting unit 27 of the present invention also recognizes a tape and reel package (Tcp) edge/alignment mark for correcting the deviation in the γ-axis direction by the camera 274 so as to be in the 〇1〇 Anisotropic conductive film (ACF) bonding is achieved within a margin of 〇 micrometer (um), that is, the γ-axis direction represents one of the width directions (1-2 mm) of the anisotropic conductive film (ACF), and the X-axis The direction indicates the direction in which the anisotropic conductive crucible (ACF) becomes perpendicular to the width direction. Therefore, the cameras 264 and 274 of the anisotropic conductive film (ACF) front/back bonding detecting units 260 and 270 of the present invention can improve the bonding state of the anisotropic conductive film (acf) and contribute to the green setting or not. The anisotropic conductive film (Acp) bonding is satisfied, allowing the selection of a defective anisotropic conductive film (ACF). As shown in FIG. 14, the indicating unit 29() of the present invention can adsorb an anisotropic conductive film (ACF) tape and reel package ♦ (TCP) ' through an adsorption device such as a vacuum adsorption device and the adsorption device Each rotation is 60 degrees to supply a tape and reel package (TCP) to a terminal end existing on a base substrate of a liquid crystal panel. Hereinafter, a method of manufacturing a liquid crystal display device (LCD) using the present invention having the structure will be described in detail with reference to the drawings. Fig. 15 is a flow chart showing a tape-and-reel package (TCp) alignment process of a tape-and-reel package (TCP) alignment system in the manufacture of a liquid crystal display device (LCD) of the present invention. Figure 16 is a combination of a tape and tape package (TCp) alignment of a 17 201123328 volume f package (TCP) alignment system using the present invention for manufacturing a liquid crystal display device (lcd). Plan view of a tape and reel package (TCP) with an anisotropic conductive film (ACF). The manufacturing method of a liquid crystal display device will be realized by using the devices described in "Fig. 6" to "Fig. 14". First, a color filter substrate, a base substrate, and a liquid crystal panel are provided. The liquid crystal panel forms a sandwich structure between the color filter substrate and the base substrate. A pad terminal (not shown) for supplying a plurality of hard-crystals (TFT) (shown) and Lincheng to a thin film transistor (TFT) is formed on the base substrate 1〇2. A black matrix (not shown) for shielding light and a color filter (not shown) for reflecting video signals by light transmission are formed on a color filter substrate 108, not shown. Then, the base substrate 102 and the color filter substrate 108 are combined with each other and a liquid crystal (not shown) is located therebetween, thereby manufacturing one of the liquid crystal panels shown in FIG. And "Fig. 16", an anisotropic conductive film (ACF) attached to the base film is cut and the anisotropic conductive film (ACF) is peeled off from the base film. In the first step (S110), a tape-and-reel package (TCP) 130 having a driving circuit of the liquid crystal panel and an alignment mark for guiding the combination of the anisotropic conductive film (ACF) 126 are supplied. Using a camera (not shown), an anisotropic conductive film (ACF) 126 is arranged on the tape-and-reel package (TCP) 130 in accordance with alignment marks (not shown), thus being bonded to a tape-and-reel package (TCP). ) above 130. Here, the position of the perforation size and the _scale mark of the tape-and-reel package (TCP) 201123328 no is measured by the anisotropic conductive film (ACF) front bonding detecting unit 260 shown in FIG. 12, and the information is obtained. Send to the anisotropic I. green conductive film (ACF) combined with the correction unit. The position of the alignment mark with respect to the anisotropic conductive film (ACF) is adjusted according to the result of the measurement process. Here, the camera 264 of the anisotropic conductive 臈 (ACF) front combination detecting unit 26 is used to recognize the presence of the anisotropic conductive film (ACF) bond and the position of the alignment mark. When the lion is aligned, the camera (10) of the front-facing conductive film (ACF) combined with the detecting unit 26A recognizes the edge/alignment mark of the tape-and-reel package (TCP) 130 to determine the tape-type sealing (take) 130. The size and the absorption position' are thus corrected in combination with the position of the anisotropic conductive film (a(7). And the width of the anisotropic conductive film (ACF) 126 bonded to the scale package (Tcp) 13G is compared to the tape. Package (TCp) 13〇 is narrower and better. - Element 262 represents the servo motor, and element 272 represents the gas red. After the anisotropic conductive film (ACF) 126 is bonded to the tape-type county (Tcp) (10) The camera 274, which is coupled to the detecting unit 27G, is located after the anisotropic conductive film (acf) shown in Fig. 13 for measuring the position of the anisotropic guide « (ACF) which is required to correct the γ-axis direction. Twisted edge (Tcp) edge; alignment mark, Saki in the error correction (8) fresh (um) to achieve anisotropic electrical film (ACF) bonding. Therefore 'the invention of the anisotropic conductive film (ACF) before / After combining the detection unit and the camera, 274 can improve the accuracy of the anisotropic conductive film (Μ) junction s Promoting the decision to meet or not satisfy the choice of an anisotropic conductive film (ACF) 'allows the selection of a defective tape and reel package (Tcp). A tape and reel package with an anisotropic conductive film (ACF) 126 bonded to it ( τ(8) 130 is adhered to the pad terminal (not shown) of the base substrate 1〇2. Here, the indication unit 290 of the "μ19 201123328" does not move toward the base substrate with the anisotropic conductive film (ACf) 126. Tape and Reel Package (TCP) 130. Indicating a single it 290 transmission-adsorption device, such as a vacuum adsorption device, adsorbs a tape and reel package (TCP) 130 having an anisotropic conductive film (ACF) 126. The adsorption device then rotates about 6 The twist is used to supply a tape and reel package (TCP) 130 to the top terminal (not shown) of the base substrate 1〇2 in each process. In the second and third steps (812〇 and 813〇) Among them, a heating tool (not shown) slides along the outer surface of the edge of the tape-and-reel package (TCP) 13〇 and applies heat and pressure to its rib connection. Moreover, the anisotropy guide (ACF) 126 has a conductive lion distributed in the thermosetting resin towel. Therefore, due to heat and pressure The resin is partially hardened and the conductive test is pressed up and down, and the 塾 terminal (not shown) of the base substrate 1 () 2 and the tape-type (TCP) 13G are lightly connected (not shown). The manner of contacting each other. ... In the fourth step (S140), the tape-and-reel package having the anisotropic conductive film (ACF) 126 bonded thereto by a tape automated bonding (TAB) process ((8)(10) through An alignment detecting device (not shown) detects to determine whether a contact pad (not shown) of the tape reel package (TCP) 130 is satisfactorily brought into contact with the terminal of the liquid crystal panel 1 (8), thereby completing the tape and reel package (TCp). ) combined with the process. As described above, in the manufacturing apparatus of the liquid crystal display device of the present invention and the method of manufacturing the same, an independent anisotropic conductive film occupying the entire cleavage length 丄/5 of the tape-and-reel package (TCp) alignment system is not used ( The ACF) bonding device, the shunting and the independent ^ tape package (TCP) bonding device are integrally formed to allow the tape and reel type package (the (8) is directly bonded to the liquid crystal panel, thereby considerably reducing the device length. As a result, a 201123328 The cleaning chamber used in the liquid crystal display (LCD) module process can be used for another purpose without additional cost. Moreover, in the manufacturing apparatus of the liquid crystal display device of the present invention and the manufacturing method thereof, one has a basis based on _ The free-rotation type automatic correction is used as an anisotropic conductive film (ACF) cutting unit to ensure the quality and ease of setting of the tape-and-reel package (10), that is, the correction structure is combined with the anisotropic conductive film (acf) to promote The anisotropic conductive film (ACF) is precisely bonded to the tape-like shape (Tcp). In the manufacturing apparatus of the liquid crystal display device of the present invention and the method of manufacturing the same, the tape-and-reel package (TCP) having an anisotropic conductive film (ACF) at the mouth has an alignment mark so that the _-capture device The anisotropic conductive film (ACF) _ is accurately aligned with the alignment rods. In addition, in the manufacturing apparatus of the liquid crystal display of the present invention and the manufacturing method thereof, the anisotropic transfer (ACF) is combined How to use the cut-and-seal package of Dingshan (D) to detect whether the anisotropic conductive film (acf) and the combination are easily detected by using a capture device. The above-mentioned solid shirt type and its gamma are only species (4) And secretly in the present invention. f red thought __ in Wei _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ It is expected that the characteristics can be applied to other and/or alternative embodiments in different ways. The present month can be realized as a multi-lion can be bribed without departing from its spirit, unless otherwise specified, the above implementation The example is not limited to the above It should be understood that the scope of the patent application scope is broadly understood, and all changes and modifications within the scope of protection defined by the scope of the patent application are therefore within the scope of the present invention. 1 is a perspective view of a typical liquid crystal panel; FIG. 2 is an enlarged perspective view of a portion a of FIG. 1; FIG. 3 is a cross-sectional view taken along line 1 of the first drawing; The figure is a flow chart of a tape and tape type sealing alignment process using a tape and tape package alignment system of the prior art;

It is suspected that the 5th series is a Tcp-based roll of the conventional technology: the package side of the package (4) device, which is divided into anisotropic conductive film bonding and automatic tape feeding. FIG. 6 is a schematic view showing a manufacturing apparatus of a liquid crystal display farm according to the present invention; and FIG. 7 is an anisotropic transfer film of a tape and tape package alignment system for manufacturing the liquid crystal display device of the present invention. Schematic;

8 is a schematic view showing an anisotropic conductive separation unit of a tape-and-reel alignment system for manufacturing a liquid crystal display (lcd) according to the present invention; and FIG. 9 is a liquid crystal display device (lcd) manufactured by the present invention. Schematic diagram of the squaring type feeding unit of the take-up core alignment system; the drawing is a schematic view of the combined visor unit for manufacturing the liquid crystal display device (lcd) of the present invention, and the alignment system; Tape and Reel Package for Manufacturing Liquid Crystal Display Device 22 201123328 System Anisotropic Conduction Diagram 12th and 13th Figure The combination sealing unit of the film is the tape of the liquid crystal display device of the present invention. Schematic diagram of the combination of the front and back of the anisotropic conductive film of the formula and the second system; _ the basis of the (4) manufacturing of the liquid crystal display miscellaneous tape removal alignment _,, ',, to the H conductive film Μ / Rear view of the camera and the indication portion of the detection unit; Figure 5 is a flow-through process of the tape-type dressing process of the manufacturing apparatus of a liquid crystal display device of the present invention; and during the sealing alignment process, Bonding a plane combined with a 1-package on the substrate Figure. [Main component symbol description] 10 LCD panel 12 Array substrate 16 First pad 18 Color filter substrate 20 Printed circuit board 22 Second pad 26 Anisotropic conductive film 30 Tape and reel package 32 First contact 塾 23 201123328 34 Second Contact pad 45 Heating tool 100 Liquid crystal panel 102 Base substrate 108 Color filter substrate 126 Anisotropic conductive film 130 Tape and reel package 140 Base film 200 Tape and reel package alignment system 210 Anisotropic conductive film cutting unit 212 Cutter retention 214 Panel 216 Hinge 218 Cutter 220 Anisotropic Conductive Film Stripping Unit 224 Moving Portion 226 Separator 230 Tape and Reel Package Supply Unit 232 Tape and Reel Package Supply Actuator 234 Tape and Reel Package Supply Clamp 240 Bonding Tool Unit

24 201123328 242 cutter head 250 anisotropic conductive film bonding correction unit 252 servo motor 254 > 258 LM slider 256 nut 260 anisotropic conductive film front combined detection unit 262 servo motor 264'274 camera 270 after anisotropic conductive film Combined detection unit 272 cylinder 290 indicating unit 25

Claims (1)

201123328 :, A § month profit range: 1. - A liquid crystal display device s manufacturing equipment, including: a cutting unit, the system is set to cut - anisotropic conductive film (ACF). The flip element, the gamma feed h-reel package-separation on the absorption panel, the (four) block combines the sexual guide, and the simple-time self-base (4) the different touch Wei t, ° two-reel package The supply unit is configured to supply the tape and reel type package; an anisotropic conductive lining correction unit, and the miscellaneous wire machine is an error generated when the tape-wound package is supplied in combination with the anisotropic f-conductive film; Before the guide is combined with the detecting unit, the position of the punching position of the tape-reel package is determined and the position of the plurality of alignment marks on the tape-and-reel package is determined; - after the anisotropic conductive film In combination with the detecting unit, the matching device is configured to determine whether the anisotropic conductive film has been bonded and the position of the alignment marks by using a capturing device, and after the anisotropic conductive film is bonded to the tape winding type Luddy; and an indicator unit, which is true level The dielectric film tape package and rotated to supply the tape to the package base substrate on one of a terminal pad. 2. The manufacturing apparatus of a liquid crystal display device according to claim 1, wherein the cutting unit comprises: 26 201123328 all knives movable to cut the anisotropic conductive film; and a panel subjected to the cutting The impact of the knife is rotated about a hinge to remain parallel to the cutter. 3. The manufacturing apparatus of a liquid crystal display device according to claim 1, wherein the anisotropic conductive film peeling unit comprises a moving portion for moving the base film forward or backward; and A separating member is used to peel off the base film. 4. The manufacturing apparatus of the liquid crystal display device of claim 1, wherein the tape and reel package supply unit comprises: a tape package supply jig for supplying the tape and reel package through a predetermined length And a supply actuator for supplying the tape and reel package. 5. The manufacturing apparatus of the liquid crystal display device of claim 2, further comprising a bonding tool unit, the bonding tool unit comprising a cutting head, the cutting head being configured to be press-fitted on the tape and reel package The anisotropic conductive film. 6. The manufacturing apparatus of a liquid crystal display device according to claim 1, wherein the anisotropic conductive front-end bonding detecting unit comprises a capturing device for measuring a tape-type package perforation position and identifying a position of the alignment mark. 7. The manufacturing apparatus of a liquid crystal display device according to Item 1, wherein the anisotropic conductive film front bonding detecting unit includes a capturing device to identify a tape package edge/alignment mark that corrects the deviation. . 27 201123328 8· - A manufacturing method for making a liquid crystal display of a retractable package, comprising the steps of: providing - a pure filter, a money board, a base substrate, and a liquid crystal panel, the liquid crystal panel being located in the color filter Between the optical substrate and the base substrate; cutting an anisotropic conductive film attached to a base film; peeling the anisotropic conductive film from the substrate; feeding the tape-type device having the driving device of the liquid crystal panel Encapsulating; bonding the anisotropic conductive film on the tape-and-reel package; and combining the tape with the anisotropic conductive film; cutting the button of the wire. 9. requesting 鄕" The method for fabricating a field alignment display device, further comprising: a step of: combining the anisotropic conductive film on the tape and reel package: measuring a perforation position of the tape and reel package by using a permeation-capture device Determining the position of the plurality of alignment marks on the tape carrier; and determining the position of the alignment marks based on the measurement difficulty-results_the anisotropy (4). $10. The method of manufacturing a tape and reel package alignment system according to claim 9, wherein the method further comprises the step of: The measurement-anisotropy of the stack on the tape package combines the positions and determines the positions of the alignment marks 28 201123328 and the like. The manufacturing method of the liquid crystal display device according to the eighth item of claim 3, wherein the step of attaching the tape-type package combined with the anisotropic conductive film to the base substrate The method comprises: moving the thin substrate to the base substrate in combination with a male conductive tape-and-reel package. 12. The method of manufacturing a roll-to-roll package material according to claim U, wherein the step of moving the tape-and-reel package incorporating an anisotropic conductive film toward the base substrate The method comprises: a permeation-adsorption device absorbing _ in combination with a tape-reel package of 贱科赖; and moving the adsorption device together with the anisotropic conductive fresh package toward the base substrate. 13. The method for manufacturing a manufacturing device that embodies the liquid crystal display of the present invention includes the following steps: providing a color light-emitting substrate, a wire plate, and a liquid crystal panel, the liquid crystal panel being located in the color Between the filter substrate and the base substrate; cutting an anisotropic conductive iridium attached to a base film; peeling the anisotropic conductive film from the base film; feeding the tape having the driving device of the liquid crystal panel a package; combining the anisotropic conductive film on the tape and reel package; and combining the anisotropic derivative of the tape with a thin-tipped underlying substrate 29, 201123328, 0 item n, The manufacturer of the slave device further includes a step of combining the _ directional conductive film on the take-up type: a punching position and determining to measure the tape-type seal of the tape-and-reel package through a capture device The position of the plurality of registration marks; and the position of the alignment marks is adjusted according to the result of the measurement process. The method for manufacturing a device for a liquid crystal display device according to claim 14, wherein the step of combining the anisotropic conductive film on the tape and reel package further comprises a step of: measuring anisotropic conductive lining Position and determine the locations of the materialized markers. The manufacturing method of the manufacturing apparatus of the liquid crystal display device of claim 13, wherein the step of incorporating the tape-wound package with the anisotropic guide surface on the base substrate comprises: moving toward the base substrate The tape-type sealing with the anisotropic conductive film is combined. 17. The method of manufacturing a liquid crystal display transposed manufacturing apparatus according to claim 16, wherein the step of moving the tape-and-reel package incorporating the anisotropic conductive film toward the base substrate comprises: passing through an adsorption device Adsorbing the tape-wrap seal 201123328 incorporating the anisotropic conductive film; and moving the adsorption device toward the base substrate together with the tape-and-reel package incorporating the anisotropic conductive film. Γ, f 31