TWI275838B - Polarizer attachment apparatus - Google Patents

Abstract

An apparatus for attaching a polarizer by attaching an LCD cell and a polarizer in a manufacturing process of a TFT-LCD is provided. The apparatus for attaching the polarizer can increase the accuracy of a work using an attachment roller for performing a supply of the polarizer and an attachment process thereof at the same time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention generally relates to a polarizer bonding apparatus (a polarizer bonding apparatus) for bonding a LCD cell and a polarizing plate in a tft_LCD manufacturing process. [Prior Art] In recent years, in the information-oriented modern society, LCD has become popular as an information display component. The reason is that L C D has the advantages of small size, light weight, low power consumption, etc., so it is an excellent choice to overcome the conventional cathode ray tube (CRT). In addition, [the application level of CD is becoming more and more extensive. In general, a conventional LCD displays its internal electronic signals on a screen by an LCD cell by directly creating an interface with a user. In this case, the LCD cell is composed of an upper layer and a lower substrate sandwiched by a layer of lcd. At this time, a polarizing plate is bonded to the outermost surface of the substrate above and below the LCD cell. The polarizer can selectively pass only light that strongly resonates with it in a certain direction to help the LCD cell produce an optimal display image. ^ When the bonding work of the polarizing plate is performed automatically, it is generally carried out using a polarizing plate bonding device. The polarizing plate bonding apparatus generally comprises an attachment roller, a polarizer supply unit and an LCD cell supply unit (a LCD ceU supply).

1275838 The bonding roller is an element for pressing and bonding the polarizing plate on both sides of the LCD cell. The LCD cell supply unit is an element for supplying the LCD cell between the press rolls. Further, the polarizing plate supply unit is an element for loading, moving and supplying the polarizing plate to one of the bonding positions of the LCD cell. Similarly, when the pressure roller and the polarizing plate supply unit are separately provided, the polarizing plate supply unit reciprocates between the polarizing plate supply position and the bonding position to make the supply process sustainable. However, if the polarizing plate supply unit has to constantly move the position while supplying the polarizing plate, it will be difficult to properly adjust its supply position and supply time. Therefore, if the supply position and supply time of the polarizing plate are not properly adjusted, the error rate at the bonding position of the polarizing plate is increased. In addition, this problem has become more serious as the size of LCDs currently used has grown larger. [Contents] One of the objects of the present invention is to provide a polarizing plate bonding apparatus which can simultaneously bond a polarizing plate to an upper surface and a lower surface of an LCD cell. According to a specific embodiment of the present invention, a polarizing plate device is provided, comprising a polarizing plate bonding module for simultaneously bonding a polarizing plate to an upper and a lower table of a LCD cell in a horizontal direction.

a unit supply module, which is provided in front of the polarizing plate bonding module for supplying an lcd cell (which is horizontally attached to the polarizing plate bonding module); Supplying a polarized light; and releasing a mold, and supplying it to one side of the polarizing plate bonding module for the upper and lower portions of the plate to the polarizing plate bonding module 6

1275838 The group 'for releasing the L C D cell' is intended to adhere the polarizing plate to the LCD cell by the polarizing plate bonding module. The present invention is not limited to the specifics and advantages of the present invention, and other objects and advantages that are not described herein will become more apparent to those skilled in the art. - [Embodiment] The inventive objects and features of the embodiments of the present invention are included in the following detailed description and drawings. According to an exemplary embodiment, a polarizing plate bonding device is illustrated in FIG. 1 and includes a polarizing plate bonding module 100, a cell supply module 200, and a polarizing plate supply module 300. And a cell release module 400. First, the polarizing plate bonding module 100 is an element for simultaneously bonding a polarizing plate to upper and lower surfaces of an LCD cell, wherein each polarizing plate is provided in a horizontal manner. According to an exemplary embodiment, the polarizing plate bonding module 1 includes an adhesive roller 110, a polarizing plate feeding unit 120, and a protective layer peeling unit 130. First, the bonding roller is an element for bonding the polarizing plate to the upper and lower surfaces of the LCD cell. The bonding roller 110, as shown in FIG. 2, comprises two cylindrical rollers which are parallel to each other and arranged in a top-down manner, one periphery of the cylindrical rollers is in contact with each other, and the two rollers are opposite each other. The direction is given a fixed amount of strength. Thus, a fixed amount of pressure can be applied across a particular component between the two rollers. At this time, the 7 1275838 'wearing' can change the interval between the rollers so that a special piece can be provided by the configuration. A pressure supply unit (not shown) employs a resilient member to apply a fixed amount of force to the two cartridges in a direction in which the rollers are opposed to each other. The pressure supply unit is provided separately from the upper and lower portions of the bonding drum 110. In addition, the pressure supply unit can always apply a fixed amount to the contact surface of the upper and lower rollers u 藉 by pushing the bonding roller Π 0 in a direction opposite to the bonding roller 11 〇. pressure. In an exemplary embodiment, a LCD cell (L) and a polarizing plate (P) pass through the bonding roller 11, and the polarizing plate (P) is pressed by the pressure on the bonding roller u〇. Forced contact with the LCD cell (L). When the LCD cell (L) and the polarizing plate (P) are passing through the bonding roller 110, even if the interval between the upper and lower bonding rollers 110 is changed, the pressure supply unit can still be in the bonding roller. 110 is given a fixed amount of pressure. At the same time, a feed-in polarizing plate (P) enters in such a manner as to wrap around the bonding roller. Since the polarizing plate itself has extremely high elasticity, when the bonding roller 110 pulls the polarizing plate, the polarizing plate is also wound around the bonding roller 110 while being bent. Therefore, in the illustrated embodiment, the polarizing plate (P) is also adhered to the LCD cell (L) while the polarizing plate is wound around the bonding roller. Therefore, in the illustrated embodiment, a polarizer adsorption unit (a polarizer is provided), so that the polarizing plate fed to the bonding roller 11 can be rotated and not attached to the bonding roller. 8 1275838 remains entangled in the state of the bonding roller 1 1 分离 in the state of uo separation. The polarizing plate adsorption unit 丨丨 2 uses a vacuum suction force to adsorb the polarizing plate (ρ) on the periphery of the bonding roller 11 。. Therefore, in the illustrated embodiment, the polarizing plate adsorption unit 11 2 includes an adsorption hole 11 2a formed through a thickness direction of the periphery of the bonding roller 11; and an inlet pump (not shown) It is used to induce air to pass through the adsorption hole 11 2a. The bonding roller 110, as shown in Fig. 3, is provided together with the inducible air inlet pump, has an empty cylindrical structure and is connected to an internal space such that when air is induced through the adsorption When the hole is 2, an adsorption force can be generated. At this time, it is preferable to adjust an adsorption force according to the polarizing plate so as to be lower than the viscous force between the LCD cell (L) and the polarizing plate (P), because when the polarizing plate (P) After being adhered to the LCD cell (L), it is kept in a state of being separated from the bonding roller 110 but not separated from the LCD cell (L). The polarizing plate feeding unit 120 is an element for feeding the polarizing plate so that the polarizing plate (P) can be wound around the periphery of the upper and lower bonding rollers n 分别 , respectively. The polarizing plate feeding unit 1 2 〇, as shown in Fig. 2, is respectively provided on an upper end of the upper roller and a lower end of the lower bonding roller. The polarizing plate feeding unit 120 includes a feeding roller 122 and a polarizing plate wood θ and is rolled off 1 2 4 . The 5 liter feeding roller 1 2 2 ', as shown in FIG. 2, is shown in the figure. An outer side of the bonding roller 11 is composed of an upper roller and an upper roller which are arranged upward and downward in parallel with each other, and pushes the polarizing plate (ρ) through the upper and lower rollers 122 The polarizing plate (Ρ) is moved on the periphery of the bonding drum 110. At this time, the upper roller 9 1275838 cylinders in the feed rollers 122, as shown in Fig. 2, can be moved up and down. Therefore, when the polarizing plate (P) is initially loaded, the upper roller will form a long interval between the feeding rollers by moving upwards, so that the polarizing plate supply module 300 is The front end of the polarizing plate (P) that moves is easily inserted between the feed rollers 122. Thereafter, after the leading end of the polarizing plate (P) enters between the feeding rollers 12, the upper roller is lowered downward to securely lock and fix the front end of the polarizing plate (p). Thereafter, the feed rollers 122 are rotated and feed is performed while moving the polarizing plate (P) toward the peripheral direction of the bonding drum 110. Further, as shown in Fig. 2, a polarizing plate erecting roller 124 is provided on the back surface of the feeding roller 12, and is disposed in such a manner as to space the plurality of rollers at a predetermined interval, so that the polarizing plate is supplied with the mode. The polarizing plate (P) supplied from the group 300 can be mounted on the upper portion. Further, the polarizing plate feeding unit 120 is, as shown in Fig. 2, green, and is in contact with the periphery of the bonding roller 110. Preferably, the polarizing plate feeding unit 120a further includes an adhesive roller 126 for adhering one end of the polarizing plate (p) to a periphery of the bonding roller 110 by the feeding roller 122. When a front end of the polarizing plate (P) is fed by the feeding roller 122 to the peripheral direction of the bonding roller 110, the polarizing plate (P) is subjected to an adsorption force (by the bonding roller 11) The adsorption force generated by the polarizing plate adsorption unit is adsorbed to the periphery of the bonding roller u 〇. However, the above-mentioned viscous roller 126 is arranged so as to be in contact with the periphery of the bonding roller 11 in front of the feeding roller 122, so that the front end of the polarizing plate (P) can be adsorbed to the adhesive in a right angle direction. Connected to a correct position of the drum 11〇. Therefore, the polarizing plate (p) can be adhered to the periphery 10 1275838 of the bonding roller 11 . Next, the protective layer peeling unit 130 is an element for peeling off the protective layer adhered to the surface of the polarizing plate (P). One side of the polarizing plate (p) is of course adhered to the lCD cell by an adhesive dispersed on the LCD cell. Therefore, in order to protect the surface on which the adhesive is applied to the polarizing plate (P), the side to which the adhesive is applied on the polarizing plate (P) must be adhered with a protective layer. In order to adhere the polarizing plate (P) to the LCD cell, the protective film layer must be peeled off, so that the protective layer peeling unit 13 can be used for stripping the protective film layer. The protective layer peeling unit 1 30 can peel the protective film layer from a polarizing plate (p) adsorbed on the bonding roller n 一 by an adhesive tape. Therefore, the protective layer peeling unit 13 is provided beside the bonding roller 1 1 , and includes a peeling roller 133 and a viscous tape circular roller 134. The peeling roller 132 is arranged to be in contact with the periphery of the bonding roller 110, and is rotatable such that the adhesive tape (τ) is wound around the periphery to peel off the protective film layer. Further, the viscous tape circular drum i 34 is arranged such that the two rollers are spaced apart from each other by a predetermined interval, and when the viscous tape (τ) φ is moved from one roller to the other roller, the viscous property is allowed The tape can pass through the peeling roller 132 on a moving path. Therefore, the adhesive tape circular roller 134 is preferably composed of a driving roller (driven by a driving device) and a driven roller to supply the adhesiveness. The driven roller of the tape is passively rotated by driving the drive roller. The polarizing plate supply module is then provided in a multi-lure polarizer supply module that is laminated up and down. In addition, the polarizing plate supply in the upper layer 11 1275838 module can provide a polarizing plate to the upper bonding roller, and the polarizing plate supply module in the lower layer can provide a polarizing plate to the lower bonding roller. The polarizing plate supply module 300 is composed of a polarizing plate separation supply unit 31 and a polarizing plate moving unit 370. The polarizing plate separation supply unit 31 can separate and move a plurality of laminated polarizing plates one by one. In addition, the polarizing plate moving unit 3 70 can move the polarizing plates separated and moved by the polarizing plate separating and supplying unit 31, and the polarizing plate is bonded to the module 丨〇〇. The polarizing plate separation supply unit 310 can separate the polarizing plates one by one and supply the polarizing plates separated by the locks to the polarizing plate bonding apparatus. The polarizing plate is separated from the supply unit 310. As shown in FIG. 6, a polarizing plate separation supply roller 312 is included. A plurality of polarizing plates prevent the moving plate 314 and a polarizing plate from preventing the moving roller 3 16 . The polarizing plate separation supply roller 312 can separate and supply the polarizing plate to the uppermost side of the polarizing plates, and the polarizing plates are raised by a polarizing plate raising unit 320 from a lower side of the polarizing plate. . Thus, in the illustrated embodiment, the polarizer separates the supply roller 312, as illustrated in Figures 5 and 6, having a cylindrical roller structure and rotated by a separate power source. Preferably, a periphery of the polarizing plate separation supply roller 312 is made of a material which can generate a large amount of friction when the periphery is in contact with the polarizing plate, because the polarizing plate separation supply roller 312 is separated when rotated. And moving the polarizing plate, therefore, if the frictional force when the periphery is in contact with the polarizing plate is too small, only the polarizing plate can be easily separated from a roller, the process of separating and moving the polarizing plate cannot be smoothly performed. Conducted. In the illustrated embodiment, the bias 12

1275838 The light plate separation supply roller 312, as shown in Fig. 6, is rotated to contact an uppermost end of the plurality of laminated polarizing plates, and is in contact with an outermost surface of the polarizing plate arranged in the upper array . Therefore, the outermost polarizing plate can be moved by the polarizing plate separation supply roller 312. At the same time, the polarizing plate can be applied to separate the supply roller 3 1 2 to provide various standard polarizing plates. Therefore, the length of the polarizing plate separating the supply roller 312, as shown in FIG. 7, is shorter than the length of the polarizing plate and the polarizing plate to prevent the moving roller 31, and is changed according to the size of a polarizing plate. Perform work when its position. Therefore, the length of the polarizing plate separation supply roller 312, as shown in Fig. 7, can be moved up and down and in the horizontal direction. In order to change the position of the polarizing plate separation supply roller 312, the polarizing plate separation supply roller 312 is first moved to an uppermost position to be separated from the polarizing plate plural to prevent the moving roller 3 16 or the like from being separated. Further, the polarizing plate separation supply roller 3 1 2 is sent to a desired position by moving in the horizontal direction, and then lowered to prevent the moving roller 31 6 from coming into contact with the polarizing plate. Further, the polarizing plate is provided on the lower side of the polarizing plate separation supply roller 3'2 to prevent the movement plate 314 from being prevented from being moved by the polarizing plate separation supply roller 312 except for the polarizing plate other than the uppermost polarizing plate. Preferably, the plurality of polarizing plates prevent the moving shutters 3 to 4 from being arranged at a predetermined interval apart from the polarizing plate separating supply rollers 3丨2, and the spacing therebetween is about the thickness of the polarizing plate. In other words, it is preferable that the drum 312 and the shutter 3 1 4 are spaced apart to allow a distance through which one polarizing plate (not two polarizing plates) can pass. 13 1275838 Further, when two or more polarizing plates are moved by the polarizing plate separation supply roller 3 j 2 'the polarizing plate plural prevents the moving roller 316 from preventing a lower polarizing plate from being moved. Therefore, the plurality of polarizing plates prevent the moving roller 316 from being disposed on the back surface of the polarizing plate plural movement preventing plate 3 14 as shown in FIG. 6 and 9 so that when two or more polarizing plates are moved, It is not prevented by the plurality of polarizing plates from moving the shutters 34, and the polarizing plates can be separated again. In an embodiment of the invention, the plurality of polarizing plates prevent the moving rollers 3丨6 from being arranged to contact the periphery of the polarizing plate to separate the supply rollers 3丨2. Further, the plurality of polarizing plates prevent the moving roller 3丨6 from being constituted by the rotatable drum (but only when the rotational force exceeds a fixed size). In other words, since the rollers can be rotated, but each has some degree of force to prevent rotation, the rollers are arranged to rotate only when the applied rotational force exceeds the anti-rotation force. Therefore, the plurality of polarizing plates prevent the moving roller 3丨6 from being in contact with the polarizing plate separation supply roller 312, and the rotated polarizing plate is separated from the passive roller rotated by the supply roller 31. At this time, since the plurality of polarizing plates prevent the moving roller 31 6 from separating one or two stuck and moving polarizing plates and preventing the separated polarizing plates from moving, the plurality of polarizing plates prevent the moving roller 3 16 from being set only It can be rotated by a fixed force that exceeds the viscous force between the polarizers. Therefore, when the two polarizing plates are moved in a mutually overlapping state, because the plurality of polarizing plates prevent the moving roller 316 from rotating, the polarizing plates above the two polarizing plates are moved by the polarizing plate separating supply roller 312. The lower polarizing plate is not prevented from moving by the moving roller 316 by the plurality of polarizing plates. Therefore, the two overlapping polarizing plates can be separated. Conversely, 14 1275838, when a polarizing plate is moved, the polarizing plate is usually moved forward because the polarizing plate separation supply roller 312 rotates the movement preventing roller 316. In addition, the polarizing plate supply module 3 further includes a polarizing plate raising unit 320. The polarizing plate raising unit 32 can lift a plurality of laminated polarizing plates so that the uppermost polarizing plate can contact the periphery of the polarizing plate separation supply roller 3 i 2 . Therefore, the polarizing plate raising unit 320 is composed of a plate 322 (similar in size to the polarizing plate) and a motor 3 2 4 for lifting the polarizing plate (using the plate 322 to raise the polarizing plate). Together. Preferably, the motor is micro-regulated. For example, a servo motor can be used. Therefore, the plate 322 can be lifted by driving the motor 324. Further, when the polarizing plate separation supply roller 312 is supplied with the polarizing plate from above, the other polarizing plates must be brought into contact with the periphery of the polarizing plate separation supply roller 312 while being lifted. Thus, motor 324 can push the polarizer to an uppermost level to apply a fixed upward force. Thereafter, the polarizing plate supply module 300, as shown in Figures 4 and 5, further includes an air spraying unit 330. The air spraying unit 33 can spray air from one side of the plurality of laminated polarizing plates to one direction of the polarizing plate to separate the laminated polarizing plates. The plurality of laminated polarizers have their own weights, so that the polarizing plates adjacent thereto are tightly bonded to each other. Therefore, the uppermost polarizing plate must be separated from the lower polarizing plate to separate and supply the uppermost polarizing plate one by one. As shown in Fig. 8, the air spraying unit 33 0 can spray air between the uppermost polarizing plate and the polarizing plate below it to help separate the two polarizing plates. In the illustrated example, as shown in Fig. 4, the air spraying unit 33 can be arranged in a line at a height corresponding to the 15 1275838 polarizing plate separation supply roller 3丨2. In addition, as shown in FIG. 9, according to the present invention, in the polarizing plate supply module 300, the polarizing plate can be laminated in a state of a polarizing plate (C) or can be free of cassettes (c). The addition is carried out by a plurality of laminated polarizing plates. If the cassette (C) is used, a plurality of polarizing plates are laminated upward and downward, and then a fixed amount of the polarizing plate (P) is loaded in the cassette (C), and by moving the card H ( C) to load the polarizer. Therefore, the polarizing plate supply module 3 preferably Φ further includes a polarizing plate cassette supply unit 340 for externally supplying the cassette (C) into the polarizing plate supply module 3A. In an exemplary embodiment, as shown in Figures 4 and 5, the polarizing plate cassette supply unit 34 has a structure in which a plurality of rollers are spaced apart at a certain interval and are horizontally arranged. The cassette (C) placed on the uppermost side moves as the drum rotates. Next, a polarizing plate card E fixing clip (not shown) is provided at one end of the polarizing plate cassette supply unit 340 for fixing the moving polarizing plate cassette. When the card E(C) is moved to the final working position by the polarizing plate cassette supply unit 34, the card must be fixed (C) so as not to move easily in a separate supply procedure. Therefore, the polarizing plate retaining clip can be fixed by a plurality of points on the lower side of the card E reaching the final working position. In addition, in the polarizing plate supply module 300 in accordance with an embodiment of the present invention, it is preferable to provide a polarizing plate layer detecting unit 3 5 〇 to detect the separation supply unit by the polarizing plate. 310 The number of polarizer layers separated and provided. The polarizing plate layer debt detecting unit 350, as shown in FIG. 5, is disposed at the front end of the polarized light 16 1275838 plate separation supply unit 3 1 , and finally can be detected and separated by the polarizing plate separation supply unit 310. Is the number of polarizers 2? In addition, in the illustrated embodiment, when the polarizing plate layer detecting unit 35 provides two or more polarizing plates, it is preferable to provide a control unit (not shown) for receiving the polarizing plate. The layer detecting unit 350 detects the polarizing plate layer signal and can reverse the polarizing plate separation supply roller 312 to return the polarizing plate. When two or more polarizing plates φ are simultaneously supplied due to an error in the polarizing plate separation process, the control unit can perform the polarizing plate again by reversing the polarizing plate separation supply roller 312 rotated by the error signal. Separation work. Therefore, in the polarizing plate supply module 3 according to the illustrated example, it is possible to completely block a mistake that may occur when two or more polarizing plates are jammed together. In addition, according to the present invention, the polarizing plate supply module 300 further includes a cleaning unit 360. As shown in FIGS. 4 and 5, the cleaning unit 360 is disposed in front of the polarizing plate layer detecting unit 350. And cleaning the polarizing plate that has been separated and provided by the polarizing plate separation supply unit 310. The cleaning unit 36 同时 can simultaneously remove impurities on the surface of the polarizing plate between the rotations in which the two rolls φ are in contact with each other. A polarizing plate moving unit 3 70 is an adsorption moving robot arm for horizontally moving the polarizing plate in the adsorption state and fixing an upper surface of the polarizing plate to supply the polarizing plate to the polarizing plate bonding module 1 ^ At this time, the adsorption moving robot arm can absorb the polarizing plate by vacuum suction force. In addition, the absorbing mobile robot arm can also move along a moving path connecting the polarizing plate supply module 300 and the polarizing plate bonding module 100. 17

1275838 As shown in FIG. 1 , the polarizing plate supply module 300 further includes a polarizing plate alignment unit 380 for detecting and aligning the position of the separated polarizing plate. The polarizing plate alignment unit 380 can reduce the failure rate of the polarizing plate bonding work by correctly setting the position before supplying the separated and cleaned polarizing plate to the bonding roller 11A. The polarizing plate aligning unit 38 is configured to adjust the position of the polarizing plate when the polarizing plate is horizontally moved forward and backward, left and right, and when the polarizing plate is rotated, and the position of the polarizing plate is measured by a visible camera. As shown in FIG. 1 , the cell supply unit 20 is disposed in front of the polarizing plate bonding module 100 and is horizontally placed in the polarizing plate bonding module 1 来. LCD cell (L). The cell supply unit 200 arranges a plurality of horizontally disposed rollers together and moves and supplies the LCD cells lying on the upper surface while rotating the rollers, respectively. Preferably, the cell supply unit 200 further includes a cell alignment unit 210 for adjusting and aligning the position of the LCD cell. The cell alignment unit 210 is disposed in a spaced manner such that the central portion of the bonding roller 1 紧邻 adjacent to the plurality of rollers is empty. In other words, the cell supply unit 200 is configured to move and rotate the LCD cell in the front, rear, and left and right directions at a portion that can be moved up and down in the vicinity of the bonding roller 100 of the cell supply unit 200. To adjust the position while measuring the position of the LCD cell with a visual camera. In addition, when the alignment process of the LCD cell is completed, the cell alignment unit 210 also supplies the LCD cell between the bonding rollers 1A. At this time, the timing at which the LCD cell (L) is supplied between the bonding drums 100 and the time when the polarizing plate is rotated to wrap around the periphery of the bonding roller 1 can be correctly controlled. In other words, in the case of 18 1275838, when the front end of the polarizing plate (P) which is wound around the periphery of the bonding roller 11b reaches the contact point above the lower bonding roller 110, the upper end of the LCD cell is supplied to the adhesive. A contact point of the roller 110 is attached, and thus the LCD cell and the polarizing plate (p) can be controlled to be correctly locked to each other. After that, the cell release module 400 is disposed on the back surface of the polarizing plate bonding module 1〇〇 as shown in the figure, and is bonded to the polarizing plate bonding module 1 The LCD cell of the polarizing plate is released. At this time, the cell release module 4 has a structure in which the plurality of rotating rollers, similar to the cell supply module 2, are horizontally arranged, and when the LCD cells are lying on the upper portion of the rollers and The LCD cells can be moved horizontally as the rollers are rotated.

As described above, the polarizing plate bonding apparatus according to the present invention can adhere the polarizing plate to the upper and lower surfaces of the LCD cell while moving the LCD cell in the horizontal direction. Specifically, since the polarizing plate is simultaneously bonded to both surfaces of the lcD cell (L), the manufacturing time and the bottom area occupied by the manufacturing equipment can be drastically reduced. Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that many variations of the present invention are still in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a polarizing plate bonding apparatus according to an embodiment of the present invention, and FIG. 2 is a view showing a junction of a polarizing plate bonding module according to an embodiment of the present invention.

1275838 is not intended, FIG. 3 is a schematic view showing the structure of a bonding roller according to an embodiment of the present invention; FIG. 4 is a side view showing a polarizing plate supply module according to an embodiment of the present invention; A plan view of a polarizing plate supply module according to an embodiment of the present invention; FIG. 6 is a side view showing a structure of a polarizing plate separating and supplying unit according to an embodiment of the present invention; FIG. 7 is a view showing an embodiment of the present invention according to an embodiment of the present invention; Driving diagram of a polarizing plate separating and supplying roller; FIG. 8 is a driving diagram of an air spraying unit according to an embodiment of the present invention; and FIG. 9 is a schematic view showing a structure of a polarizing plate. [Main component symbol description] 100 Polarizing plate bonding module 110 Bonding roller 112 Polarizing plate adsorption unit 120 Polarizing plate feeding unit 122 Feeding roller 124 Polarizing plate erecting roller 126 Adhesive roller 130 Protective layer peeling unit 132 Peeling roller 134 Adhesive tape circular roller 200 cell supply module 210 cell alignment unit 300 polarizing plate supply module 310 polarizing plate separation supply unit 312 polarizing plate separation supply roller 314 polarizing plate plural to prevent moving baffle 20 1275838 316 polarizing plate plural to prevent movement Roller 320 Polarizing plate raising unit 322 Plate 324 Motor 330 Air spraying unit 340 Polarizing plate cassette supply unit 350 Polarizing plate layer detecting unit 360 Cleaning unit 370 Polarizing plate moving soap element 380 Polarizing plate alignment unit 400 Cell release module L LCD cell P polarizing plate C polarizing plate card

twenty one

Claims (1)

1275838 Picking up, claiming patent range 1 · A device for bonding a polarizing plate, comprising: a polarizing plate bonding module for simultaneously bonding a polarizing plate to supply one of the LCD cells in a horizontal direction and a lower surface surface; a cell supply module is provided in front of the polarizing plate bonding module for supplying a LCD cell horizontally lying on the polarizing plate bonding module; a polarizing plate The supply module is provided on one side of the polarizing plate bonding module, and is configured to respectively supply the polarizing plate to the upper and lower surfaces of the polarizing plate bonding module; and a cell release module, which is provided The LCD cell is released on the back side of the polarizing plate bonding module, wherein the LCD cell is bonded to the polarizing plate by the polarizing plate bonding module. 2. The device of claim 1, wherein the polarizing plate bonding module comprises: 0 a bonding roller, which is composed of an upper bonding roller and a lower bonding roller, When the two cylindrical rollers rotate, the polarizing plate can be adhered to the periphery of the bonding roller, and the polarizing plate is pushed toward the LCD cell while the LCD cell and the polarizing plate are passed through the rollers. Pressing and bonding the polarizing plate; a polarizing plate feeding unit is provided on the back surface of the upper and lower bonding rollers for feeding the polarizing plate so that the polarizing plate is wrapped around the upper and lower sides a protective layer peeling unit adjacent to the bonding roller for stripping a protective layer adhered to the polarizing plate wound on the bonding roller. The device of claim 1, wherein the bonding roller further comprises a polarizing plate adsorption unit for adsorbing the polarizing plate, so that the polarizing plate that is rotated into the periphery can be adhered to The periphery of the bonding roller. 4. The apparatus of claim 3, wherein the polarizing plate adsorption unit comprises: an adsorption hole formed through a thickness direction of one of the periphery of the bonding roller; and an inlet pump for An inner space of one of the bonding rollers is connected to allow air to enter. 5. The device of claim 4, wherein the bonding roller further comprises a pressure supply unit for being respectively connected to the upper bonding roller and the lower bonding roller, and The two rollers push the upper and lower bonding rollers in a direction opposite to each other, and apply a fixed pressure to a contact surface of the upper and lower bonding rollers. 6. The device of claim 5, wherein the polarizing plate feeding unit comprises: a feeding roller 'arranged in an upward direction of the bonding roller and paralleled upward and upward by 23 1275838 The lower and lower rollers are arranged by feeding the polarizing plate to the periphery of the bonding roller by passing the polarizing plate between the upper and lower rollers; and a polarizing plate erecting roller is provided at the feeding a front surface of the drum for erecting the polarizing plate supplied by the polarizing plate supply module on the upper portion at a predetermined interval, and moving the erected polarized light in the direction of the feeding roller board. The apparatus of claim 6, wherein the roller above the feeding roller is movable upward and downward, and when the polarizing plate is supplied by the polarizing plate supply module, it can be upward Move and stand still, and when the supply of the polarizing plate is completed, move down and move the polarizing plate. 8. The device of claim 6, wherein the polarizing plate feeding unit further comprises an adhesive roller for contacting the periphery of the bonding roller to feed the feeding roller. One end of the polarizing plate is adhered to the periphery of the bonding roller. 9. The device of claim 1, wherein the protective layer separation unit comprises: a peeling roller arranged to contact a periphery of the bonding roller for winding around the periphery when rotated An adhesive tape is used to strip the protective film layer; and 24 1275838 a viscous tape circular roller is arranged to be spaced apart from the peeling roller to supply the adhesive tape to the peeling roller or self-peeling The roller collects the adhesive tape. 10. The device of claim 2, wherein the polarizing supply module is provided in the form of a multi-layer polarizing plate supply module, which is laminated upward and downward, and the polarizing plate is supplied to the upper layer. The group can provide the polarizing plate to the upper bonding roller and the polarizing plate supply module in the lower layer can lift the polarizing plate to the lower bonding roller. 11. The device of claim 10, wherein the polarizing supply module comprises: a polarizing plate separating unit for separating a plurality of laminated light plates one by one; and a polarizing plate moving unit The polarizing plate divided and moved by the polarizing plate separating unit is moved to the polarizing plate bonding module. 12. The device of claim 11, wherein the polarizing mobile unit is an adsorptive mobile robot arm for absorbing and fixing the upper surface of one of the polarizing plates and horizontally moving the robot arm. The polarized light is supplied to the polarizing plate bonding module. 13. The device of claim 2, wherein the polarizing upper plate is offset from the plate by the optical plate 25 1275838 The supply module further includes a polarizing plate alignment unit for detecting and aligning the position of the separated polarizing plate. The device of claim 1, wherein the cell supply module further comprises a cell alignment unit for adjusting and aligning the position of the LCD cell and placing the aligned LCD cell in the Bond between the rollers. 26