KR20060118214A - Carrier for polarizing film - Google Patents

Abstract

A polarizing film carrier is provided to promptly and securely hold and transfer a small-sized polarizing film to a working location while the flatness of the polarizing film is maintained. A polarizing film carrier(100) is composed of a first grip(110), a second grip(120), a third grip(130), and a fourth grip(140). A first width controller(150) is installed at the second grip, and moves the second grip toward the first grip for alignment according to size of the polarizing film. A second width controller(160) is installed at the third and fourth grips, and moves the third grip and the fourth grip to face each other. A first tension controller is installed at the second grip, and controls the flatness of the polarizing film when the polarizing film is held by the polarizing film carrier. A second tension controller(133) is installed at the third grip.

Description

Polarizer Film Carrier {Carrier for Polarizing Film}

1 is a perspective view of a polarizing film carrier according to the present invention.

Figure 2 is an exploded perspective view of the polarizing film carrier shown in FIG.

Figure 3 is an exploded perspective view of the first grip portion and the second width adjustment portion shown in FIG.

Figure 4 is an exploded perspective view of the second grip portion shown in FIG.

5 is an exploded perspective view of the third grip part shown in FIG.

6 is an exploded perspective view of the second gripper shown in FIG.

FIG. 7 is a side view of the second upper and lower grip members shown in FIG. 6; FIG.

 <Explanation of symbols for the main parts of the drawings>

1: baseframe 10: first gripper

11: first gripping pneumatic cylinder 12: first moving member

13: first roller 14: first inclined member

15: first hinge member 16: first upper grip member

17: first lower grip member 20: second gripper

21: second gripping pneumatic cylinder 22: link member

23: clamp 24: second inclined member

26: second upper grip member 27: second lower grip member

110: first grip part 120: second grip part

130: third grip portion 140: fourth grip portion

150: first width control unit 160: second width control unit

The present invention relates to a polarizing film carrier, and more particularly, to a carrier that can be gripped and transported while maintaining flatness at each work position when inspecting a small polarizing film applied to a small LCD.

There are various kinds of polarizing film applied to LCD (Liquid Crystal Display) such as iodine-based, dye-based, phase difference, semi-transmissive and reflective type. Among them, iodine-based polarizing film is a polarizing film for high-definition LCD with high transmittance and high polarization characteristics. Iodine is applied to a transparent polyvinyl alcohol (PVA) film to absorb light in the visible region.

The schematic structure of the polarizing film is configured by sequentially stacking a TAC (Tri-Acetyl-Cellulose) film, an adhesive, a polarizing element, an adhesive, and a TAC film. A roller or the like is used to manufacture a polarizing film having such a configuration, and during the manufacturing of the polarizing film by the roller, fine scratches may be generated in the polarizing film by the frictional force of the roller, and fine in the PVA film layer. Kuniku may occur due to deformation or damage. As such, when an error such as a Kunic or a scratch occurs in the polarizing film, a fatal defect that causes stains on the screen may be generated when driving the LCD screen.

The polarizing film inspection apparatus is applied to inspect the defect of the polarizing film which may cause a fatal defect on the LCD screen. The polarizing film inspection apparatus is separated into an inspection work position for inspecting a foreign matter or air bubbles or the like, which are included in the polarizing film, or an inspection work position for inspecting a defect of the Kunic. In the case of transporting a small polarizing film applied to a small screen LCD such as 17 inches or 19 inches to each inspection working position of the polarizing film inspection apparatus, the flatness of the polarizing film is maintained at each inspection working position. There is a need for a carrier that can be transported.

An object of the present invention is to solve the above-mentioned problems, a polarizing film that can be transported in the state of maintaining the flatness of the polarizing film to each inspection working position when inspecting whether the small polarizing film defects using the polarizing film inspection apparatus In providing a carrier.

Another object of the present invention is to provide a polarizing film carrier which can safely transport the polarizing film to each inspection working position of the polarizing film inspection apparatus while maintaining the flatness, and can function as an inspection stage of the polarizing film at each inspection working position. In providing.

The polarizing film carrier of the present invention includes a first grip part fixedly installed at one side of the base frame, a second grip part installed at the other side of the base frame, and installed at the front end of the base frame. The third grip part and the fourth grip part installed at the rear end of the base frame, and the first width adjusting part for moving the second grip part to the first grip part side for the alignment according to the size of the polarizing film, the second grip part And a second width adjusting part installed at one side of the third and fourth grip parts to move the third and fourth grip parts forward and backward in a direction facing each other, and adjust the flatness of the polarizing film when the polarizing film is gripped. The first tension adjusting unit is installed in the second grip part, and the second tension adjusting part is provided in the third grip part, respectively.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a polarizing film carrier according to the present invention, Figure 2 is a separate assembly perspective view of the polarizing film carrier shown in Figure 1, Figure 3 is a separate assembly of the first grip portion and the second width control shown in Figure 2 Perspective view.

As shown, the polarizing film carrier of the present invention includes a first grip part 110 fixedly installed at one side of the base frame 1, a second grip part 120 installed at the other side of the base frame 1, and a base frame. The third grip part 130 is installed at the front end of the (1) and the fourth grip part 140 is installed on the rear end of the base frame (1), the second for alignment according to the size of the polarizing film (7) The first width adjusting part 150 is installed in the second grip part 120 to move the grip part 120 forward and backward toward the first grip part 110, and faces the third and fourth grip parts 130 and 140, respectively. The second width adjusting unit 160 for moving forward and backward in the direction is installed on one side of the third and fourth grip parts 130 and 140, and when the polarizing film 7 is gripped to adjust the flatness of the polarizing film 7. The first tension control unit 121 is provided on the second grip unit 120 and the second tension control unit 133 is provided on the third grip unit 130, respectively.

Referring to the configuration of the polarizing film carrier 100 of the present invention in more detail with reference to the accompanying drawings as follows.

As shown in FIGS. 1 and 2, the polarizing film carrier 100 of the present invention may hold the polarizing film 7 and then adjust tension to adjust flatness of the polarizing film 7. The grip parts 110, 120, 130, and 140 are provided, and the first and second width adjusting parts for aligning the first to fourth grip parts 110, 120, 130, and 140 to the polarizing film 7 before gripping and adjusting the flatness of the polarizing film 7 ( 150, 160 are installed. 2 is a view of the polarizing film carrier 100 shown in FIG.

First, when the polarizing film 8 is changed to a larger polarizing film 7 or conversely, when the polarizing film 7 is replaced with a smaller polarizing film 8, the second to fourth grip parts 120, 130, and 140 are operated manually by an operator. The first width adjusting unit 150 and the second width adjusting unit 160 for aligning by moving in the direction of the arrow "a1, a2, a3" are as follows.

The first width adjusting part 150 is installed on the second grip part 120 to move the second grip part 120 forward and backward toward the first grip part 110. As shown in FIGS. 1, 2, and 4, the first width adjusting unit 150 installed in the second grip unit 120 includes a first width adjusting moving plate 151 and a plurality of first locking members. And 152. FIG. 4 is a view of the second grip part 120 illustrated in FIG. 2 as viewed from the arrow “B” direction.

The first width adjustment unit 150 is the first width adjustment moving plate 151 is installed so that both ends are guided to the sliding guide member (not shown) installed in the base frame 1, both sides in the longitudinal direction The long hole 151a is formed, and the first locking member 152 is provided at the long hole 151a, respectively. In order for the operator to manually align the second grip part 120 to the polarizing film 7 by using the first width adjusting part 150 having such a configuration, first, the first width adjusting moving plate 151 and the second grip part The 120 is guided to the first sliding guide member 122 and moved to the polarizing film 7 side. When the second grip part 120 is moved and aligned to the polarizing film 7, the first locking member 152 is locked to the first width adjusting guide member 151 to fix the width of the second grip part 120. You are done.

As such, the first locking member 152 for locking the first width adjusting movement plate 151 after aligning the second grip part 120 to the polarizing film 7 has a locking knob 152a and locking. It consists of a block (152b). The locking knob 152a is installed in combination with the locking block 152b in a state of being inserted into the long hole 151a formed in the first width adjusting movement plate 151. In this state, the locking knob 152a rotates the locking knob 152a. The block 152b is locked to the first width adjustment moving plate 151 to complete the width adjustment operation of the second grip part 120. When the second grip part 120 is aligned with the polarizing film 7, the third and fourth grip parts 130 and 140 are moved forward and backward in opposite directions to each other to align the polarizing film 7. To this end, the second width adjusting part 160 is installed at one side of the third and fourth grip parts 130 and 140.

As shown in FIGS. 2 and 3, the second width adjusting unit 160 includes first and second rack gears 161 and 162, pinions 163 and second locking members 164. It consists of.

The first and second rack gears 161 and 162 are installed on one side of the first and second moving plates 132 and 142 so as to move along the plurality of second and third sliding guide members 131 and 141, respectively. The 163 is installed between the first and second rack gears 161 and 162 and is rotated by the movement of the rack gears 161 and 162 of the first and second rack gears 161 and 162 so that the first and second rack gears 161 and 162 are rotated. ) Is moved forward and backward, respectively, to adjust the distance between the third and fourth grip parts 161 and 162 installed on the first and second moving plates 132 and 142, respectively.

For example, when the worker moves the first moving plate 132 along the first sliding guide member 131, the first rack gear 161 is moved by this movement. As the pinion 163 is rotated by the movement of the first rack gear 161, as the pinion 163 is rotated, the second rack gear 162 engaged with and coupled to the pinion 163 is moved. The second moving plate 142 is moved by the second moving plate 142 and the third grip part 130 and the fourth grip part 140 are moved in a direction facing each other or away from each other.

When the distance between the third and fourth grip parts 130 and 140 is adjusted by the first and second rack gears 161 and 162 and the pinion 163 to align the polarizing film 7, the operator may move the second locking member 164. And lock the first and second moving plates 131 and 141 moving along the first and second sliding guide members 131 and 141. To this end, a plurality of second locking members 164 are provided and installed on the first and second sliding guide members 131 and 141, respectively, and include a locking knob 164a and a locking clamp 164b. When the operator rotates the locking knob 164a constituting the second locking member 164, the locking clamp 164b comes into close contact with the first and second sliding guide members 131 and 141, respectively, so that the first and second moving plates 131 and 141 are rotated. ) And the third and fourth grip portions 130 and 140 are aligned with the front and rear ends of the polarizing film 7, respectively.

When the first to fourth grip parts 110, 120, 130 and 140 are aligned by the first and second width adjusting parts 150 and 160 according to the size of the polarizing film 7, the first to fourth grip parts 110, 120, 130 and 140 are respectively polarized film 7. ).

As shown in FIGS. 2 and 3, the first grip part 110 for holding one side of the polarizing film 7 includes a first lower grip member in which the extension member 111 and the extension member 111 are integrally formed. It is composed of a first gripper 10 is provided with (17), it is fixed to one side of the base frame 1 so as to be a reference when the polarizing film 7 is aligned to hold one side of the polarizing film (7).

The second grip part 120 is installed in the opposite direction of the first grip part 110 holding the one side of the polarizing film 7 to grip the other side of the polarizing film 7, and the second grip part 120 2 and 4 is installed on the other side of the base frame 1 when the polarizing film 7 is gripped is the first tension control unit 121 for adjusting the flatness of the polarizing film (7) It is provided and provided, the first gripper 10 and a plurality of first sliding guide member 122 is provided.

The plurality of first sliding guide members 122 provided on the second grip part 120 are fixedly installed on the base frame 1, respectively, and include a support member 122a, an LM guide (Linear Motion guide) 122b, and an LM block. It is composed of a block (122c) and the fixing member (122d) to guide the first gripper 10 when the second grip portion 120 adjusts the tension of the polarizing film (7).

The support member 122a is fixedly installed on the base frame 1 to guide the first gripper 10 installed on the second grip part 120, and the LM block 122c is fixed inside the support member 122a. The LM guide 122a is fastened to the LM block 122c, and the fixing member 122d fixed to one end of the LM guide 122a includes the first gripper 10 of the second grip part 120. Are installed on the first lower grip members 17 respectively installed on the lower grip member 17 to guide the first gripper 10.

 When the first gripper 10 installed to be movable along the first sliding guide member 122 grips the polarizing film 7, the tension of the polarizing film 7 is adjusted by the first tension adjusting unit 121. Adjust the flatness. The first tension adjusting unit 121 for adjusting the flatness of the polarizing film 7 may include a plurality of first sliding guide members when the first gripper 10 grips the polarizing film 7. 122 to move forward / backward to adjust the flatness of the polarizing film 7 and a more detailed description will be described with the second tension control unit 133.

The first gripper 10 installed in the first and second grip parts 110 and 120 holding the one side and the other side of the polarizing film 7 whose flatness is adjusted by the first tension adjusting part 121 is shown in FIG. 4. As shown, the first grip pneumatic cylinder 11, the first moving member 12, the first hinge member 15, the first upper grip member 16 and the first lower grip member 17, respectively. .

When the first lower grip member 17 is installed on the first gripper 10 provided in the first grip part 110, an extension member 111 (shown in FIG. 3) is integrally formed and the second grip part 120 is provided. When the fixing member 122d of the first sliding guide member 122 is installed when the first gripper 10 is installed at the first gripper 10, the fixing member 122d is engaged with the first upper grip member 16 to grip the polarizing film 7. The act of doing the same is configured.

The first inclined member 14 which engages with the first lower grip member 17 having the above configuration and grips the polarizing film 7 provides the inclined surface 14a on one side thereof. Is installed, the plurality of first hinge member 15 is composed of a support member (15a), a hinge (hinge) (15b) and a spring (15c), respectively, is installed on one side of the first upper grip member (16) do. A first roller 13 is installed on the inclined surface 14a of the first inclined member 14 provided on the first upper grip member 16 so as to be movable along the inclined surface 14a. 13 is configured to be installed on one side of the first moving member 12, the first holding pneumatic cylinder 11 is configured on one side of the first moving member 12, the first moving member 12 is configured.

The first holding pneumatic cylinder 11 installed at one side of the first moving member 12 generates a driving force for moving the first moving member 12 forward and backward, and the first moving member 12 is driven by this driving. The first roller 13 is moved along the inclined surface 14a of the first inclined member 14 by being moved. When the first roller 13 is moved in the forward / reverse direction along the inclined surface 14a, the first upper grip member 16 is rotated at a predetermined angle with respect to the plurality of first hinge members 15, and thus, the first lower side. The grip member 17 is engaged or released to grip the polarizing film 7.

As the first upper grip member 16 pivots about the first hinge member 15 about its central axis, the first gripper 10 is engaged with the first lower grip member 17 to grip the polarizing film 7, respectively. Next, the configuration of the third and fourth grip parts 130 and 140 holding the front side and the other side of the polarizing film 7 after the first and second grip parts 110 and 120 will be described in detail.

The third grip unit 130 is installed at the front end of the base frame 1, the second gripper 20, a plurality of first sliding guide member 131, the first movable plate 132 and the second tension adjusting unit ( 133).

As shown in FIGS. 2 and 3, the plurality of first sliding guide members 131 are fixedly installed at both sides of the base frame 1, and the first moving plate 132 includes a plurality of first sliding guide members ( 131 is installed to be guided and moved, and the second gripper 20 is fixed to the first moving plate 132 that is guided and moved by the plurality of first sliding guide members 131 to grip the polarizing film 7. Configured to do so. When the second gripper 20 installed on the first moving plate 132 grips the polarizing film 7, the second gripper 20 controls the tension to adjust the flatness of the polarizing film 7 to the second moving plate 132. The tension adjusting unit 133 is installed. Here, the second tension control unit 133 is installed on the first moving plate 132 of the third grip unit 130 and the second gripper 20 when the polarizing film 7 is gripped by the second gripper 20. The flatness of the polarizing film 7 is adjusted by moving forward and backward.

As shown in FIG. 2, the fourth grip part 140 installed in a direction facing the third grip part 130 provided with the second tension adjusting part 133 to adjust the flatness of the polarizing film 7 is shown. It is installed on the rear end of the base frame (1) to hold the polarizing film (7), it is composed of a second gripper 20, a plurality of second sliding guide member 141, the second moving plate 142. Here, the plurality of second sliding guide members 141 are fixedly installed at both sides of the base frame 1, and the second moving plate 142 is installed to be guided and moved to the plurality of second sliding guide members 141. In addition, the second gripper 20 is fixedly installed on the second moving plate 142 to hold the polarizing film 7.

As shown in FIG. 6, the second gripper 20 fixed to the second moving plate 142 or installed on the first moving plate 132 to hold the polarizing film 7 may have a second holding pressure. A cylinder 21, a link member 22, a plurality of clamps 23, a second inclined member 24, a plurality of second upper grip members 26, and a plurality of second lower grip members 27. . FIG. 6 is a view of the second gripper 20 shown in FIG. 2 as viewed in the direction of arrow "C".

The plurality of clamps 23 constituting the second gripper 20 are installed with the second inclined member 24 providing the inclined surface 24a coupled to the inner side by a hinge 23d, and the second inclined member 24 provided therein. The upper side and the inner upper surface of the first elastic member (23a) is connected and installed, the other side is configured to be connected to the fixing member (23c) and the second elastic member (23b). The second roller 22a is provided in the inclined surface 24a of the 2nd inclination member 24 provided by the hinge 23d inside the some clamp 23, and this 2nd roller 22a is It is provided at both ends of the link member 22, and the second holding pneumatic cylinder 21 is provided on the bottom of the link member 22.

When the driving force is generated by the second holding pneumatic cylinder 21 provided on the bottom surface of the link member 22, the link members are provided at the both ends of the second roller 22a which moves along the inclined surface 24a by this driving. The plurality of second upper grip members 26 fixedly installed on one side of the second inclined member 23 by the second roller 22a by moving the 22 forward and backward are shown at a predetermined distance n1: FIG. 7. By the movement, the plurality of second upper grip members 26 are engaged with or released from the plurality of second lower grip members 27 to grip the polarizing film 7.

When the plurality of second upper grip members 26 included in the second gripper 20 are engaged with or released from the plurality of second lower grip members 27 to grip the polarizing film 7, FIGS. 3 and 4. By adjusting the tension of the polarizing film 7 by the first and second tension adjusting unit 121, 133 shown in the to adjust the flatness.

The first tension adjusting unit 121, which adjusts the flatness by adjusting the tension of the polarizing film 7, adjusts the tension in the long side direction of the polarizing film 7, and adjusts the tension in the long side direction of the polarizing film 7. As shown in FIG. 4, the first tension control pneumatic cylinder 121a, the first tension control moving member 121b, and the first tension control connecting member 121c are provided.

The first tension control pneumatic cylinder 121a generates a driving force for moving the first tension control moving member 121b forward and backward, and by this driving, the first tension control moving member 121b moves in the forward / reverse direction. By moving, the first tension control connecting member 121c moves in a forward / reverse direction. The first tension control connecting member 121c is installed at the first lower grip member 17 of the second grip part 120 so that the first gripper 10 is driven by the first tension control pneumatic cylinder 121a. It is installed to adjust the flatness by adjusting the tension of the polarizing film 7 is moved forward / backward along the first sliding guide member 122 is gripped by the first gripper (10).

The flatness is adjusted in the long side direction of the polarizing film 7 and the flatness is adjusted in the short side direction of the polarizing film 7. Here, when adjusting the tension in the long side or short side direction of the polarizing film 7, the flatness in the long side direction can be adjusted simultaneously with the flatness in the short side direction, and the flatness in the short side direction after adjusting the flatness in the long side direction. It can be implemented as a control device (not shown) for controlling the polarizing film carrier 100 (shown in Figure 2) to adjust the.

As shown in FIG. 3, the second tension adjusting unit 133 for adjusting the flatness by adjusting the tension in the short side direction of the polarizing film 7 includes a plurality of second tension adjusting pneumatic cylinders 133a and a plurality of second tension adjusting units. The two tension control moving member 133b includes a second tension control moving plate 133e and a plurality of second tension control guide members 133f.

The plurality of second tension control pneumatic cylinders (133a) are respectively installed on one side of the second tension control moving member (133b) to generate a driving force for forwarding / reversing the plurality of second tension control moving members (133b). The plurality of second tension control moving members 133b are installed to move by driving. The plurality of second tension control moving members 133b are installed on the second tension control moving plates 133e and are moved when the second tension control moving members 133b are moved by the driving of the second tension control pneumatic cylinder 133a. The second tension control moving member 133b is guided to the plurality of second tension control guide members 133f and installed to move forward and backward.

The second tension adjustment guide member 133f for guiding the second tension adjustment movement plate 133e is fixedly installed on the first movement plate 132 such that the second tension adjustment movement plate 133e is provided with a plurality of second tension adjustment. The polarizing film is guided during the forward / backward movement by the pneumatic cylinder 133a, and the second gripper 20 is simultaneously moved forward / backward while the second tension control movement plate 133e is forward / backward movement. The second lower grip member 27 of the second gripper 20 is fixedly installed or integrally formed on the second tension control moving plate 133e to adjust flatness by adjusting the tension of 7).

Here, the guide rod 133c and the spring 133d, which are not described, are installed in the second tension control moving member 133b and installed to guide when the second tension control moving member 133b moves, and also FIGS. 1 and 2. A solenoid valve assembly 5, which is illustrated in FIG. 6 but is not described, is installed on the upper side of the base frame 1. And one side and the other side of the base frame 1 when the polarizing film carrier 100 moves to each inspection work position of the polarizing film inspection device (not shown) fixed to each inspection work position or external utility (polarity) Hooking member (4) or pneumatic coupler (3) is provided respectively for supplying to the 100, the bottom surface transfer of the polarizing film inspection device during the movement of the polarizing film carrier (100): A plurality of moving blocks 2 for guiding) are installed.

Referring to the operation of the polarizing film carrier 100 of the present invention configured as described above are as follows.

First, when the polarizing film 8 shown in FIG. 1 is mounted on the polarizing film carrier 100 and changed to a polarizing film 7 larger than the polarizing film 8, the operator may adjust the first and second width adjusting parts ( The alignment is performed by manually moving the second to fourth grip parts 120, 130, and 140 in the directions of arrows a1, a2, and a3 using the 150 and 160.

For example, when the polarizing film carrier 100 of the present invention is replaced with a polarizing film 7 larger than the polarizing film 8, first, the operator uses the first width control unit 150, the base frame (1) The second grip part 120 is moved forward / backward based on the first grip part 110 fixedly installed at the second grip part 110, and the second grip part 110 is aligned with one side of the polarizing film 7, and the second width adjusting part 160 is disposed. The third and fourth grip parts 130 and 140 are moved forward / backward in a direction facing each other by using) to align the third and fourth grip parts 130 and 140 to the polarizing film 7.

When the operator arranges the second to fourth grip parts 120, 130, and 140 to match the changed polarizing film 7 by using the first and second width adjusting parts 150 and 160, a control device for controlling the polarizing film carrier 100 ( (Not shown) automatically controls the first and second grippers 10 and 20 provided in the first to fourth grip parts 110, 120, 130, and 140, respectively, to hold the polarizing film 7. By controlling the second tension adjusting unit (121,133) to adjust the flatness of the long side and short side direction of the polarizing film (7).

Second to fourth grip (120 130 140), and controlling the flatness of a polarizing film (7) to within + 0.5mm when controlled by, as shown in Figure 7 the first gripper (10: shown in Figure 4) and the The first and second upper grip members 16 and 26 and the first and second lower grip members 17 and 27 respectively provided in the second gripper 20 (shown in FIG. 6) are engaged with each other to form the polarizing film 7. The first and second upper grip members 16 and 26 may grip the polarizing film 7 while protruding a predetermined distance n1 from the first and second lower grip members 17 and 27. The predetermined distance n1 of the first and second upper grip members 16 and 26 may protrude within 0 to 0.5 mm to grip the polarizing film 7.

An interval n2 between the first and second upper grip members 16 and 26 and the first and second lower grip members 17 and 27 when the first and second lower grip members 17 and 27 grips the polarizing film 7 is an edge of the polarizing film 7. Grip 2.0 to 2.5mm from the edge to minimize the loss of the polarizing film (7) and to grip the maximum possible range to prevent the polarizing film (7) from bending. In addition, the first and second upper grip members 16 and 26 and the first and second lower grip members 17, in order to minimize the loss due to the grip of the first gripper 10 and the second gripper 20, are minimized. 27) is applied to the surface with either matte white rubber material or matte white plastic material to increase the friction force so that it can be gripped safely.

As such, when inspecting whether the small polarizing film is defective by using the polarizing film inspection device, it can be safely and quickly transferred to each inspection working position after holding the polarizing film on the polarizing film carrier while maintaining the flatness of the polarizing film. By the inspection stage function of the polarizing film at the inspection work position it is possible to improve the productivity of the inspection work of the polarizing film.

As described above, the polarizing film carrier of the present invention can be safely and quickly transported to each inspection work position after holding the flatness of the polarizing film on the polarizing film carrier when inspecting whether the small polarizing film is defective. In addition, the inspection stage function of the polarizing film at each inspection working position provides an advantage of improving the productivity of the inspection work of the polarizing film.

Claims (11)

A first grip part fixed to one side of the base frame; A second grip part installed on the other side of the base frame; A third grip part installed at a front end of the base frame; Consists of the fourth grip portion installed on the rear end of the base frame, In order to align the second grip part to the first grip part side for alignment according to the size of the polarizing film, a first width adjusting part is installed on the second grip part, and the third and fourth grip parts face each other. The second width adjusting part for moving forward and backward is installed on one side of the third and fourth grip parts, and when the polarizing film is gripped, the first tension adjusting part for adjusting the flatness of the polarizing film is installed on the second grip part. A polarizing film carrier, characterized in that the second tension control unit is provided in each of the third grip. The method of claim 1, wherein the first grip portion and the extension member fixed to the base frame; And a first gripper having a first lower grip member integrally formed with the extension member. According to claim 1, The second grip portion A plurality of first sliding guide member fixed to the base frame; A first gripper installed to move along the plurality of first sliding guide members and holding the polarizing film; When the first gripper grips the polarizing film, the first gripper is provided as a first tension control unit for adjusting the flatness of the polarizing film by moving forward and backward along the plurality of first sliding guide member Film carrier. 4. The gripper according to claim 2 or 3, wherein the first gripper comprises: a first lower grip member; A first upper grip member provided with a first inclined member providing an inclined surface on one side thereof; A plurality of first hinge members installed on one side of the first upper grip member; A first moving member installed at one side of a first roller installed to be movable along the inclined surface of the first inclined member; Consists of the first holding pneumatic cylinder for moving the first moving member forward / backward, The first roller is moved along the inclined surface of the first inclined member by moving the first moving member by the driving of the first gripping pneumatic cylinder, and the first upper grip member moves by the first plurality of grip members. A polarizing film carrier, which rotates at a predetermined angle around a hinge member and engages or disengages with a first lower grip member to hold the polarizing film. According to claim 1 or 3, wherein the first tension control unit and the first tension control connecting member is installed on the first grip portion; A first tension control moving member installed at one side of the first tension control connecting member; Consists of the first tension control pneumatic cylinder for moving the first tension control moving member forward / backward, When the first gripper of the second grip portion grips the polarizing film, the first gripper is moved in the forward / reverse direction along the plurality of first sliding guide members to adjust the flatness of the polarizing film. carrier. According to claim 1 or claim 3, The first width adjustment portion is installed on the base frame and the first width adjustment moving plate is formed in each of the long holes on both sides; When the second grip portion is moved forward / rearward toward the first grip portion side along the plurality of first sliding guide members and the width is adjusted, the second grip portion is inserted into the long hole to lock the first width adjusting movement plate. Polarizing film carrier, characterized in that provided with a locking member. According to claim 1, wherein the third grip portion A plurality of first sliding guide member fixedly installed on both sides of the base frame; A first moving plate installed to be guided and moved by the plurality of first sliding guide members; A second gripper installed on the first moving plate to hold a polarizing film; And a second tension control unit installed on the second gripper and configured to adjust the flatness of the polarizing film by moving the second gripper forward and backward when the polarizing film is gripped by the second gripper. The method of claim 7, wherein the second tension control unit and the second tension control moving plate which is installed to be guided and moved to each of the second tension control guide member installed on the first moving plate; A plurality of second tension control moving members installed on one side of the second tension control moving plate; It is installed in the plurality of second tension control moving member is composed of a plurality of second tension control pneumatic cylinder for forward / backward, respectively, And a second gripper of the third grip part grips the polarizing film to move the second gripper in a forward / reverse direction to adjust the flatness of the polarizing film. According to claim 1, wherein the fourth grip portion and a plurality of second sliding guide member fixedly installed on both sides of the base frame; A second moving plate installed to be guided and moved by the plurality of second sliding guide members; The polarizing film carrier, characterized in that provided with a second gripper fixed to the second moving plate to hold the polarizing film. 10. The method of claim 1, wherein the second width adjusting portion on the one side of the first moving plate and the second moving plate so as to move along the plurality of second and third sliding guide members, respectively. First and second rack gears installed; Installed between the first and second rack gears, the first and second rack gears are moved forward and backward, respectively, by the movement of any one of the first and second rack gears, and thus between the third and fourth grip parts. Consists of a pinion that is rotated to adjust the distance of, Locking the first and second rack gears when a distance between the first and second rack gears and the pinion is adjusted by the plurality of second and third sliding guide members. 2. A polarizing film carrier, characterized in that the locking member is installed on the plurality of second and third sliding guide members. 10. The apparatus of claim 7 or 9, wherein the second gripper comprises: a plurality of second lower grip members; A second inclined member providing an inclined surface is installed in a hinge coupled to the inner side, the upper side and the inner upper surface of the second inclined member is connected to the first elastic member is installed, and the other side is connected to the fixing member and the second elastic member A plurality of clamps each installed; Link members provided at both ends of second rollers respectively provided on the inclined surfaces of the second inclined members; It is composed of a second holding pneumatic cylinder which is installed on the bottom surface of the link member, The second roller moving along the inclined surface by the driving of the second gripping pneumatic cylinder is moved to the forward and backward link members respectively installed on both sides end is fixed to one side of the second inclined member by the second roller Move the plurality of second upper grip members by a predetermined distance, and the plurality of second upper grip members and the plurality of second lower grip members are engaged with or released from each other to grip the polarizing film. Polarizing film carrier.

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