TW201235110A - Apparatus for gathering liquid crystal or removing bubbles in liquid crystal tank selectively, apparatus for gathering liquid crystal in liquid crystal tank, and apparatus for removing bubbles in liquid crystal tank - Google Patents

Abstract

Disclosed herein is an apparatus for gathering liquid crystal or removing bubbles in a liquid crystal tank selectively. The apparatus includes an air supply unit. A first direction control unit has a first outlet and a second outlet, the air supply unit connected to the first direction control unit. A second tube has one end part connected to the first outlet of the first direction control unit and the other end part inserted to a first LC tank. A third tube has one end part connected to the second outlet of the first direction control unit. A fourth tube has one end part connected to the third tube in such a way as to branch from the third tube and the other end part inserted into a third LC tank. A vacuum generator is connected to the third tube and the fourth tube. When the first direction control unit is operated in a first mode that the air supply unit supplies pressure to the second tube, liquid crystal in the first LC tank is gathered through a first connection tube to a second LC tank, and when the first direction control unit is operated in a second mode that the air supply unit supplies pressure to the third tube, a vacuum is generated in the fourth tube by the vacuum generator to remove bubbles in liquid crystal contained in the third LC tank.

Description

201235110 VI. Description of the Invention: Field of the Invention The present invention relates to a device for selectively collecting liquid crystals in a liquid crystal cell or removing bubbles, a device for collecting liquid crystals in a liquid crystal cell, and a device for removing bubbles in the liquid crystal cell. [Prior Art] Fig. 1 is a side view schematically showing a liquid crystal coater and a liquid crystal supply system. As shown in Fig. 1, the liquid crystal coater is mounted at a predetermined position and covered by a mask frame. The liquid crystal supply system is mounted outside the cover frame CF. The liquid crystal coating machine comprises a main frame 1〇〇, a pallet 200 mounted on the main frame, a first guiding unit G1 coupled to the main frame 1〇〇 and placed on both sides of the pallet 2, and coupled to the first a coating head unit support frame 400 of a guiding unit G1, a first driving unit (not shown) for moving the coating head unit supporting frame 4, and a second guide provided on the coating head unit supporting frame 400 The guiding unit G2, the plurality of coating head units 5〇〇 coupled to the second guiding unit G2, and a second driving unit (not shown) for moving the coating head unit 500. Each of the coating head units 5A includes a support assembly 510 that is coupled to the second guiding unit G2. The liquid crystal bottle support plate 520 is coupled to the support assembly 51 〇 ^the liquid crystal bottle 53 插入 is inserted into the liquid crystal bottle support plate 520. The cap 540 is coupled to the mouth of the liquid crystal bottle 53 to close the inlet of the liquid crystal bottle 530. A nozzle unit 55 is provided at a lower portion of the support assembly 51A. Further, the nozzle connecting tube 560 is coupled to the cap 54 () and passes through the cap 201235110 540, thereby feeding liquid crystal from the liquid crystal bottle 530 to the nozzle unit "ο β cap 540 has an injection passage n. The nozzle unit 550 includes a nozzle 551. The liquid crystal supply system includes a liquid crystal cell 62〇 mounted on the bottom plate 610, a pressure supply unit 630 for supplying pressure to the liquid crystal cell 620, a connecting pipe 640 connecting the liquid crystal cell 62〇 and the pressure supply unit 630, and a side wall of the cover frame CF. The liquid crystal injection unit 700 passing through the side wall, the tube member 650 connecting the liquid crystal cell 620 and the liquid crystal injection unit 700, and the valve member 8 provided to the tube member 65. The valve member 800 controls the flow of the liquid crystal into the tube member 650. The liquid crystal supply system operates as follows: The substrate is placed on the pallet of the liquid crystal coating machine. The first driving unit and the second driving unit move the coating drunk element from the initial position to the liquid crystal coating position. The single % and the second driving unit respectively move according to the tilt data = when each coating head unit moves, a predetermined amount of liquid crystal is applied to the substrate through the nozzle 551 of the coating head as early as 5 GG. If the liquid crystal bottle 530 is The amount of liquid crystal contained is such that the nozzle 551 of the program k SO0 that has passed through the coating head i & plate is applied to the substrate, and then the coating head unit 5_ moves to the position where the liquid crystal is supplied 201235110. After the head unit 500 is moved to the liquid crystal supply position, the liquid crystal supply system supplies the liquid crystal to the liquid crystal bottle 53 of the coating head unit 500. The operation of the liquid helium supply system for supplying the liquid crystal to the liquid crystal bottles 530 of the respective coating head units 500 is as follows First, the tube support tube 71 of the liquid crystal injection unit 700 is moved forward to be inserted into the injection channel H of the cap 540 of the liquid crystal bottle 530. One end of the tube 650 is inserted into the tube support tube 710. In order to allow the liquid crystal flow stored in the liquid crystal cell 620 The pipe member 65 is opened, the valve member 800' is opened, and the pressure supply unit 63 is supplied with pressure into the liquid crystal cell 62. The pressure supplied to the liquid crystal cell 620 passes through the pipe member 65 and the cap 54/main inlet port. The liquid crystal stored in the liquid crystal cell 62 is supplied to the liquid crystal bottle. If the liquid crystal amount supplied to the liquid crystal bottle 530 reaches a predetermined level, the pressure supply unit 630 stops supplying the pressure to the liquid crystal cell 620, and closes the valve member 8. Then, the liquid crystal storage tube 65 储存 stored in the liquid crystal cell 62 is stopped from being supplied to the liquid crystal bottle 530. The tube support tube 710 of the liquid crystal injection unit 700 is moved backward to be removed from the injection path η of the bottle cap 540. When the operation of the liquid crystal bottle 53A of each of the coating head units 5 is completed, the coating head unit 500 is moved to the liquid crystal coating position. The liquid crystal remaining in the liquid crystal cell 62 of the liquid crystal supply system 201235110 is detected by the sensor. If the detected amount is less than the preset amount, the liquid crystal cell 620 is replaced with a new liquid crystal cell filled with liquid crystal. When the amount of liquid crystal remaining in the liquid crystal cell 620 is less than a predetermined amount, it is possible to supply air bubbles to the liquid crystal bottle 53. The liquid crystal remaining in the liquid crystal cell 620 is discarded. Therefore, expensive liquid crystals are wasted. Meanwhile, if bubbles are formed in the liquid crystal provided in the liquid crystal supply system and filled with the liquid crystal cell of the liquid crystal, bubbles may be introduced into the liquid crystal bottle 530 when the liquid crystal in the liquid crystal cell is supplied to the liquid crystal cell. SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the problems occurring in the prior art, and the object of the present invention is to provide a difficulty in that, in addition to removing bubbles from the liquid crystal cell, the liquid crystal can be repelled (four) liquid crystal to # — in the ship crystal trough. In order to achieve the above object, the present invention provides a device for selectively collecting liquid crystal two liquids: 曰: or removing air bubbles, comprising: an air supply unit, a first-direction j unit, having a first-out σ and a second outlet, air supply The unit is connected to the -^ control unit, and the second tube 'has the end-to-end control unit: the first-outlet and the other-end-inserted liquid-cell slot and the third tube have an end-direction control unit The second * port, the fourth tube, has - liquid ° noisy, the official branch from the third tube and the other end is inserted into the third. ^ a generator, connecting the third tube and the fourth tube, wherein The first square lion collects the liquid crystal in the first liquid crystal cell of the second tube of the second phase of the lining through the first connecting pipe to collect the second liquid sump' and when the first directional control unit operates on the air supply iiLi 201235110 In the second mode of S, the vacuum is generated in the fourth and middle layers; to remove the bubbles in the liquid crystal contained in the third liquid crystal cell. s The pressure regulator can be mounted to the second tube. The filter assembly can be mounted to the second tube. Direction Control Unit The flow regulator can be mounted to the third tube and located between the first and the vacuum generator. Between the burners = the damper can be installed to the third tube, and the storage container and the vacuum tube are installed in the second liquid crystal tank at the it:: the second end can be replaced, and the second end can be further The invention provides that: the air supply unit, the second unit, and the first and first connecting tubes of the second tube are connected to the first supply early supply pressure to the second to second liquid crystal cells. a device for collecting liquid crystal in a liquid crystal cell, the first end of the second tube is connected to the air supply end and detachably inserted into the first liquid crystal cell, and the liquid crystal cell and the second liquid crystal cell, wherein when the air tube is The liquid crystal collection in the first liquid crystal cell is further provided by the present invention. In view of removing the crack of the bubble of the liquid crystal cell, 201235110 includes: an air supply unit, a third tube, and the first end of the third tube is connected to the air supply unit a fourth tube having one end connected to the third tube and branched from the third tube' and the other end inserted into the liquid crystal cell, and a vacuum generator connecting the third tube and the fourth tube, and generating a vacuum in the fourth tube To remove bubbles from the liquid crystal contained in the liquid crystal sample. An advantage of the present invention is that the liquid crystal remaining in the liquid crystal cell can be collected into another liquid crystal cell, and the collected liquid crystal can be supplied from the liquid crystal supply system to the liquid crystal bottle of the liquid crystal coater, thereby avoiding wasting expensive liquid crystal. Further, the present invention has an advantage in that bubbles in the liquid crystal of the liquid crystal cell can be removed before the liquid crystal cell filled with the liquid crystal is mounted to the liquid crystal supply system, thereby preventing bubbles from flowing into the liquid crystal bottle when the liquid crystal is supplied to the liquid crystal bottle. [Embodiment] Hereinafter, a device for selectively collecting liquid crystal or removing bubbles in a liquid crystal cell, a device for collecting a liquid ejector, and a device for removing bubbles in a liquid crystal cell are implemented according to the present invention. . Fig. 2 is a perspective view showing a device for selectively collecting liquid crystals in a liquid crystal cell or removing (d) according to an embodiment of the present invention. Figure = = The official map for the selective collection of liquid crystals in the cell or removal of bubbles. By 曰4 Ming... Wengzhi from the invention for the selective collection of liquid 曰曰 in the liquid crystal cell or to remove Μ 置 包含 包含 包含 包含 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 _ tube 1G - direction control unit 201235110 V2, second tube 2 连接 connected to the first direction control unit V2, pressure regulator R installed to the technology 20, connected to the first direction control unit V2 =, 30, connection The fourth tube 4 branched from the third tube 30 and the vacuum generator p connecting the third tube 30 and the fourth tube 40 are flowed by the air flowing through the tube 30. A vacuum is generated in the fourth tube 40. Day 2 These components are mounted to the inside and outside of the housing HS.

The first tube 10, the second tube 20, the third tube 30, and the fourth tube are made of a metal material or a non-metal material. That is, the first tube, the first burning second officer, and the fourth tube 40 may each be made of a non-elastic or elastic material.

The first tube 10 is detachably coupled to a compressed air supply unit (not shown) for detachably connecting the tube connected to the compressed air supply unit. The S on/off unit VI controls the flow of the compressed air to the first tube 10 so that the compressed air does not flow into or into the first tube 10. The preferred on/off unit is an on/off valve. If the on/off unit VI is on, the compressed air flows into the first ^ίο. Conversely, if the on/off unit V1 is off, the compressed air will not be the second tube 10. The first direction control unit V2 controls the direction of the compressed air flowing through the first tube 10 so that the compressed air flows into the second tube 2 or the third tube 3''. Preferably, the first direction control unit V2 is a three-way valve. One end of the first tube 1 is connected to the first direction control unit V2' and the - end of each of the second tube 2G and the third tube 3G is connected to the first direction control unit V2. In addition to regulating the pressure, the pressure regulator R is also used to keep the pressure flowing through the second tube 201235110 20 constant. The device assembly is preferably mounted to the second tube 20. The filter assembly includes a first filter F1' located between the first direction control unit v2 and the pressure regulator r, the first pass, the F2 is located between the first transition and the pressure regulator & The filter is placed next to the pressure regulator. The first filter F1 removes impurities from the compressed air flowing through the second tube 2G. The second transition ^ F2 removes moisture from the compressed air ^ Third pass _ F3 removes fine impurities from the compressed air flowing through the first-passer F1 and the second pass-through F2 ^ ° Figure 4 shows the vacuum generator An example of p. As shown in the figure, the vacuum generates two = so that the inner diameter gradually decreases from the end to the middle portion, and the receiver is formed from the middle portion _ fixed length, and the new portion is gradually formed in the vacuum generator P. The middle part is open from the outer surface = its inner periphery. The third tube 3G is connected to each of the four official 40 insertion face holes i at the opposite ends of the vacuum generator p. If compressed air flows into the vacuum generator p, the flow rate of the middle portion of 3 ft has an increase and the pressure is lowered to cause a vacuum to be generated in the fourth tube 40. The end of the fourth tube 40 is detachably inserted into the liquid crystal tank c. Positioning? It is preferably installed to the third tube 3〇. The flow regulator SC > adjusts the flow rate of the compressed air flowing through the third pipe 30 between the first direction control unit V2 and the vacuum generator p. If the flow of the third pipe 30 flows through the third pipe 30 every time, the flow of the third contraction is increased, and the machine fan that flows through the third compression mill increases. The flow regulator sc regulates the flow of compressed air to the direct flow generator P. The benefit of SC is to flow to the true 201235110. Preferably, each unit B is stored to collect exhaust gas. The exhaust pipe is broadcasted into the storage device B. b and =5 (iv) The third tube 30' is located in the storage container. Between 15 Ρ. The fourth county device F4 is preferably detachably inserted into the first liquid crystal cell C1 at the end of the moisture removal connection, and the first first 曰 ci ci' is connected to the second liquid crystal cell C1 and the second liquid crystal cell C2 ° a liquid trough having a liquid crystal in the bottom and a liquid crystal trough in the bottom is a first liquid crystal tank C1. The first liquid connecting tube 5 is detachably inserted at one end and is detachably inserted into the second liquid crystal at the other end. Slot C2. Residual liquid crystal cell C2. The liquid crystal in 曰曰"1 is moved through the first connecting pipe 5〇 to the second two connected=passer F4; in the vacuum generator P and the fourth third port, the second direction control unit is connected - square ^ a 5 60 is connected to the second direction control unit V3. Brother - direction 姊 早 元 V3 is a three-level. The other end of the second connecting pipe 6〇 of the flat pipe 30 may be exposed to the atmosphere without being connected to the third 12 201235110. Meanwhile, as shown in Fig. 5, a plurality of branch pipes 9A may be connected to the first end. The following description provides an example of two branches f 9G. The γ type is connected to the end of the second tube 2G, and the branch tube 9G is connected to the Υ type fitting 8〇. Two branch pipes 90 are connected to the two first liquid crystal cells C1, respectively. First, the two first connection pipes of the two first liquid crystal cells Cle are connected to the second liquid crystal cells C2. In this case, the liquid crystal remaining in the two first crystal grooves ci can be simultaneously collected in the second liquid crystal cell C2. Furthermore, the plurality of branch pipes can be connected to the end of the fourth pipe. If a liquid crystal cell filled with liquid crystal is branched, bubbles can be simultaneously removed from the plurality of liquid crystal cells. In the following, we describe the operation of the device that implements the operation of selecting a liquid crystal or removing bubbles. (4) In the next day, the first description describes the operation of collecting the liquid crystal remaining in the liquid crystal cell to another liquid. The liquid crystal cell in which the liquid crystal remains is designated as the first liquid crystal cell C1, and the liquid crystal cell of the liquid crystal remaining in the liquid crystal is designated as the second liquid crystal. One end of the first & 20 is inserted into the first liquid crystal cell C1. One end is inserted into the first liquid crystal birch. , ^, "This (7) $ press & 50 篦 1 heart: the other end of the slot first connecting tube 50 is inserted!: isa = the connecting tube 50 is inserted into the first liquid crystal cell C to make the complex tf. The second end of the second connecting pipe (6) is inserted into the second twinning unit V2 so that the first pipe 1Q and the second pipe 2 are connected to the second pipe 3G when the second pipe 3G is connected to the third pipe 3G. The control 70 V3 is controlled such that the second connecting pipe 60 is connected to the storage container B. 13 201235110 The opening/closing unit vi is opened, allowing compressed air to flow through the first pipe 1 to reach the second pipe 20. When the second pipe 2G is compressed When the air passes through the first filter (four) and the second pass, the F2 removes impurities and moisture from the compressed air. Further, when the compressed air passes the pressure to adjust the HR, the compressed air is maintained at the preset pressure. When the compressed air passes the pressure regulation When H r reaches the third biter F3, the minute impurities contained in the compressed air are removed. Then, the compressed air is introduced into the first liquid crystal cell ci, thereby pressurizing the liquid crystal remaining in the first liquid crystal cell C1. When the liquid crystal remaining in the first liquid crystal cell C1 is pressurized, the residual liquid crystal flows through the first connection tube 50 to reach the second liquid crystal. The tank C2 introduces the liquid crystal remaining in the first liquid crystal cell ci into the second liquid crystal cell C2, and the gas in the second liquid crystal cell C2 flows through the second connecting pipe 6G into the storage container B. The gas flowing through the storage container B passes through the exhaust gas. The tube 70 is discharged to the outside. If all the remaining liquid crystals in the first liquid crystal cell C1 are moved to the second liquid crystal cell C2', the on/off unit v is operated to thereby turn off the flow of the compressed air to the first tube. C2 has been filled with a preset amount of liquid crystal, and then it is installed in the liquid crystal supply system to supply the liquid crystal to the liquid crystal bottle. When it is necessary to remove the air bubbles filled in the liquid crystal cell c of the liquid crystal supply system 'Controlling the first direction control unit V2 such that the first 10 and the third tube 3G are in communication, and the second direction control unit v: communicating the second officer 30 with the storage container B. Further, the fourth tube 4 Disassemblingly inserting the liquid crystal cell c filled with the liquid crystal. Here, the finger is inserted so that the end of the fourth tube 40 of the 201235110 is not immersed in the liquid crystal cell c. The closing unit V1 is turned on, so that the compressed air flows through the first One tube 1 〇 to p day = three tubes 30. When flowing through the first tube 3 The compressed air passes through the vacuum generator: a vacuum is generated in the fourth tube 40 and the liquid crystal cell C. When the liquid crystal cell C is vacuumed, the bubbles formed in the liquid crystal move upward to the surface of the liquid crystal, thereby breaking. The air bubbles in the liquid crystal are removed. When the bubble is moved along the fourth tube 40, the bubble is separated from the compressed air by the liquid crystal of the liquid crystal cell C, and the air is discharged through the exhaust pipe 7 . When the flow rate of the compressed air flowing through the vacuum generator ρ is adjusted by the flow regulator SC attached to the j-th tube 3, the vacuum pressure of the liquid crystal cell c is adjusted. If the bubble is removed from the inside of the liquid crystal cell C , turn off the on/off unit VI. Figure 6 is a piping diagram showing an apparatus for collecting liquid crystal in a liquid crystal cell according to an embodiment of the present invention. As shown in FIG. 6, the apparatus for collecting liquid crystal in a liquid crystal cell according to an embodiment of the present invention includes a second tube 20 that is connected to a compressed air supply unit (not shown) at one end and detachably inserted into the first liquid crystal cell C1 at the other end. The opening/closing unit Vb of the second tube 20 and the first connecting tube 50 connecting the first liquid crystal cell C1 and the second liquid crystal cell C2 are provided. The second tube 20 is detachably coupled to the compressed air supply unit. Further, the second tube 20 may be detachably connected to the tube connected to the compressed air supply unit. Preferably, the pressure regulator II is mounted to the second tube 20 and positioned between the opening/closing unit VI and the first liquid crystal cell C1. 15 201235110 The filter assembly is preferably mounted to the second tube 20. The filter assembly includes a filter F1' positioned in the on/off unit VI and the pressure regulator 玟^3, the second filter F2 is positioned in the first filter F1 and the pressure regulator R, and the third filter F3 Positioned next to the pressure regulator R. The first fisher is beaten to remove impurities from the compressed air flowing through the second tube 20. The second filter ϊΓ 2 removes moisture from the compressed air. The third filter F3 removes fine impurities from the compressed air flowing through the first filter and the two filters F2. The second connecting pipe 60 is detachably inserted into the second liquid crystal cell C2 to discharge the gas in the second liquid crystal cell C2 from the inside to the outside. The operation for collecting liquid crystals in a liquid crystal cell according to an embodiment of the present invention is described. < The first liquid crystal cell C1 is a liquid crystal cell having liquid crystal remaining, and the second C2 is a liquid crystal cell for collecting liquid crystal. The first connecting member 50 is inserted into the first liquid crystal cell, and the end face of the first connecting pipe 5 is immersed in the residual liquid crystal. Turning the on/off single t1 to VI on causes the compressed air to flow into the second tube 2''. After the waves, the air passes through the first transition device F1 and the second. : 2 Reduce air to remove impurities and moisture. Furthermore, when the compressed output compressed air is maintained at a preset pressure. When the two Rs in the waste S reach the third transition device F3, the minute impurities H in the compression disorder are removed. Therefore, the pressure remains in the first liquid crystal cell C2; the collapse air 201235110 - even = When the liquid crystal in the liquid crystal cell C1 is in the sth, the remaining liquid crystal flows through the first connection & 5G to reach the second liquid crystal cell C2. When the liquid crystal remaining in the first liquid crystal cell C1 flows into the second liquid, the gas in the first liquid crystal cell C2 flows through the second connecting pipe 60 to reach the outside. When a predetermined amount of liquid crystal has been collected into the liquid tank C2, it is installed in a city supply system to supply liquid crystal to the liquid crystal bottle. = time ' As shown in Fig. 5, a plurality of branch pipes 9 〇 can be provided for the case of two branch pipes 90. The upper end of the upper-tube 20 and the branch tube 9 are connected to the two first liquids, respectively, and the two first liquid crystal cells C1 are respectively connected. The liquid crystal in the liquid pipe C1 of the first connecting pipe can be simultaneously collected into the second liquid crystal cell C2. The air bubble is removed in the liquid crystal cell according to the present invention. As shown in FIG. 7, it is used according to the embodiment of the present invention. The compressed air supply unit is connected to one end of the transfer (the fourth tube 4〇 of the tube-branch is not shown, and the vacuum tube 17 201235110 tube 30 and the fourth tube 40 are generated and a vacuum is generated by the fourth tube 40. The flowing air flow rate is preferably installed between the first flow controller P and the opening/closing unit V1. The S 30 is clamped in the vacuum production fourth filter F4 is preferably installed to the first Three tubes 3 〇, and located at the side of the vacuum generator P, the exhaust unit 70 is detachably inserted into the storage capacity number b. The operation of the fourth tube 40 of the apparatus for removing the liquid crystal bubbles is carried out according to the present invention. Removably inserting liquid C filled with liquid crystal. At this time, the end of the fourth tube 40 cannot be turned on with the liquid in the liquid crystal cell, and the opening/closing unit VI is turned on, so that the compressed air flows into the first place. When the compressed air flowing into the third pipe 3G passes through the vacuum generator p, a vacuum is generated in the four tubes 40 and the liquid crystal cells C. When the bubble formed in the liquid crystal cell c-axis portion is formed in the liquid crystal to the liquid crystal surface, the air bubbles in the liquid crystal are removed. When the liquid is moved from the liquid crystal cell c to the fourth tube 40, the air bubble is combined with the compressed air. The air is discharged through the exhaust pipe 7〇 through .201235110 B. When the flow space flowing through the vacuum generator p is adjusted by the flow regulator SC attached to the third pipe 3, the vacuum of the liquid crystal cell C is adjusted. If the pressure is removed from the inside of the liquid crystal cell C, the on/off unit V1 is turned off. Meanwhile, if the plurality of branch pipes are connected to one end of the fourth tube 40, and the branch pipes are respectively inserted into the plurality of liquid crystals filled with the liquid crystal In the case of the tank C, bubbles can be simultaneously removed from the plurality of liquid crystal cells C. After the bubbles are removed from the liquid crystal cells C, the liquid crystal cells c are mounted to the liquid crystal supply system. As described above, the present invention provides a device in which The liquid crystal remaining in the liquid crystal cell is collected into another liquid crystal cell, and the collected liquid crystal can be supplied from the liquid crystal supply system to the liquid crystal bottle of the liquid crystal coater, thereby avoiding wasting expensive liquid crystal. Further, the present invention provides a device In the liquid crystal cell filled with the liquid crystal before the liquid crystal supply system is installed, the bubbles in the liquid crystal of the liquid crystal cell are removed, thereby preventing bubbles from flowing into the liquid crystal bottle when the liquid crystal is supplied to the liquid crystal bottle. [Simple description] BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from A perspective view of an apparatus for selectively collecting liquid crystals or removing bubbles in a liquid crystal cell according to an embodiment of the present invention; FIG. 3 is a view showing selective collection of liquid crystals in a liquid crystal cell or removal of bubbles according to an embodiment of the present invention. FIG. 4 is a view showing a vacuum generator included in a device for liquid crystal or removing bubbles according to an embodiment of the present invention, and a vacuum generator. FIG. a piping diagram of a second tube of a liquid crystal or a bubble removing device in a liquid crystal cell; FIG. 6 is a view showing a tube for a device according to an embodiment of the present invention and "a liquid crystal in FIG. The piping diagram f shows the implementation of the invention according to the present invention. The bubble in the liquid crystal cell is removed. [Main component symbol description] 1 surface connection hole 10 first tube 20 second tube 30 third tube 40 fourth tube 50 first connection tube 60 second connection pipe 70 exhaust pipe 80 Y-type fitting 90 branch pipe 100 main frame 200 pallet 201235110 400 coating head unit support frame 500 coating head unit 510 support assembly 520 liquid crystal bottle support plate 530 liquid crystal bottle 540 cap 550 Nozzle unit 551 nozzle 560 nozzle connection tube 610 bottom plate 620 liquid crystal tank 630 pressure supply unit 640 connection tube 650 pipe member 700 liquid crystal injection unit 710 pipe support tube 800 valve member B storage container C liquid crystal cell C1 first liquid crystal cell C2 second liquid crystal cell CF Cover F1 First filter F2 Second filter F3 Third filter 21 201235110 F4 Fourth filter G1 First guiding unit G2 Second guiding unit 注入 Injection channel HS housing 真空 Vacuum generator R Pressure regulator SC flow regulator VI on/off unit V2 first direction control unit V3 second direction control unit 22

Claims (1)

201235110 VII. Patent application scope: 1. A device with selective residual crystal liquid crystal or air bubble, including an air supply unit; the first f-direction control material, having a -first-outlet and a second exit , the empty milk supply, 7 〇 connected to the first direction control unit; the third element of the clear: the third tube 'has the end of the first-direction directional control of the first - ίβ mouth, out and has - end The third tube is connected from the third tube and the other tube is inserted into a third liquid crystal cell; the vacuum generator is connected to the third tube and the fourth tube, and the first tube is collected through the first tube. When the liquid crystal force in the second liquid crystal cell reaches c to a single % operation in the air supply unit supply pressure mode, the vacuum generator is used to bubble the liquid crystal cell contained in the fourth * the second liquid crystal cell. ======Liquid 4. The apparatus for selectively collecting liquid crystal 2012 20121010 or removing bubbles as described in claim 3, wherein the filter assembly comprises: 〇 a first filter, Located between the first direction control unit and the pressure regulator 'the first filter removes impurities from the compressed air; the first filter is located between the first filter and the pressure regulator' The device removes moisture from the compressed air; and a first filter is located adjacent the pressure regulator, the third filter again removing impurities from the compressed air. 5. A device for selecting a liquid droplet in a liquid crystal cell as described in the first item of the patent system, wherein a flow regulator is disposed between the third tube, the first direction control unit and the vacuum generator. The end of the tube to collect the exhaust gas. Removably _ the third i or the third of the selectively collected liquid crystal cell is secreted from the third tube of the storage volume, 8曰 as described in the scope of claim J, or removed, The method further includes: a liquid trough in the liquid crystal trough; the second connecting tube has an end portion detachably connected to the second liquid crystal to the second direction control unit, the other end portion, and a second inlet connection The third tube and the second end of the second connecting tube; 24 .201235110 storage container, connected to one of the outlets of the second direction control unit, to control the I cut f - direction unit operates in the first mode The second squarer 70 is configured to cause the gas in the second liquid crystal cell to flow into the storage volume. When the first direction control unit operates on the second mold side; the Ϊ is operated to make the third liquid crystal cell The bubble containing the liquid crystal flows into the device for selectively removing liquid bubbles in the liquid crystal cell according to item 8 of the patent scope, wherein the fourth device is mounted to the third tube; the second direction control unit and the Between storage containers. 1 曰〇. For example, please select the device for selectively collecting liquid in the liquid crystal tank or removing bubbles, wherein a plurality of branch pipes are connected to one end of the second tube and the second tube The plurality of branching tubes are connected to each other by a first connecting tube, and the first liquid crystal tanks are connected to the second liquid crystal tank by a first connecting tube. 11. A device for collecting liquid crystal in a liquid crystal cell, comprising: an air supply unit; a second official, the first end of the second tube is connected to the air supply unit, and the second end of the first tube is detachable Inserting a liquid crystal cell; and a first connecting tube connecting the first liquid crystal cell and a second liquid crystal cell, wherein when the air supply unit supplies pressure to the second tube, the first liquid crystal cell is The liquid crystal is collected into the second liquid crystal cell. 12. The apparatus for collecting liquid crystals in the liquid crystal cell according to the scope of claim 5, wherein a pressure regulator is disposed to the second tube, and is located in the air supply unit and the first liquid crystal tank. between. 13. The liquid crystal cell in the collection liquid crystal cell of claim n, wherein a filter component is attached to the second tube. 14. A device for removing air bubbles in a liquid crystal cell, comprising: an air supply unit; - a third ^' the third tube - the first end is connected to the air supply unit; - the fourth tube is - Connecting the third tube, and discharging from the third port, and inserting the other end into the liquid crystal cell; and a knife-vacuum generator connecting the third tube and the fourth tube to generate a vacuum to remove the The gas of the liquid crystal contained in the liquid crystal shot is as described in claim 14. The flow regulator is installed in the third tube, and the generator is installed in the air. Between supply units. Wandering in the vacuum 26