KR200406538Y1 - Apparatus for correcting liquid crystal cell - Google Patents

Abstract

An object of the present invention is to provide a liquid crystal cell calibration apparatus capable of simultaneously correcting a cell gap for a plurality of liquid crystal cells, and further enabling the setting thereof in a short time.

By pressing a pair of transparent substrates through a spacer and injecting liquid crystal into a liquid crystal cell formed by sealing the outer periphery of both transparent substrates, the liquid crystal cell is pressed by pressing both sides of the liquid crystal cell with a pressurized bag into which a heating fluid is introduced. In the liquid crystal cell calibration device to calibrate, the liquid crystal cell holder 3 which holds an outer periphery part so that the movement is prevented for each liquid crystal cell with respect to the several liquid crystal cell 10 arrange | positioned in parallel, and the said parallelism And a pressurized bag holder 2 having a plurality of pressurized bags 6 inserted between the liquid crystal cells arranged so as to be inserted therein, and an air compressor C for introducing pressurized air into the pressurized bags 6. It is done by

Liquid Crystal Cell, Pressurized Bag, Pressurized Bag Holder, Air Compressor

Description

Liquid crystal cell correction apparatus {APPARATUS FOR CORRECTING LIQUID CRYSTAL CELL}

1 is a perspective view showing the configuration of a liquid crystal cell calibration apparatus according to the present invention;

2 is an essential part cross sectional view showing a configuration of a portion for introducing pressurized air into a pressurized bag;

Fig. 3 is a perspective view with some cutouts showing the construction of the pressurized bag.

Fig. 4 is a perspective view showing the groove shape of the liquid crystal cell holder.

Fig. 5 is an equivalent view of Fig. 3 showing a modification of the pressurized bag.

6 is an explanatory diagram showing a configuration of a conventional liquid crystal injection device.

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

1: liquid crystal cell calibration device

2: pressurized bag retainer

3: liquid crystal cell holder

3b, 3c: sidewall

3d: home

6: pressurized pouch

10: liquid crystal cell

The present invention relates to a liquid crystal cell calibration apparatus for correcting a cell gap of a liquid crystal cell in which a liquid crystal is injected.

Conventionally, a liquid crystal display element forms a liquid crystal injection region by arranging a pair of transparent substrates facing each other with spacers therebetween, leaving an injection hole to seal the outer periphery of the transparent substrate, and forming a liquid crystal by a vacuum injection method in the liquid crystal injection region. After injecting, the inlet is sealed.

In detail, in inject | pouring a liquid crystal, the liquid crystal cell is normally carried in in an injection apparatus, this liquid crystal cell is set to a lifting mechanism, and the inside of an injection apparatus is made into a vacuum state. Next, the liquid crystal cell is lowered by the elevating mechanism, and the injection port is immersed in the liquid crystal bath. When the inside of the injection apparatus is returned to atmospheric pressure in this state, the liquid crystal is absorbed into the liquid crystal injection region of the liquid crystal cell that is evacuated. Next, the liquid crystal injection step is completed by sealing the injection port of the liquid crystal cell taken out from the injection device with a sealing agent.

By the way, since it is substantially impossible to control the amount of liquid crystal injected into the liquid crystal injection region, the liquid crystal cell after the liquid crystal injection is deformed in the expanded state thereof. This is because liquid crystal is excessively injected into the liquid crystal injection region. This liquid crystal layer thickness, so-called non-uniformity of the cell gap, leads to poor display quality, and thus correction of the cell gap is required.

As a method of correcting a cell gap, the liquid crystal sealing apparatus of Unexamined-Japanese-Patent No. 2-124525 is known, for example. As shown in FIG. 6, the U-shaped fluid cloth 51 is incorporated in the outer container 50, and the liquid crystal cell 52 is clamped in the gap between the fluid cloth 51. As shown in FIG. Then, the fluid is fed from the fluid transport pump 53 to each fluid cloth 51, and the cell gap is made uniform by pressing both surfaces of the liquid crystal cell 52 with the fluid cloth 51. In the drawing, reference numeral 54 denotes a spacer disposed in the liquid crystal cell 52, reference numeral 55 denotes a liquid crystal bath, and reference numeral 56 denotes an injection hole provided below the liquid crystal cell 52.

However, in the liquid crystal sealing apparatus, since the outer container 50 for receiving the reaction force of the fluid cloth 51 generated when pressing the liquid crystal cell 52 is required, the device for pressing each liquid crystal cell 52 becomes large, There is a drawback that the number of liquid crystal cells 52 which can correct the cell gap at one time is limited.

Moreover, in the manufacturing method of the liquid crystal display element of Unexamined-Japanese-Patent No. 5-203897, an elastic member is clamped between a some liquid crystal cell, without providing said outer container, and it is set as the sandwich structure, and pressurized by the one side Since it is made to pressurize with a member, a cell gap can be corrected with respect to many liquid crystal cells. On the other hand, however, there is a problem that it is difficult to press each of the plurality of liquid crystal cells uniformly, and it takes time for the setting for pressurization.

The present invention has been made in view of the above problems in the conventional liquid crystal injection device, and a liquid crystal cell calibration device capable of simultaneously correcting a cell gap of a plurality of liquid crystal cells and further completing the modification in a short time. To provide.

According to a first aspect of the present invention, the warpage of a liquid crystal cell caused by injecting a liquid crystal into a liquid crystal cell formed by opposing a pair of transparent substrates via a spacer and sealing the outer periphery of both transparent substrates is applied to a pressurized bag into which a pressurized fluid is introduced. A liquid crystal cell calibration device for calibrating by pressing both sides of a liquid crystal cell, comprising: a liquid crystal cell holder for holding an outer periphery to prevent movement of each liquid crystal cell with respect to a plurality of liquid crystal cells arranged in parallel; It is a liquid crystal cell correction apparatus provided with the pressurized bag holding body which arrange | positioned the several pressurized bag inserted between the arrange | positioned liquid crystal cells, and the pressurized gas introducer which introduces pressurized gas into each said pressurized bag.

The second aspect of the present invention is made up of a case member in which the liquid crystal cell holder is capable of receiving a pressurized bag holder, so that the liquid crystal cell is inserted between the pressurized bags when the pressurized bag holder is accommodated in the liquid crystal cell holder. It is the liquid crystal cell correction apparatus comprised.

According to a third aspect of the present invention, a comb-shaped groove is formed on the inner surface of the side wall of the case member so as to face each other, and is configured to prevent movement of the liquid crystal cell by engaging with the horizontal edge of the liquid crystal cell.

The fourth invention of the present invention is a liquid crystal cell calibrating apparatus in which a supporting plate for forming and preserving the pressing bag in a thin plate shape is inserted into the pressing bag.

The fifth invention of the present invention is a liquid crystal cell calibrating device in which the liquid crystal cell holder also serves as a conveyance tray for conveying components between liquid crystal manufacturing processes.

According to the first aspect of the present invention, since a plurality of liquid crystal cells to be corrected for cell gaps are held by a liquid crystal cell holder for each liquid crystal cell, each liquid crystal cell does not move when the liquid crystal cell is pressed, so that the liquid crystal Accurately press both sides of the cell. In addition, since the reaction force when the pressurized gas is introduced into the pressurized bag can be received by the liquid crystal cell holder, a container for holding the pressurized bag becomes unnecessary. Therefore, it becomes possible to arrange | position each liquid crystal cell approaching, and it can correct many liquid crystal cells simultaneously.

When the pressurized gas is introduced into the pressurized bag via the pressurized air introducer, both surfaces of the liquid crystal cell are pressed by the pressurized bag member, the expansion caused by the liquid crystal injection is corrected, and the excess liquid crystal is discharged from the liquid crystal cell. At this time, since each liquid crystal cell is prevented from moving by the liquid crystal cell holding | maintenance group as mentioned above, the liquid crystal cell both surfaces can be pressurized equally for each liquid crystal cell.

According to the second aspect of the present invention, when the pressure bag holder is accommodated in the liquid crystal cell holder configured in the case member, the pressure bag is inserted between each liquid crystal cell. Therefore, the setting work for calibration can be performed in a short time.

According to the third aspect of the present invention, for example, when a liquid crystal cell is inserted into a liquid crystal cell holder in order to correspond to a horizontal corner portion and a comb-shaped groove portion of a liquid crystal cell, for example, a plurality of liquid crystal cells are parallel to each other at a predetermined interval. It is supported by a liquid crystal cell holder. Thereby, the movement of the liquid crystal cell is inhibited.

According to the fourth aspect of the present invention, since the pressing bag is formed and preserved in a thin plate shape, the liquid crystal cell can be easily inserted between the pressing bags.

According to the fifth aspect of the present invention, since the liquid crystal cell holding device also serves as a conveyance tray for parts conveyance, when moving the liquid crystal manufacturing process, for example, when moving from the liquid crystal injection process to the cell gap correction process, or from the cell gap correction process, When moving to the injection hole sealing process, many liquid crystal cells can be moved in the state accommodated in the liquid crystal cell holder.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail based on one Embodiment shown in drawing.

1 shows the configuration of a liquid crystal cell calibration apparatus according to the present invention. The liquid crystal cell according to the present invention is a conventionally known liquid crystal injection region in which a pair of transparent substrates are opposed to each other via spacers, and the outer peripheral portions of both transparent substrates are joined to each other with a sealant, leaving the injection holes. .

In Fig. 1, the liquid crystal cell correcting apparatus 1 is mainly composed of a pressurized bag holder 2 and a liquid crystal cell holder 3 for accommodating the pressurized bag holder 2, and is pressurized. The bag holder 2 is configured to correct the warpage of the liquid crystal cell caused by the injection of the liquid crystal cell in the liquid crystal injection step. Moreover, the curvature of a liquid crystal cell arises when the center part of a liquid crystal cell expands outward by the excessive injection of a liquid crystal.

First, the structure of the pressurized bag holder 2 is demonstrated. The pressurized bag holder 2 has a rectangular ceiling plate 2a, and the side wall 2b of the rectangular shape is parallel from a corner of the width plate (direction perpendicular to the length direction) of the ceiling plate 2a. It is installed vertically and is formed in a door shape as a whole.

A pair of handles 2c, which are held when the pressure bag holder 2 is stored or removed from the liquid crystal cell holder 3, are provided at both ends in the longitudinal direction of the ceiling plate 2a.

Moreover, the screws 4 which can contact the upper edge part 3a of the liquid crystal cell holder 3 are arrange | positioned at each corner part of the ceiling plate 2a, respectively (not shown about a notch part). By rotating the screw 4 in the direction of the arrow A, the storage depth of the pressurized bag 6 housed in the liquid crystal cell holder 3 can be adjusted.

A cover plate 2d is attached to the center portion of the ceiling plate 2a, and an inlet pipe 5a for introducing pressurized air into the pressure bag is connected to the cover plate 2d. Moreover, the conventionally well-known air compressor C which is not shown in figure is connected to this inflow pipe 5a. Moreover, the valve 5b is interposed in the inflow pipe 5a, and pressurized air (pressurized gas) can be introduced into each pressurized bag 6 by opening the valve 5b. Moreover, the inflow pipe 5a, the valve 5b, and the air compressor C function as a pressurized gas introducer.

In addition, a branch pipe 5c is connected to this inflow pipe 5a, and a pressure gauge 5d and a valve 5e are interposed in this branch pipe 5c. The pressure gauge 5d is for checking the pressure of the pressurized air introduced into the pressurized bag 6, and the valve 5e is for discharging the pressurized air introduced into the pressurized bag 6.

A plurality of slit-shaped openings 2e are formed in parallel in the ceiling plate 2a in the range covered by the cover plate 2d, and a window frame sealing material 7 is disposed around the plurality of openings 2e. . Therefore, as shown in Fig. 2, a flat passage 8 equal to the thickness of the sealing material 7 is secured between the cover plate 2d and the ceiling plate 2a, and the flat passage 8 is an inflow pipe. It communicates with (5a). Then, pressurized air is distributedly supplied to each pressurized bag 6 through the inlet pipe 5a, the flat passage 8, and the slit-shaped opening 2e.

In addition, the inlet portions of the two pressurized bags 6 are respectively inserted in the slit-shaped openings 2e, and each pressurized bag 6 is divided by a partition plate 9b coated in a U shape with a rubber sheet 9a. It is partitioned. Reference numeral 9c denotes a rod-shaped spacer made of a circular cross section, and is used to position the attachment interval of the pressure bag 6 in a size that allows the liquid crystal cell 10 to be inserted therein.

3 shows the configuration of each pressurized bag 6. In Fig. 3, the pressure bag 6 is made of urethane rubber having a thickness of 0.5 mm, and is placed in a bag shape so as to cover its surface as a base member with a supporting plate 6a made of an aluminum plate formed in a horizontal length. The circumference | surroundings of the pressure bag 6 are joined by welding.

However, about the convex member 6c formed in the upper part of the said support plate 6a, and inserted in the slit-shaped opening 2e, the upper end surface is exposed, and the pressing bag 6 and the convex member 6c are exposed. The sealing agent 6b is filled in the gap with the.

The convex member 6c is provided with three through holes 6d communicating with the flat passage 8 described above in the longitudinal direction. These through holes 6d communicate with the circular window portion 6e formed below the through hole 6d. Therefore, pressurized air is discharged | emitted into the pressurized bag 6 from this window part 6e. As described above, since the supporting plate 6a is inserted into each of the pressurized pockets 6 to form and preserve the pressurized pockets 6 in a thin plate shape, the liquid crystal cell 10 even if a plurality of pressurized pockets 6 are arranged. It is possible to insert those pressurized pockets 6 very easily in between. Moreover, in this embodiment, the pressurization bag 6 of 35 sheets in total is arrange | positioned. Moreover, as a material of the pressurized bag 6, it is not limited to the urethane rubber mentioned above, and arbitrary materials can be used as long as it is excellent in chemical resistance, heat resistance temperature, and dimensional stability.

In addition, four attachment holes 6h are provided in the upper edge portion 6g of the pressure bag 6.

Returning to Figure 1 will be described.

Pitch forming brackets 2f and 2f (only the front side shown) are arranged in parallel from the longitudinal end of the ceiling plate 2a, and the horizontal edge portion 6f of the pressing bag 6 has its pitch forming bracket 2f. Positioning is carried out by cutting of the comb-tooth type formed in). In addition, four supporting shafts 11 interposed between the side walls 2b are axially passed through the attachment hole 6h provided in the upper edge portion 6g of the pressure bag 6, and the pressure bag 6 is opened. I support it. This pressurized bag holder 2 is accommodated in the liquid crystal cell holder 3 made of resin.

The upper and lower surfaces of the liquid crystal cell holder 3 are open, respectively, and are formed in a square cylinder by opposing side walls 3b, 3b, 3c, and 3c. The upper surface is opened so that the pressure bag holder 2 can be accommodated, and the lower surface is opened to accommodate the pressure bag holder 2 in the liquid crystal cell holder 3. In one state, the inlet of the liquid crystal cell 10 is immersed in a liquid crystal bath (not shown) to make it possible to seal the inlet.

In the liquid crystal cell holder 3, the inner surface of the sidewalls 3c and 3c facing the horizontal edge portion (outer peripheral portion) 6f of the pressing bag 6 is viewed from the top, as shown in FIG. A plurality of grooves 3d having a comb-shaped cross section are formed to face each other, and the horizontal edge portion of the liquid crystal cell 10 is inserted into each of these grooves 3d.

The upper part 3e of the side wall 3c is formed in a mountain shape in order to secure the ease of insertion by reducing the resistance at the time of insertion of the liquid crystal cell, while the liquid crystal cell 10 inserted into the lower part of the groove 3d is a liquid crystal. The bottom part 3f for storing in the cell holder 3 is formed.

In addition, in this embodiment, the liquid crystal cell 10 pressed by the pressure bag 6 means the aggregate of the liquid crystal cell before each liquid crystal cell as a product is cut out, and the rectangle of a horizontal length as a whole is used. It is coming true. The pressurized bag 6 which presses against this liquid crystal cell is also formed in the horizontal length corresponding to the liquid crystal cell, and it is possible to make a pressing force act reliably to the whole liquid crystal cell.

Next, operation | movement of the liquid crystal cell correction apparatus which has the said structure is demonstrated.

First, the liquid crystal cell 10 is sequentially inserted into each groove 3d of the liquid crystal cell holder 3, and the liquid crystal cell 10 is held in parallel in the liquid crystal cell holder 3, for example, 34 sheets are retained. Support

Next, the pressure bag holder 2 is placed above the liquid crystal cell holder 3, and the pressure bag holder 2 is gently lowered to fit within the liquid crystal cell holder 3. Put it in. At this time, all 34 liquid crystal cells 10 are inserted into the gaps of the pressurized bags 6. Then, the fitting of the pressing bag holder 2 is terminated in the state where the lower end of the screw 4 is in contact with the upper edge portion 3a of the liquid crystal cell holder 3.

In this state, the screw 4 is rotated as needed, and height adjustment is performed so that the lower edge of the liquid crystal cell 10 and the lower edge of the pressing bag 6 may coincide.

Next, the valve 5b is opened to introduce pressurized air into each pressurized bag 6 through the inlet pipe 5a. At this time, it is assumed that the valve 5e on the outlet pipe 5c side is closed. When each pressurized bag 6 is expanded by introduction of pressurized air, both surfaces of the liquid crystal cell 10 sandwiched therebetween are pressed.

At this time, since the horizontal edge portion of each liquid crystal cell 10 is gripped by the groove 3d, the position shift of the liquid crystal cell generated when a pressing force is applied from one side of the liquid crystal cell as in the conventional liquid crystal injection device does not occur. Therefore, both surfaces of the liquid crystal cell 10 can be precisely pressed for each liquid crystal cell.

In addition, since pressurized air is used as the fluid to be introduced into the pressurized bag 6, both sides of the liquid crystal cell 10 can be pressed uniformly, and a constant pressing force can be obtained in a short time.

When both surfaces are pressed, the warpage of the liquid crystal cell 10 is corrected, and when the cell gap is adjusted to a predetermined thickness, the valve 5b is closed to open the valve 5e on the outlet pipe 5c side, and the pressurized bag The pressurized air in (6) is discharged | emitted outside. When the pressurized bag 6 is reduced by the discharge of pressurized air, the pressing force of the liquid crystal cell 10 is attenuated, and the pressurized bag holder 2 is pulled upward to be removed from the liquid crystal cell holder 3. have.

In addition, when inserting the pressurized bag holder 2 into the liquid crystal cell holder 3, when the pressurized bag 6 is completely flattened by vacuuming the inside of the pressurized bag 6 in advance, insertion becomes easy. Become.

Moreover, when the said liquid crystal cell holder 3 is comprised so that it may also serve as the conveyance tray which conveys components between liquid-crystal manufacturing processes, without removing the pressurized bag holder 2 after calibration of a liquid crystal cell is complete | finished. It can be conveyed by the injection port sealing process as it is. Specifically, in order to improve the quality of the liquid crystal cell, after injecting the liquid crystal into the liquid crystal cell, the injection hole must be sealed quickly so that impurities and the like are not mixed from the injection hole. Therefore, when the liquid crystal cell holder 3 is configured to serve as a conveyance tray, not only can the liquid crystal cell be calibrated for a short time but also the liquid crystal cell is stored in the liquid crystal cell holder 3 continuously. Since the injection port can be sealed, there is an advantage that the quality of the liquid crystal cell can be improved.

5 shows a modification of the pressure bag 6 described above.

The pressure bag 20 shown in FIG. 5 differs from the pressure bag 6 shown in FIG. 3 in that it completely covers the window frame support plate 20a.

And as a introducer which introduces pressurized air into a bag, the tubule 20b whose outer diameter is 1 mm or more and 2 mm or less is provided. In detail, the convex member 20c is formed in the upper part of the support plate 20a, and the said tubule 20b is communicating with the circular window part 20d formed in this convex member 20c.

When the pressurized bag 20 is comprised in this way, except for the part joined via the tubule 20b, the support plate 20a can be completely covered and the circumference | surroundings of the pressurized bag 20 can be sealed by heat welding. Thereby, manufacture of the pressure bag 20 becomes simple, and sealing of the pressure bag 20 can be performed more reliably. Reference numeral 20e denotes an attachment hole through which the support shaft 11 passes through the shaft.

In addition, when providing the tubule 20b, it is preferable to ensure the empty space in the cover plate 2d of the pressurized bag holder 2 so that the front-end | tip part of the tubule 20b may not interfere.

In addition, in the said embodiment, although the structure which mounts one pressurized bag holder 2 is attached to one liquid crystal cell holder 3, For example, when a liquid crystal bath is large enough, the liquid crystal cell holding | maintenance is shown. For example, a plurality of groups 3 may be connected in the width direction so as to accommodate the plurality of pressurized bag holders 2.

In addition, the liquid crystal cell calibration device of the present invention can be widely applied, for example, from calibration of small size liquid crystal cells for mobile phones to calibration of liquid crystal cells for liquid crystal televisions.

As apparent from the above description, according to the present invention of Claim 1, the outer periphery of each of the liquid crystal cells is configured to be held by the liquid crystal cell holder for the plurality of liquid crystal cells to be corrected for the cell gap. Both sides of the liquid crystal cell can be accurately pressed in a state where the liquid crystal cell is fixed. In addition, since the reaction force when the pressurized gas is introduced into the pressurized bag can be received by the liquid crystal cell holder, a container for holding the pressurized bag becomes unnecessary. Therefore, it becomes possible to arrange | position each liquid crystal cell approaching, and it can correct many liquid crystal cells simultaneously.

According to the present invention of claim 2, the pressure bag can be inserted between each liquid crystal cell by accommodating the pressure bag holder in the liquid crystal cell holder composed of the case member. Therefore, the setting work for calibration can be performed in a short time.

According to the present invention of claim 3, when the liquid crystal cells are sequentially inserted into the liquid crystal cell retainer by aligning the horizontal corner portions and the comb-shaped groove portions of the liquid crystal cell, for example, the plurality of liquid crystal cells are parallel to each other at a predetermined interval. It can support a liquid crystal cell holder.

According to the present invention of claim 4, since the pressure bag is formed and preserved in a thin plate shape, the liquid crystal cell can be easily inserted between the pressure bags.

According to the present invention of claim 5, since the liquid crystal cell holder also serves as a conveyance tray for parts conveyance, when moving the liquid crystal manufacturing process, for example, when moving from the liquid crystal injection process to the cell gap correction process, or from the cell gap correction process, When moving to the injection hole sealing process, many liquid crystal cells can be moved in the state accommodated in the liquid crystal cell holder.

Claims (5)

By pressing a pair of transparent substrates through a spacer and injecting liquid crystal into a liquid crystal cell formed by sealing the outer peripheries of both transparent substrates, the liquid crystal cell is pressed by pressing both sides of the liquid crystal cell with a pressurized bag into which a pressurized fluid is introduced. In the liquid crystal cell calibration device to calibrate, A liquid crystal cell holder for holding an outer periphery so as to prevent movement of each liquid crystal cell with respect to a plurality of liquid crystal cells arranged in parallel; A pressurized bag holder having a plurality of pressurized bags inserted between the liquid crystal cells arranged in parallel; And a gas introducer for introducing pressurized gas into each pressurized bag. The liquid crystal cell holder according to claim 1, wherein the liquid crystal cell holder comprises a case member capable of receiving the pressurized bag holder, and the liquid crystal cell is inserted between the pressurized bags when the pressurized bag holder is housed in the liquid crystal cell holder. And a liquid crystal cell calibration apparatus, which is configured to be. The liquid crystal cell according to claim 1, wherein a comb-shaped groove is formed on the inner surface of the side wall of the case member so as to be opposed to each other, and is configured to prevent movement of the liquid crystal cell by engaging with a horizontal edge of the liquid crystal cell. Calibration device. The liquid crystal cell calibration apparatus according to claim 1, wherein a supporting plate for forming and preserving the pressure bag in a thin plate shape is inserted in the pressure bag. The liquid crystal cell calibration device according to claim 1, wherein said liquid crystal cell holder also serves as a conveyance tray for conveying components between liquid crystal manufacturing processes.

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