JP3536651B2 - Substrate bonding apparatus, substrate bonding method, and liquid crystal device manufacturing method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a substrate joining technique, and more particularly to a technique which is effective when applied to an apparatus for precisely aligning two substrates and joining them with a resin or the like. The present invention relates to a technique that is effective for use in an alignment device used in the above process.

[0002]

2. Description of the Related Art Conventionally, in the process of manufacturing a liquid crystal panel, two glass substrates are joined by hardening an ultraviolet-curing resin or a thermosetting resin applied to the periphery at a predetermined minute interval, and bonding them. A technique of manufacturing a liquid crystal panel by enclosing a liquid crystal therein is used.

For example, in a process of an active matrix type liquid crystal display device, pixels each including a pixel electrode and a thin film transistor (hereinafter, referred to as a TFT) are arranged in a matrix on a glass substrate, and the pixel electrode is disposed on a counter substrate. A liquid crystal panel is formed by forming a color filter layer and a counter electrode corresponding to each other and joining them. If the position of each pixel and the color filter layer are shifted, the display quality deteriorates.
It is necessary to precisely align the substrates and fix them with resin.

Therefore, conventionally, a base bonding apparatus having a lower surface plate and an upper surface plate after applying a sealing agent such as an ultraviolet curable resin to a peripheral portion of a glass substrate on the TFT side (hereinafter referred to as a TFT substrate). After the opposing substrate and the TFT substrate are brought close to a few mm and aligned (rough alignment) of about 10 μm, the two substrates are adjusted to 15 to 20 μm.
Up to a few μm (precision alignment)
After that, temporary fixing is performed by irradiating spot-shaped ultraviolet rays onto several places of the applied ultraviolet-curing resin to cure the resin. Then, these substrates are moved onto a glass substrate, covered with a sheet, and the resin is cured by irradiating ultraviolet rays from below the glass substrate while applying a vacuum between the sheet and the substrate and pressing at atmospheric pressure. Thus, the TFT substrate and the opposing substrate are completely joined while maintaining an interval of several μm.

[0005]

In a conventional liquid crystal panel substrate bonding technique for performing precision alignment after performing temporary fixing as described above, the temporary fixing is performed, and then the glass substrate of a vacuuming device in a final step is formed. During the transfer, the two substrates may be displaced due to the viscosity of the sealant, or may be displaced when covered with a sheet and pressed at atmospheric pressure, resulting in a problem that accurate positioning cannot be performed. Was.

SUMMARY OF THE INVENTION An object of the present invention is to provide a substrate bonding technique capable of performing high-precision bonding with a relatively simple apparatus.

Another object of the present invention is to provide a liquid crystal panel having good display quality.

[0008]

A substrate bonding apparatus according to the present invention has a lower platen and an upper platen on which a substrate is placed, and bonds a first substrate and a second substrate via a sealing material. And a frame body provided on the upper surface plate, and supplying air into a space surrounded by the upper surface plate and the frame body, the first substrate and Air press means for applying pressure to the second substrate at the time of bonding, and a through hole provided in the upper platen, and disposed in the space, in a vertical and horizontal direction. And a vacuum suction arm movable in the rotation direction, and the vacuum suction arm
And adjusting means for aligning the second substrate attracted to said first substrate, said vacuum and said through hole
Seal so that air does not leak from between the suction arm
And a light source or heat source disposed below the lower platen for irradiating ultraviolet rays to cure the sealing material. The substrate bonding apparatus according to the present invention is characterized in that a gel-like rubber is adhered to a lower surface of the frame. The substrate bonding apparatus according to the present invention is characterized in that the lower platen is provided with air suction means for sucking the first substrate.

With this structure, the pair of substrates can be irradiated with ultraviolet rays while being pressed, and the sealing material can be cured. Therefore, the liquid crystal device having a uniform cell gap can be easily formed within a short time by controlling the cell pressure between the substrates and securely curing the sealing material.

According to such a manufacturing method, the alignment accuracy can be improved, and a liquid crystal device having no displacement can be obtained.

In addition, the upper and lower platens are arranged in the vertical and horizontal directions (X, Y
Direction) and rotation direction (θ direction) are provided, and the lower platen is provided with air suction means, so that the operability of the upper platen and the stability of the substrate placed on the lower platen Can be secured. Therefore, the alignment system is further improved.

Further, a frame is formed on the upper platen side, and a gel-like rubber is adhered to a lower surface of the frame, so that the frame is shifted laterally by pressing against the substrate. Can be prevented. In addition, it is possible to prevent an excessive pressure from being applied to the substrate or to apply a pressing force non-uniformly, whereby it is possible to obtain a liquid crystal device which is aligned with high precision and has uniform and high-precision intervals. .

The positioning accuracy of the positioning can be improved by providing the upper surface plate with the air suction means as described above.

Further, the substrate bonding method has a lower surface plate and an upper surface plate which can be approached and separated from each other, and the lower surface plate or the upper surface plate is provided with a vertical and horizontal direction (X, Y directions) and a rotation direction (X, Y directions). A substrate bonding method for bonding substrates by a substrate bonding apparatus provided with an adjusting means in the θ direction), comprising: placing a first substrate having a sealing material applied thereon on the lower surface plate; After arranging the substrate facing the first substrate, and positioning the first substrate and the second substrate by bringing the upper surface plate and the lower surface plate closer to each other, A pressure is applied to the second substrate by an air press means arranged on the upper surface plate, and the sealing material is cured by a light source or a heat source which is arranged below the lower surface plate and irradiates ultraviolet rays to the first substrate. Bonding the substrate and the second substrate Extent, and having a city.

According to this bonding method, a pair of substrates can be bonded together and the sealing material can be cured at the same time, and the substrates can be bonded together so that the alignment process is improved. Thus, a liquid crystal device without displacement can be obtained.

A frame having substantially the same shape as the outer shape of the second substrate to be joined is provided on the upper surface plate, and a gel-like rubber is adhered to the lower surface of the frame. By pressing the inside of the frame by the air press means in a state where the liquid crystal device is in contact with the second substrate, it is possible to obtain a liquid crystal device without further displacement.

Further, a step of transferring the second substrate while adsorbing the second substrate by the air adsorbing means formed on the upper platen; and stopping the air adsorbing means to open the second substrate, Lowering the surface plate to dispose the first substrate and the second substrate so as to face each other, and pressing the pair of substrates by the air press means and bonding the pair of substrates by a sealing material. It is also possible to obtain a liquid crystal device excellent in position accuracy.

Further, when a pair of substrates are bonded by such a substrate bonding method, and the respective liquid crystal devices are cut from the mother substrate on which the respective liquid crystal devices are formed, the peripheral portion of the mother substrate and the respective panel portions are cut. By providing a dummy seal pattern formed by applying a sealant to a scribe area between the scribe areas, a plurality of liquid crystal devices having high positional accuracy can be formed at a time.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of a substrate bonding apparatus to which the present invention is applied. As shown in FIG. 1, in this embodiment, a base 32 is provided at the center of a base 31 serving as a base of the apparatus, and a lower surface plate 33 made of quartz glass having a flatness of 2 μm or less is provided on the base 32. It is placed. The lower platen 33 has a plurality of through holes 33a penetrating vertically. A groove 32a communicating with the plurality of through holes 33a is formed on the surface of the base 32, and one end of a pipe from a vacuum pump (not shown) is connected to a part of the groove 32a, so that a vacuum chuck is formed. The substrate 10 placed on the lower platen 33 is configured to be able to be sucked so as not to be shifted laterally.

The substrate 32 is also formed of a glass substrate, and a light source 34 for irradiating ultraviolet rays is disposed below the glass substrate.

A column 35 is provided upright on one side of the base 31, and a horizontal support plate 36 is rotatably mounted on the upper end of the column 35. At the center of the support plate 36, there is provided a table 37 whose position can be adjusted in the X, Y and θ directions, and a cylinder 38 is fixed to the lower surface of the table 37. A pair of vacuum suction arms 39A,
39B is hung. Note that a plurality of vacuum suction arms can be provided.

A guide member 41 for vertically supporting the vertical rod 40 is provided on the distal end side of the support plate 36.
At the lower end of the vertical rod 40, an upper surface plate 42 having a frame 42a protruding downward at the periphery thereof is fixed. An air cylinder 43 moves the upper platen 42 up and down.

In this embodiment, a gel-like rubber body 44 is adhered to the lower surface of the frame 42a.
One end of a pipe 45 from an air pump (not shown) is connected to a part of the upper platen 2a (the upper platen 42 is also acceptable). The upper platen 42 is pushed down by the air cylinder 43 to lower the rubber body 44 to the lower platen 33. When the air pump is operated while being in contact with the substrate 20 placed on the upper
The structure is configured such that the pressure of air in the space surrounded by the frame and the frame body 42a increases to function as an air press that presses the substrate 20 downward.

In FIG. 1, 46A and 46B are sealed so that air does not leak from through holes 42b and 42b formed in the upper platen 42 so that the vacuum suction arms 39A and 39B can pass therethrough. Leak prevention means 47 is a camera used for positioning.

In these configurations, for example, two vacuum suction arms are shown in the drawing, but a plurality of vacuum suction arms may be arranged in addition to the present embodiment, and they may be appropriately set according to the apparatus. You can do it. The same applies to the air leak preventing means and the like.

Next, a specific procedure for forming a liquid crystal panel by bonding the TFT substrate 10 and the counter substrate 20 by the substrate bonding apparatus will be described.

First, by rotating the support plate 36, a work storage unit (not shown) provided on the
Substrate coated with a sealant in advance, or TFT substrate 10
Is sucked by the vacuum suction arms 39A and 39B, transferred to the lower platen 33, and placed. Then, the vacuum chuck provided on the lower platen 33 is operated to hold the TFT substrate 10 firmly on the lower platen 33 so as not to be displaced.

Next, the support plate 36 is rotated again to remove only one opposing substrate 20 from another work storage portion provided on the side of the apparatus, and the vacuum suction arms 39A and 39B.
And is transferred above the lower platen 33. Then, the position of the opposing substrate 20 is adjusted by controlling the table 37 based on the image from the camera 47. In the position adjustment, for example, a rough position adjustment of about several μm is performed. Thereafter, the cylinder 38 is operated to bring the upper platen 42 closer to the lower platen 33 side to bring the opposing substrate 20 into contact with the TFT substrate 10, and the table 37 is again lightly pressurized based on the image from the camera 47. By performing the control, the position of the opposing substrate 20 is shifted to perform the alignment. At this time, the cell gap is controlled to about several μm, and a high-accuracy alignment of about 1 μm is performed.

Thereafter, the vacuum suction arms 39A, 39B
Is stopped and the cylinder 38 is raised, and then the air cylinder 43 is operated to lower the upper platen 42 to bring the rubber body 44 on the lower surface of the frame into contact with the counter substrate 20, and then the air press means is operated. The air in the space surrounded by the upper stool 42 and the frame 42a,
g / cm ^2, preferably about 0.4 kg / cm ² , and applying a power to the light source 34 while pressing the opposing substrate 20 to irradiate the ultraviolet light for about 60 seconds, so that the surface of the TFT substrate 10 The applied sealant is cured.

According to the above-described procedure, the TFT substrate 10 and the counter substrate 20 are accurately joined at a predetermined interval.
In addition, after the upper panel 42 is lifted by the air cylinder 43 and the vacuum chuck on the lower platen 33 side is stopped to open the panel, the vacuum suction arms 39A and 39B are lowered by the cylinder 38 so that the panel is lowered. Is lifted after adsorbing, and by rotating the support plate 36,
It is transferred to and stored in a panel storage unit provided on the side of the apparatus.

When a conventional liquid crystal panel substrate is bonded using a conventional substrate bonding apparatus, the liquid crystal panel generally has a viscosity of 1.3.
Although a sealant of about × 10 ⁵ cp has been used, a relatively low-viscosity sealant of about 3 to 4 × 10 ⁴ cp is desirably used in the apparatus of the above embodiment.

Further, in the substrate bonding apparatus of the embodiment shown in FIG.
A light source 34 for irradiating ultraviolet rays is disposed below the lower surface plate 33 to cure the sealant with ultraviolet light. However, a thermosetting resin is used as the sealant, and an infrared lamp is provided below the lower surface plate 33. Such a heat source may be arranged.

FIG. 2 shows a preferred example of a substrate joined by the substrate joining apparatus. In this embodiment, a plurality of substrates for a liquid crystal panel are formed on one mother substrate, and then cut for each panel. In this embodiment, dummy seal patterns DP1 and DP2 formed by applying a sealant to a scribe area between the peripheral portion of the mother substrate 100 and each panel portion are provided. Accordingly, it is possible to prevent the broken material generated after the TFT substrate 10 for each panel is cut out from the mother substrate 100 from falling apart, and the substrate is bent by its own weight, so that the interval between the substrates becomes uneven. Can be avoided.

In the above description, as an example, the case where the TFT substrate and the opposing substrate constituting the active matrix type liquid crystal panel are joined has been described. However, the substrate joining apparatus of the embodiment shown in FIG. Of course, it can be widely used not only as a liquid crystal panel but also as a device for joining two substrates.

[0036]

As described above, according to the present invention,
There is an effect that the substrates can be joined with high alignment accuracy with a relatively simple device. In addition, by applying the present invention, a liquid crystal panel with high alignment accuracy can be obtained, and as a result, a liquid crystal display device with good display quality can be realized.

[Brief description of the drawings]

FIG. 1 is a front sectional view schematically showing an embodiment of a substrate bonding apparatus to which the present invention is applied.

FIG. 2 is a plan layout diagram showing an example of a preferred substrate in a case where a plurality of substrates for a liquid crystal panel are formed on one mother substrate and thereafter cut for each panel.

[Explanation of symbols]

31 base 32 base 33 Lower surface plate 32a, 33a Vacuum chuck 34 light source 35 props 36 Support plate 37 tables 38 cylinder 39A, 39B Vacuum suction arm 40 vertical rod 41 Guide member 42 Upper surface plate 42a frame 43 Air cylinder 44 Gel rubber 45 Pipes that make up the air press 46A, 46B Air leak prevention means 47 Positioning Camera

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-59-144597 (JP, A) JP-A-7-140040 (JP, A) JP-A-6-337429 (JP, A) JP-A-59-144597 57221 (JP, A) JP-A-7-20478 (JP, A) JP-A-50-148509 (JP, A) JP-A-6-235896 (JP, A) JP-A-6-16436 (JP, A) 6-60831 (JP, U) Registered utility model 3009549 (JP, U) WO 97/048008 (WO, A1) (58) Fields investigated (Int. Cl. ⁷ , DB name) G02F 1/1339 G02F 1/1333 G02F 1/13 C03C 27/06

Claims (3)

(57) [Claims] 1. A substrate bonding apparatus for bonding a first substrate and a second substrate via a sealing material, comprising: a lower platen and an upper platen on which a substrate is placed; A frame provided on the board, air is supplied into a space surrounded by the upper stool and the frame, and a pressure is applied to the second substrate at the time of bonding with the first substrate. Air press means for applying , penetrating through holes provided in the upper platen, disposed in the space , comprising a vacuum suction arm movable in the vertical, horizontal and rotational directions, Suction with the vacuum suction arm
And adjusting means for aligning the second substrate to the first substrate that is, air is leaking from between said vacuum suction arm and the through-hole
A substrate disposed below the lower surface plate, and a light source or a heat source for irradiating ultraviolet rays to cure the sealing material. Joining equipment. 2. The substrate bonding apparatus according to claim 1 , wherein a gel-like rubber is adhered to a lower surface of the frame. 3. claims, characterized in that the air suction means is provided to adsorb the first substrate to the lower plate
Item 3. The substrate bonding apparatus according to item 1 or 2 .