TWI330729B - Liquid crystal injection method and liquid crystal tray thereof - Google Patents

Description

1330729 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a liquid crystal dish, and more particularly to a liquid crystal dish for a liquid crystal material. [Prior Art "] Referring to Figure la, there is shown a conventional liquid crystal dish 1 comprising a body 10, a groove 11 and a recess 12. Referring to Figure lb, which shows an I-Ι cross-sectional view in Figure la, wherein the recess 12 includes an edge • 13. Referring to Fig. 1c, when the liquid crystal implantation step is performed, first, the liquid crystal material 14 is dropped into the depressed portion 12. Next, referring to the first Id diagram, the panel 2 contacts the edge 13, and the liquid crystal material 14 is then sucked into the panel 2 from the recessed portion 12 by capillary action. In the liquid crystal injection step described above, since only a small amount of liquid crystal material needs to be injected into the panel 2, a large amount of liquid crystal material remains in the depressed portion 12 after the liquid crystal injection step. In the prior art, the residual liquid crystal material is repeatedly used, so that after a plurality of repetitions of the φ replication process, there is a problem of aging of the material, resulting in deterioration of the quality of the liquid crystal material. Further, referring to the first Id diagram, since the liquid crystal material 14 has a low surface tension in the depressed portion 12, the liquid crystal material is likely to overflow when the panel 2 is touched. In the prior art, in order to make the panel sufficiently in contact with the liquid crystal material, the conventional liquid crystal dish has a depressed portion to accommodate the liquid crystal material. [Summary of the Invention]

Client's Docket No.: AU0605006 TT's Docket No: 0632-A50794TW/Drafl-f/Lemon 5 1330729 The present invention is a liquid crystal dish provided to solve the problems of the prior art, including a body. The body is composed of a bearing surface, a bottom surface and a four-sided surface, the bearing surface abutting the side surfaces, the bottom surface corresponding to the bearing surface, wherein the bearing surface is composed of a full plane. By applying the invention, the overflow of the liquid crystal material can be reduced, the usage of the liquid crystal can be saved, and the problem of aging of the liquid crystal material can be directly avoided. [Embodiment] Referring to Figure 2a, a liquid crystal dish 100 according to a first embodiment of the present invention includes a body 1 (U, the body 101 includes a first side surface 110, a second side surface 12 0, a first a three-sided surface 130, a fourth side surface 140, a bearing surface 150, and a bottom surface 160. The bearing surface 150 is opposite to the bottom surface 160. The first side surface 110, the second side surface 120, the first The three side surfaces 130 and the fourth side surface 140 are adjacent to the bearing surface 150 and the bottom surface 160. Referring to Figure 2b, when the liquid crystal injection step is performed, first, the liquid crystal material 14 is dropped on the bearing surface 150. The bearing surface is defined. In the embodiments of the present invention and the scope of the patent application, the bearing surface is defined as "the entire surface in contact with the liquid crystal material when the liquid crystal material is dropped", that is, it refers to the liquid crystal. Before the JHL contacts the panel, the liquid crystal is completely contacted with all surfaces of the liquid crystal material. The bearing surface 150 is a full plane, and the entire plane is defined herein. In the embodiment of the present invention and the patent application, the full plane Is defined as "not There is any plane of grooves, depressions or protrusions. Since the bearing surface 150 is full plane, when the liquid crystal material 14 is located above the bearing surface 150, there will be sufficient surface tension to reduce the overflow of the liquid crystal material. Situation

Client's Docket No.: AU0605006 TT’s Docket No: 0632-A50794TW/Drafl-CfLemon 6 1330729 The bearing surface 150 does not have a recessed portion, so that the amount of liquid crystal used can be saved. Referring to Fig. 2c, after the panel 2 contacts the carrying surface 150 of the liquid crystal m 100, the liquid crystal material 14 will be sucked into the panel 2 by capillary action. In the conventional design thinking, the liquid crystal dish of the present invention is not used for liquid crystal injection, because the reference to Fig. 3a, in the conventional design thinking, is determined when the bearing surface 150 is full plane, due to the panel The side of 2 is also flat, so when the panel is placed on the liquid crystal dish, the side of the panel 2 will be in close contact with the bearing surface 150, and the liquid crystal material 14 is pushed away from the bearing surface 150, so there is no sufficient liquid crystal material injection. Panel 2. However, in fact, referring to Fig. 3b, which shows an enlarged view of the portion A in Fig. 2c, the side surface of the panel 2 has a structure with unevenness due to the unevenness of the cutting, and at the same time, with reference to Fig. 3c Due to the dimensional tolerances during cutting, the sides of the panel 2 are not actually completely perpendicular to their major planes (the light-incident surface and the light-emitting surface), so that the sides of the panel 2 actually have an included angle with the bearing surface 150 when in contact. In combination with the above factors, the side surface of the panel 2 is not in close contact with the bearing surface 150 during the liquid crystal injection process, so that the side surface of the panel 2 and the bearing surface 150 have a space for accommodating sufficient liquid crystal material for injection into the panel 2 . in. The liquid crystal JDI of the present invention can be used to reduce the amount of liquid crystal material used. Referring to Table 1, it is shown that the liquid crystal materials of the present invention are compared with liquid crystal materials of various sizes, and the liquid crystal materials of the present invention are compared: Table 1 Comparison of liquid crystal materials used in the invention of liquid crystal isolation and conventional technology

Client's Docket No.: AU0605006 TT's Docket No: 0632-A50794TW/Draft-C^Lemon 7 1330729 Panel Size Conventional Liquid Crystal Material Π1·Liquid Crystal Material Dosage (g) The liquid crystal material usage amount of the liquid crystal of the present invention (g) 1.5&quot ; 0.055 0.027 1.6" 0.055 0.027 1.7" 0.047 0.027 1.8" 0.063 0.027 1.9" 0.067 0.027 2.0" 0.055 0.027 2.12" 0.074 0.027 2.36" 0.093 0.027 2.45" 0.093 0.029 2.46" 0.093 0.029 2.7&quot 0.093 0.029 As can be seen from Table 1, the liquid crystal dish of the present invention can effectively save the use of the liquid crystal material, and directly avoids the problem of aging of the liquid crystal material in the prior art. Referring to Fig. 4, there is shown a liquid crystal dish 100' of a second embodiment of the present invention having a channel 102' for guiding an overflow of liquid crystal material. In the second embodiment, the body 10 has a convex profile. Glyph structure. Similarly, in the second embodiment, the carrying surface 150 (all surfaces in which the liquid crystal is in contact with the liquid crystal material before the liquid crystal panel contacts the panel) is a full plane. φ Referring to Fig. 5, there is shown a liquid crystal dish 100'' of a third embodiment of the present invention having a guide groove 103 for guiding an overflow liquid crystal material. In the third embodiment, the body 10'' It has a stepped structure. Similarly, in the third embodiment, the bearing surface 150 (all surfaces that the liquid crystal is in contact with the liquid crystal material before the liquid crystal panel contacts the panel) is a full plane. Referring to Fig. 6, there is shown a liquid crystal dish 200 according to a fourth embodiment of the present invention, characterized in that it further comprises a joint portion 210 formed at the bottom of the body 10 for bonding with a liquid crystal device. The joint

Client's Docket No.: AU0605006 TT's Docket No: 0632-A50794TW/Draft-C^Lemon 8 1330729 210 has a smaller volume than the body 101', and a clamping space is formed on both sides of the joint. The above-described joint portion can be used in combination with any of the liquid crystal JDLs described above. Referring to Fig. 7, which shows the actual use of the liquid crystal dish of the present invention, the liquid crystal dish 200 of the fourth embodiment is taken as an example. When the liquid crystal is injected, the liquid crystal dish 200 is fitted over the positioning block 300. Referring to Fig. 8, the process of liquid crystal injection will be described below. In the present invention, the process of liquid crystal injection is carried out in a cavity. First, a vacuum is first applied to the chamber (S1). Next, the panel contacts the liquid crystal material on the liquid crystal cell for liquid crystal injection (S2). Finally, the pressure in the chamber is restored to normal pressure, and liquid crystal injection is completed (S3). Referring to Figures 9a and 9b, it is shown that the liquid crystal cell 200 carries the liquid crystal material 14, wherein the liquid crystal dishes 200 in Figures 9a and 9b are liquid crystal dishes of the same size and form. Referring first to Fig. 9a, the liquid crystal carrying capacity of the liquid crystal dish 200 has a maximum value. For example, in this embodiment, the maximum carrying capacity of the liquid crystal dish 200 is about 3.5 gram. However, in the actual process, the required amount of liquid crystal material to be injected into the panel is less than 1 gram (the ratio between the amount of liquid crystal material 9 added to the bearing surface and the actual amount used is about 3:1 to 5:1). Therefore, in the actual process, the liquid crystal material added to the liquid crystal dish 200 is only 1.5 g, so that the liquid crystal injection step can be successfully completed. Therefore, in the actual 'process, the amount of liquid crystal material added to the liquid crystal dish is determined according to actual needs'. It is not necessary to add the maximum load capacity of the liquid crystal dish. Although the present invention has been disclosed above in terms of specific preferred embodiments, it is not intended to limit the invention, and the skilled artisan

Client's Docket No.: AU0605006 TT's Docket No: 0632-A50794TW/Drafl-fiT^mon 9 1330729 Within the spirit and scope of the present invention, some modifications and retouchings may still be made, and therefore the scope of protection of the present invention is attached to the application. The scope defined by the patent scope shall prevail.

Client's Docket No.: AU0605006 10 TT*s Docket No: 0632-A50794TW/Draft-fi/Lemon [Simple diagram of the diagram] The first diagram shows the conventional liquid crystal dish; the =lb diagram shows the direction section in the first diagram. Figure 1 <: Figure shows the liquid crystal material dripping on the conventional liquid crystal dish; Figure, showing the liquid crystal material absorbed by the panel in the prior art; The liquid crystal dish of the embodiment; the case of Fig. 2b shows that the liquid crystal material is dripped on the liquid crystal dish of the first embodiment, and the liquid crystal material is absorbed by the panel in the first embodiment of the present invention; 3a shows the wrong identification of the conventional design thinking; 3b shows the enlarged view of part a in the 2c figure; 3c shows the side view when the panel is in contact with the liquid crystal; Figure 4 shows the invention The second embodiment; Fig. 5 is a view showing a third embodiment of the present invention; Fig. 6 is a view showing a fourth embodiment of the present invention; and Fig. 7 is a view showing a state in which the liquid crystal dish of the present invention is combined with a positioning block; Shows the process steps of liquid crystal injection; 9a, % map It shows the case of the liquid crystal dish carrier liquid crystal material. [Main component symbol description] 1 ~ liquid crystal dish; 10 ~ body; 11 ~ groove; 12 ~ depressed part; 13 ~ edge; 14 ~ liquid crystal material; 100, 100', 1 〇〇" ~ liquid crystal dish; , 1〇1', 1〇1"~ body; 102~ guide groove; 103~ guide groove;

Client's Docket No.: AU0605006 TT*s Docket No: 〇632-A50794TW/Draft-fil.emon 11 1330729 110~1st side surface; 120~2nd side surface 130~3rd side surface; 140~4th side surface 150~bearing surface; 200~liquid crystal dish; 300~ positioning block; 160~ bottom surface; 210~ joint; injection step SI, S2, S3~ liquid

Client's Docket No.: AU0605006 12 TT's Docket No: 0632-Α50794Τ\ν/〇Γ3ίΙ-ί)1^πιοη

Claims (1)

1330729 X. Patent Application Range: 1. A liquid crystal dish for injecting a liquid crystal material into a panel, comprising: a body comprising a bearing surface and a four-sided surface, the bearing surface abutting the side surfaces, wherein the bearing The face is a full plane. 2. The liquid crystal dish of claim 1, wherein when the liquid crystal material is injected, the liquid crystal material is added over the bearing surface, and an edge of the panel contacts the bearing surface. 3. A liquid crystal dish, suitable for a perfusion liquid crystal device, comprising: a body having a bearing surface at the top and the bearing surface being a full flat φ surface; and a joint portion formed at the bottom of the body, and Combined with the perfusion liquid crystal device. 4. The liquid crystal dish of claim 3, wherein the joint portion has a smaller volume than the body, and a clamping space is formed on both sides of the joint portion. 5. A liquid crystal dish for injecting a liquid crystal material into a panel, comprising: a body having a convex-shaped structure, the body comprising a bearing surface, the bearing surface being a full plane 'wherein, when injecting the liquid crystal material The liquid crystal material is added on the bearing surface, and an edge of the panel contacts the bearing surface. 6. A liquid crystal dish for injecting a liquid crystal material into a panel, comprising: a body having a stepped structure, the body comprising a bearing surface, the bearing surface being a full plane 'where' when the liquid crystal material is injected The liquid crystal material is added over the bearing surface and the edge of the panel contacts the bearing surface. 7. A liquid crystal injection method for injecting a liquid crystal material, comprising: providing a liquid crystal dish and a panel, the liquid crystal dish comprising a bearing surface, the bearing surface being a full plane; Client's Docket No.: AU0605006 TT's Docket No: 0632-A50794TW/Draft-f^Lemon 13 1330729 The liquid crystal material is added to the bearing surface, and the edge of the panel contacts the bearing surface, and the liquid crystal material enters the panel from the liquid crystal dish. 8. The liquid crystal injection method according to claim 7, wherein a ratio of the amount of the liquid crystal material added to the bearing surface to the actual usage amount is about 3:1 to 5:1. A liquid crystal injection method comprising: providing a liquid crystal dish having a bearing surface in a full plane form, and a cavity, wherein the liquid crystal dish is placed in the cavity; vacuuming the cavity; providing a liquid crystal material, Adding a liquid crystal material on the bearing surface to provide a panel; contacting an edge of the panel with the bearing surface 'the liquid crystal material enters the panel from the liquid crystal dish; and returning the pressure in the cavity to normal pressure . 10. The liquid crystal injection method according to claim 9, wherein a ratio between the amount of the liquid crystal material added to the bearing surface and the actual usage amount is about 3:1 to 5:1. Client’s Docket No.: AU0605006 14 TT’s Docket No: 0632-A50794TW/Draft-£/Lemon