TWI296732B - Method of assembling liquid crystal display panel and apparatus of assembling the same - Google Patents

Description

I296^, doc/c IX. Description of the invention: [Technical field to which the invention pertains] In particular, the present invention relates to a method of assembling and assembling a device, and a method and an assembly device for a display panel. L prior technology] ^ The high development of multimedia technology, the current image information == ship to the domain _ lose, and in order to cope with the modern life mode, the size of the county is also thin. Traditional: ==, Tube, CRT) display has excellent = two shells and low cost # advantages, but * in its internal electronic cavity structure, so that =,,,, and staff can not meet the requirements for thinning, lightweight and The need for low power consumption =, and there are also problems such as radiation damage to the eyes when the user views. Therefore, with the maturity of optoelectronic technology and semiconductor manufacturing technology in recent years, the Flat Panel Display has flourished, and the liquid crystal display (LCD) is based on its low voltage operation, no radiation scattering, and weight. The advantages of light weight and small size have gradually replaced the cathode ray tube display of the transmission & The liquid helium display state mainly includes a liquid crystal display panel (liquid cryStai panel) and a backlight module. The liquid crystal display panel is composed of a color filter substrate (C/F) and a film. A thin film transistor array and a liquid crystal layer disposed between the two substrates. In the manufacturing process of the liquid crystal display panel, a plurality of color filter array units are formed on one substrate, and a plurality of thin film transistor arrays (Thin Film Transistor Array) are formed on the other substrate. I29674^wfdoc /c unit. Thereafter, a liquid crystal layer is further implanted, and the color filter array unit and the thin film transistor array unit are assembled to form a plurality of liquid crystal display panels. The conventional method of assembling a color filter array unit and a thin film transistor array unit by using a substrate-to-substrate or panel-panel assembly, which will be described below. The method is described in more detail with the accompanying drawings. Fig. 1 illustrates a method of assembling a liquid crystal display panel, which is a base and a method of assembling a substrate. Referring to FIG. 00, a plurality of thin film transistor arrays 70 112 are formed on the first substrate 11 ,, and a plurality of color filter array units 122 are formed on the second substrate 120, and each of the thin film transistor array units 112 The surrounding system is coated with a sealant 116. Next, the liquid crystal layer 111 is dropped into a region surrounded by the bezel 116, for example, by a dropping method (〇DF, 〇dr〇P New 1). Thereafter, the second substrate 120 is moved such that the color filter array unit 22 on the first substrate 120 corresponds to the thin film transistor array unit 112 on the first substrate u. Then, the thin film transistor array unit 112 and the color filter array unit 122 are brought together by the plastic frame ΐ6. Then, the first substrate 11A and the second substrate 12 are simultaneously cut to form a plurality of liquid crystal display panels. Although the assembly method of the liquid crystal display panel of Fig. 1 can be used to form a plurality of colors, the light array unit A 122 is simultaneously grouped with the plurality of thin film transistor array units 1^70, so that the assembly cost is low and the assembly speed is fast. However, as the size of the liquid crystal display panel is increasing and the size of the substrate is increased in recent years, this will increase the difficulty in assembling the thin film transistor array unit ι2 and the color filter array unit 122, and Cold shrinkage ^ f.doc / c should be, the difference in the exposure of the two substrates during the process and other factors may lead to deviations beyond the regulatory specifications when the assembly. FIG. 2 illustrates a conventional method of assembling a liquid crystal display panel, which is a panel-to-panel assembly method. Please refer to FIG. 2 and FIG. 2 simultaneously. The difference between FIG. 1 and FIG. 2 is that the first substrate 21 and the second substrate 22 are first cut, and a plurality of independent thin film transistor array panels 212 and color filters are respectively formed. The light array panel 222 is coated with a plastic frame 216 around the thin film transistor array panel 212. Similarly, the liquid crystal layer 211 is poured into the area surrounded by the respective plastic frames 216. Next, each of the color filter array panels 222 is moved such that one of the color filter array panels 222 corresponds to one of the thin film transistor array panels 212. Thereafter, the color is formed by the sealant 216; the light-array array unit 222 is bonded to one of the thin film transistor array units 212, and the above steps are repeated to form a plurality of liquid crystal display panels. In addition, the liquid crystal filling process can also be carried out by a general vacuum suction method in which the color filter array panel 222 and the thin film transistor array unit are attached, and then the liquid crystal is injected. The method for assembling the liquid crystal display panel shown in FIG. 2 is to sequentially group the respective color filter array panels 222 and the respective thin film transistor array panels 212, and the substrate-to-substrate assembly manner relative to the substrate can be Achieve higher precision. However, such a panel-to-panel assembly method requires a relatively high assembly cost and assembly time because only one liquid crystal display panel is assembled at a time. · Based on the above, providing a method of assembling a liquid crystal display, which has both souther accuracy and low time cost, is a subject worth considering rf_doc/c. SUMMARY OF THE INVENTION The present invention provides a method for assembling a liquid crystal display panel with the effect of phase k6 precision and reduced assembly cost. 1 The purpose of the present invention is to provide a liquid crystal display panel assembly stand: two; when the display panel is assembled, the method for improving the accuracy and reducing the thickness of the liquid crystal display panel is obtained. The liquid crystal display panel standing method includes: First, a -first substrate is provided, and a plurality of first element units have been formed. After receiving the August 1st, the 70th picker provides a plurality of cut first pieces. The 70's are separated from the first element and the second element by a liquid crystal layer and simultaneously The first component unit of the two component sheets is attached together. The method for assembling a liquid crystal display panel according to the present invention, wherein after the second component unit and the first component unit on the first substrate are bonded together, for example, the method further comprises: performing a cutting step on the first substrate to A plurality of display panels are formed. Further, the first element unit on the first substrate is, for example, a thin film transistor array unit, and the second element unit is, for example, a color filter array unit. Alternatively, the first element unit on the first substrate is, for example, a color ray array decoupling element, and the second element unit is, for example, a thin film transistor array single open. - a method of assembling a liquid crystal display panel according to the present invention, wherein the method of simultaneously bonding the second component unit to the first component unit on the first substrate is, for example, bonding the two together by means of an ultraviolet plastic frame . L29mz wf.d〇c/c is a kind of liquid crystal display surface (4). / "The base of the substrate - 71 units and a plurality of cut second solid ^ 70 groups stand up - this liquid crystal display panel assembly equipment includes a set, multiple _ fixed units, multiple shifts and more A position detecting fixture is formed to fix the first substrate thereon, and a plurality of turns are made 7L to fix the second component unit thereto. Each of the mobile devices ft is placed on each of the fixed units, and each of the position-side devices is disposed on each of the solid elements. An apparatus for assembling a liquid crystal display panel according to the present invention, wherein the mobile device includes, for example, a - a first mover, a second mover, and a third mover. The first mover is for example to move the position of the fixed unit in the x-direction, the second mover is for example to move the position of the fixed unit in the gamma direction, and the third mover is for example to move the fixed unit in the ζ direction position. The assembly apparatus of the liquid crystal display panel further includes, for example, a plurality of rotating means for rotating the fixed unit. According to the assembling device of the liquid crystal display panel of the present invention, each position detecting device includes, for example, a plurality of coarse position detectors and a plurality of fine position detectors. These coarse position detectors and fine-tuning position detectors are, for example, Charged Couple Devices, and fine-tuning position detectors are placed, for example, at four corners of the fixed unit. Further, the fixing device and the fixing unit are, for example, electrostatic adsorption fixing devices. The present invention provides another method for assembling a liquid crystal display panel, which is assembled by using an assembly device of a liquid crystal display panel. The assembly device of the liquid crystal display panel includes a fixing device, a plurality of fixing units, and a plurality of movements 1296m f.doc The /c device and the plurality of position_devices, the method of assembling the liquid crystal display includes: firstly, the "providing-first substrate" has a plurality of first element units formed thereon and the first substrate is fixed to m. Next, a plurality of cut second component sheets 70 are provided, each of which is assigned to each fixed order. A liquid crystal layer is filled between the first element unit and the second element unit, respectively. Then, the mobile unit is moved to the mobile unit, and the bit (4) is used to make the second element unit correspond to the first element unit. The 'moving mobile device' then attaches the second component unit to the first substrate first component unit. According to the method for assembling a liquid crystal display panel according to the present invention, the pot unit is bonded to the first element unit on the first substrate: for example, the step of performing the cutting process on the first substrate :==1 In addition, the mobile device is used to move the fixed unit, and the position m is set to 'make the first element unit and the second element:=including, for example, coarse adjustment of the mobile devices, and the mobile devices are performed. Fine tune. Jun Dan The method of assembling the liquid crystal display panel of the first embodiment, wherein the first element unit of the unit 例如 is, for example, a plurality of thin film transistor arrays = the element unit is a plurality of color county_units. Alternatively, the first component unit on j is, for example, a plurality of arrays of two: ί, the element is a plurality of thin film transistor arrays; the second is 2: the component unit and the first substrate are profitable: the ultraviolet frame is used to fit the two The method of assembling the liquid crystal panel is formed by using a plurality of second component units that have been cut by the f.doc/c and simultaneously grouped with the plurality of first component units on the first substrate. Achieve higher precision and lower manufacturing costs. Moreover, the assembly apparatus of the liquid crystal display panel of the present invention can further improve the above-mentioned and other objects, features and advantages of the present invention by having the position detecting device, and the accuracy of the assembly can be further improved. The preferred embodiment will be described in detail with reference to the accompanying drawings. ''

Embodiments FIG. 3 is a schematic diagram of an assembly device that is a liquid crystal display panel. Referring to Fig. 3, the assembling device 3 of the liquid crystal display panel includes a fixing device 310, a plurality of fixing units 32A, a plurality of moving devices 33, a plurality of rotating devices 350, and a plurality of position detecting devices 34A. The assembly device 300 is for assembling a plurality of first component units 412 on a first substrate 41 and a plurality of cut second component units 420.

With continued reference to Fig. 3, the fixture 310 and the fixed unit 320 are, for example, = electrosorption fixtures. The mobile device 330 includes a first mover 332, a second mover 334 and a third mover 330, the first mover 332 is configured to move the position in the direction of the fixed unit 320X, and the second mover 334 is to move the fixed unit The position of 32Q in the gamma direction, and the third movement state 336 is used to move the position of the fixed unit 32 in the z direction. Further, the rotating device 350 is used to rotate the fixing unit 320. In addition, the position detecting means 340 is used to precisely position the second unit 420 on the plurality of fixed units 320. In a preferred embodiment, the position detection 11 12967i3^twf.d〇c/c device 340 includes a plurality of coarse position detectors 342 and a plurality of fine adjustment position detectors 344, and the fine adjustment position detector 344 The system is disposed at four corners of the fixed unit 3, for example. These position detecting devices 34g are, for example, a Charged Couple Device or other kinds of optical sensors. - Figure 4A to Figure 4E! The display is a group of liquid crystal display panels; a schematic diagram of the method. The method of assembling the liquid crystal display is carried out using the assembly apparatus 300 of the liquid crystal display shown in Fig. 3. First, referring to FIG. 4A, at the beginning of the assembly process, the first substrate 41 is first provided, and the first substrate 410 is fixed on the surface of the fixing device 31, and the first substrate 41 has been formed with a plurality of An element unit 412 is peripherally coated with a plastic frame 440, such as a UV curable sealant. Further, each of the cut second component units 42 is not fixed to each of the fixing units 320. It is to be noted that the first element unit 412 and the second element unit 420 are, for example, a thin film transistor array, a unit, and a color filter array unit, respectively. Alternatively, the first element unit 412 and the second element unit 420 are, for example, a color filter array unit and a thin film transistor array unit, respectively. Next, referring to FIG. 4B, during the assembly process, for example, the first component unit 412 and the second component unit 42 are first placed in a vacuum chamber (not shown), and the first component unit 412 and the second component unit are disposed. After filling a liquid crystal layer 430 between 420, the vacuum chamber is evacuated, and the liquid crystal layer 430 is filled in the _ element unit 412 by a drop-injection method (〇DF, 〇 卯 卯 卯 卯). The area enclosed by the surrounding plastic frame 440. In the following description, in order to explain the assembly process in more detail, 12 I29673-2wf.d〇c/c, in the case of FIG. 4C to FIG. 4D, only one of the first 412 on the substrate Yang and the corresponding one of them is taken out. - Second correction unit. However, the assembly method of the present invention is to simultaneously assemble the multi-element unit 412 and the plurality of second element units 420 on the substrate. Referring again to FIG. 4C, the mobile unit 330 is used to move the fixed unit=20 to make the first element unitized and the second element unit opposite. In order to make the first element unit “2” and the second element unit accurately, And the port is densely positioned by the position detecting device 340 disposed on the second component unit 42 to position the second element 42 on the plurality of time units 32G. In a preferred embodiment, Simultaneously positioning the second component unit 42 on the plurality of fixing units 320 by the position detecting device 340, for example, by using the first component unit 412 formed on the substrate 41, the first alignment mark 442, and A second alignment mark 422 is formed around the second element unit 42A for alignment. The first alignment mark 442 and the second alignment mark 422 are, for example, in the process of forming the first element unit 412 and the second element unit. The material is formed, for example, as a metal. Further, a fixing hole 320 is provided with a through hole or a transparent visible hole (not shown) corresponding to the position detecting device 34, and is formed in the second component unit 42. The second pair of Zhou Yuan The alignment mark is formed on the transparent substrate. Therefore, the position detecting device 340 passes through the through hole or the transparent visible hole to detect the relative position of the first alignment mark 442 and the first alignment mark 422 to determine the substrate 41. Whether the first component unit 412 is aligned with the second component unit. In other words, the movement of the mobile device 330 and 13 is controlled by the pre-measurement of the position indicating device 340: the distance between the first component and the second component unit is set to be two = two component units ^Close to f:: component unit 412 and the first _ lion = ^ Γ ' start coarse _

The accuracy is, for example, the set coarse (2): Ϊ = ί: the mobile device 33 is operated again and the rotating device 350 is operated, and the distance between the second unit and the second unit 420 is, for example, approximately - the second appropriate distance. The fine-tuning position controller (10) is activated to perform micro-pairing================================================================================ Then, please refer to FIG. 4D to disengage the second component unit 42 from the fixed frame j20' such that the plastic frame 440 around the first component unit 412 touches the second component unit 420, and then passes through the frame curing step (for example, The ultraviolet curing step) is such that the first element unit 412 and the second element unit 42 are bonded. Thereafter, referring to FIG. 4E, the first substrate 410 is cut to form a plurality of liquid crystal display panels 4A.

It is to be noted that the method of assembling the liquid crystal display panel of the present invention is mainly characterized in that a plurality of cut second element units are used and a plurality of first element soap elements on the fish substrate are grouped together, and thus The liquid crystal display panel is limited to be assembled using the assembly device of the present invention. Any other suitable assembly device can also be applied to the group method of the liquid crystal display 14 •doc/c I2967i22twf.d of the present invention. Moreover, in the above-mentioned implementation, the liquid crystal is first introduced, and then the first substrate is cut to become a plurality of liquid crystal display panels. However, after the germanium-substrate is captured into the respective display panel regions, Then, the vacuum inhalation method is used to fill in the liquid crystal display surface. In the liquid crystal display assembly method of the present invention, the plurality of second s-piece units are simultaneously and on the first substrate. The first component unit is grouped up, so the following advantages are obtained: The present invention simultaneously sets the second component unit and the plurality of the first component units on the first substrate together, compared with the traditional ones. The method of grouping the cut second element unit and the 6_th element unit can save time and thereby increase the yield of the product. Moreover, the method of forming the two substrates together in a plurality of liquid crystal display panels has better accuracy in comparison with the conventional one. 2. Since the method of the present invention is that the second component unit is grouped with the plurality of first component units on the first substrate, if one of the second component units is found to be damaged before being assembled, it can be replaced immediately. The new or normal second component unit is then 're-established, without the need to sacrifice as a transfer limit - a - component unit, Decheng - a liquid crystal 7TC will face you. 3. If you get a good money before the & _ element unit damage? You can also retain and save the normal second component unit, without the traditional substrate-to-substrate assembly method, A normal second component epoch is joined to the defective component unit. Bad condition - component unit = 15 12967i! i2twf.d〇c/c can be discarded after cutting the first substrate. While the present invention has been described in its preferred embodiments, the present invention is not intended to limit the invention, and the present invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a conventional method of assembling a liquid crystal display panel. FIG. 2 illustrates a conventional method of assembling a liquid crystal display panel. FIG. 3 is a schematic diagram of an assembly device that is a liquid crystal display panel. 4A to 4E are schematic views showing a method of assembling a liquid crystal display. [Description of main component symbols] 110, 210: first substrate in, 211: liquid crystal layer 112: thin film transistor array unit 116, 216: plastic frame 120, 220: second substrate 122 · color filter, light array unit 212: film The transistor array panel 222: the color filter array panel 310: the fixing device 320 · the fixing unit 330 · the mobile device 332 : the first mover 16 1296m : wf.doc / c 334 · the second mover 336 : the third move 340: position detecting device 342: coarse position detector 344: fine adjustment position detector 350: rotating device 400: liquid crystal display panel 410: first substrate 412 · first component unit 420: second component unit 422 : second alignment mark 430 : liquid crystal layer 440 : plastic frame 442 · · first alignment mark 1296m : wf.doc / c

17

Claims (1)

I296^doc/(, the patent application scope of the L-type liquid crystal display panel, including the . . . - the substrate - the substrate has been formed with a plurality of the plurality of cut second component units; And at the same time, the (four) part of the "component material" is attached to the second brother and the 7L piece unit of the first board. 2. Shi: The assembly of the liquid crystal display panel described in the patent item i After providing the cut second component units, and before bonding the one of the component units to the first component units, the package is further divided into the first component units. And a method of assembling a liquid crystal display panel according to the above aspect, wherein the second component unit and the first substrate are After the first component units are bonded together, the method further comprises: performing a cutting step on the first substrate to form a plurality of liquid crystal display panels. 4. The method for assembling a liquid crystal display panel according to claim 1 Where the first substrate An element unit is a plurality of thin film transistor array units. The method of assembling a liquid crystal display panel according to claim 4, wherein the second element units are a plurality of color filters. The method of assembling a liquid crystal display panel according to claim 1, wherein the first component units on the first substrate are a plurality of colors 18 I2967i2w, doc/c Color filter array unit. 7. The method according to item 6 of the patent application scope, wherein the first/night 曰曰 display panel is a group 立元. - 弟 - 70 pieces are as early as a plurality of _ transistors The array single method of the r display panel is assembled on the first-element unit bonding substrate, and the one of the two substrates is used to set up a first component. - it is read early, and a plurality of cut second component sheets are used to fix the first substrate thereon; it is set at 2 early 7° 'the system to fix the second component units ίί: shift Set up each of these mobile devices Arranged in each of the "fixing devices" each position device is provided in each 10. The patented range of the first device: wherein each axis device includes a “-shaped "group position of the panel Γ first - shift _" for moving The position of the fixed unit in the χ direction ΓίΓ moves the 19 f.doc/c-third mover of the locating unit in the γ direction for shifting the position. The Haigu 疋ping element is in the Z direction. For example, the ninth device of the patent application scope further includes at least one group fixing unit that rotates the day and night display panel to perform the rotation. The clothing 'each rotation device is used for the equipment of the ninth item of the patent application scope, wherein Each position debt measuring device includes a plurality of coarse adjustment position detectors of the liquid crystal display panel; most of the fine adjustment positions are prepared for crying. 13. For the 12th item of the patent application scope, the coarse adjustment position, the liquid crystal display panel of the group device, 〇,,, J state is a charge coupler (Charged 14. If you apply for the general 12th vertical equipment , in which the micro-touch _ (four) electric panel group 15. As claimed in the scope of the 14th item:: catch, 兮 this #0 丄田 A ® / night day *,,, page no panel assembly δ and prepared 6Hai: The coarse adjustment position _ is placed in the vicinity of a corner. ^(70) of the early 70-. 6. For example, the liquid crystal display panel of the second nine items is set up in the Han//, and the solid-state system is static. Adsorption and fixing device. U7. Such as the township (four) 9 items (four) read the miscellaneous (four) board of the group wave preparation 'where _ fixed unit is a static simple fixture. The second display panel assembly method, the use of liquid crystal display: board preparation for assembly, the The group of liquid crystal display panels includes a solid-state garment, a plurality of fixed units, and a plurality of mobile devices should have a plurality of housings, and the assembly method of the liquid crystal display panel includes: - a component sheet On the first substrate, a plurality of the first substrate of the sixth type is fixed to the fixed device. a piece of the second component unit that has been cut, and each of the first component is fixed to each of the fixing units; the brother-兀 position is moved to the female fixing unit And using the corresponding J 2 scorpion element unit and the second element unit plate unit and the second base element==cut=two element unit, and the parts are respectively determined by the number T The early part, before the start-up, includes the liquid crystal layer. The second U-component unit is filled with - the group of the liquid crystal display panel described in Item 18, which is only on the board. -=Shenzhen 'two forms a number of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ And the second adjustments, and then moving the mobile devices to the coarse 21 22 · as claimed in the patent range method, wherein the first thin film U of the liquid crystal display panel of the thin film transistor array ^ The number of the first element units on the unit t plate is a plurality of 23. The method, wherein the components of the liquid crystal display panel described in the second aspect are: the unit unit is a plurality of color filter arrays, and the method is as follows: The group of color filter array units of the liquid crystal wheel panel/the plurality of element units are a plurality of methods, such as the scope of the invention, wherein the elements are as long as the panel of the panel. The number of bonding film transistor array elements in the eve of the method is based on UV 22