TWI481929B - Method of manufacturing tft lcd panel - Google Patents

Description

薄膜電晶體液晶顯示面板製造方法Thin film transistor liquid crystal display panel manufacturing method

本發明是有關於一種薄膜電晶體液晶顯示面板製造方法，更詳細而言，是有關於一種在結合有薄膜電晶體陣列玻璃與彩色濾光片組裝體的玻璃組裝體側面被覆(coating)合成樹脂(synthetic resin)而提供無需框架(frame)的顯示面板(display panel)的薄膜電晶體液晶顯示面板製造方法。The present invention relates to a method for fabricating a thin film transistor liquid crystal display panel, and more particularly to a method for coating a synthetic resin on the side of a glass assembly incorporating a thin film transistor array glass and a color filter assembly. A synthetic resin film forming liquid crystal display panel manufacturing method that does not require a frame.

薄膜電晶體液晶顯示面板(thin film transistor liquid crystal display panel,TFT LCD panel)是通過如下方式生產：將驅動電路(driving circuit)與背光(back light)連接於在薄膜電晶體陣列玻璃(TFT array glass)與彩色濾光片玻璃(color filter glass)之間封入液晶而接合的玻璃組裝體。A thin film transistor liquid crystal display panel (TFT LCD panel) is produced by connecting a driving circuit and a backlight to a TFT array glass. A glass assembly in which a liquid crystal is sealed between a color filter glass and a color filter glass.

先前，將玻璃組裝體與背光等設置於框架或外殼(housing)而用作TV、監控器(monitor)等的顯示器(display)。Previously, a glass assembly, a backlight, and the like were placed in a frame or a housing to be used as a display of a TV, a monitor, or the like.

最近，更薄地製作顯示器，而且還開發將框架或外殼最小化、或者不具有框架本身的顯示器。Recently, displays have been made thinner, and displays that minimize the frame or casing or that do not have the frame itself have also been developed.

如上所述，為了製造無框架的薄膜電晶體液晶顯示器，需要由並非框架的其他構成覆蓋玻璃組裝體的外緣。玻璃組裝體的週邊形成地較為鋒利，因此可對使用者的安全造成影響。若不將框架設置在玻璃組裝體，則週邊不會受到保護，因此也會縮短使用壽命。As described above, in order to manufacture a frameless thin film transistor liquid crystal display, it is necessary to cover the outer edge of the glass assembly by other constitutions other than the frame. The periphery of the glass assembly is formed sharply, so that it can affect the safety of the user. If the frame is not placed in the glass assembly, the perimeter will not be protected and the service life will be shortened.

為了解決如上所述的問題點，需要如下構成：可由簡單且較薄的構成覆蓋玻璃組裝體的週邊來完成。In order to solve the above problems, it is necessary to be configured such that the periphery of the glass assembly can be covered by a simple and thin structure.

本發明是根據如上所述的必要性而提出，目的在於提供一種可有效地覆蓋被覆玻璃組裝體的週邊的薄膜電晶體液晶顯示面板製造方法。The present invention has been made in view of the necessity described above, and an object thereof is to provide a method of manufacturing a thin film transistor liquid crystal display panel which can effectively cover the periphery of a covered glass assembly.

用以達成如上所述的目的的本發明的薄膜電晶體液晶顯示面板製造方法的特徵在於，包含如下步驟：(a)，水平配置接合有薄膜電晶體陣列玻璃與彩色濾光片玻璃的玻璃組裝體的步驟；(b)，一面沿所述玻璃組裝體的側面移動泵(pump)，一面向垂直於該玻璃組裝體的側面的方向塗敷(dispensing)被覆具有光硬化性的液狀樹脂的步驟；及(c)，向該液狀樹脂照射光，以使塗敷在所述玻璃組裝體的側面的所述液狀樹脂硬化的步驟。The method for fabricating a thin film transistor liquid crystal display panel of the present invention for achieving the above object is characterized by comprising the steps of: (a) horizontally arranging a glass assembly in which a thin film transistor array glass and a color filter glass are bonded; a step of moving the substrate; (b) moving a pump along a side of the glass assembly, and dispensing a liquid resin coated with a photocurable resin in a direction perpendicular to a side surface of the glass assembly And (c) a step of irradiating the liquid resin with light to cure the liquid resin applied to the side surface of the glass assembly.

本發明的薄膜電晶體液晶顯示面板製造方法具有如下效果：提供一種可有效地被覆玻璃組裝體的週邊的方法，從而可謀求使用者的安全，提高玻璃組裝體的使用壽命。The method for producing a thin film transistor liquid crystal display panel of the present invention has an effect of providing a method of effectively covering the periphery of a glass assembly, thereby achieving safety of the user and improving the service life of the glass assembly.

以下，參照隨附圖式，詳細地對本發明的較佳實施例進行說明。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

圖1是用以實施本發明的薄膜電晶體液晶顯示面板製造方法的玻璃組裝體的剖面圖。圖2是用以說明利用圖1所示的玻璃組裝體實施本發明的薄膜電晶體液晶顯示面板製造方法的一例的立體圖。BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a glass assembly for carrying out a method for producing a thin film transistor liquid crystal display panel of the present invention. FIG. 2 is a perspective view for explaining an example of a method of manufacturing the thin film transistor liquid crystal display panel of the present invention by using the glass assembly shown in FIG. 1.

本發明是用以在如圖1所示的形態的玻璃組裝體(10)的側面塗布合成樹脂而製造無需週邊框架或外殼的薄膜電晶體液晶顯示面板。普通的薄膜電晶體液晶顯示面板的玻璃組裝體(10)呈如圖1所示的結構。薄膜電晶體陣列玻璃(12)與彩色濾光片玻璃(11)彼此接合，且於其之間封入液晶。通常，在向薄膜電晶體陣列玻璃(12)與彩色濾光片玻璃(11)的外部露出的平面上，附著如圖1所示的膜(film)(13、14)。The present invention is for producing a thin film transistor liquid crystal display panel which does not require a peripheral frame or a case, by coating a synthetic resin on the side surface of the glass assembly (10) having the form shown in Fig. 1 . The glass assembly (10) of a conventional thin film transistor liquid crystal display panel has a structure as shown in FIG. The thin film transistor array glass (12) and the color filter glass (11) are bonded to each other with liquid crystal sealed therebetween. Generally, a film (13, 14) as shown in Fig. 1 is attached to a plane exposed to the outside of the thin film transistor array glass (12) and the color filter glass (11).

首先，參照圖2，對用以實施本實施例的薄膜電晶體液晶顯示面板製造方法的裝置的結構進行說明。沿玻璃組裝體(10)週邊的4個側面中的3個側面水平配置移送部(50)，且在各個移送部(50)配置泵(30)。First, the structure of an apparatus for carrying out the method of manufacturing a thin film transistor liquid crystal display panel of the present embodiment will be described with reference to FIG. The transfer portion (50) is horizontally disposed along three of the four side faces around the glass assembly (10), and the pump (30) is disposed in each transfer portion (50).

泵(30)是以可分別向上下方向、前後方向、左右方向移送的方式，設置於移送部(50)。泵(30)以如下方式構成：接收液狀樹脂(20)的供給，從而可向水平方向、即垂直於玻璃組裝體(10)的側面的方向塗敷液狀樹脂(20)。因此，泵(30)的噴嘴(nozzle)(31)配置於水平方向上，而並非上下方向。從泵(30)塗敷的液狀樹脂(20)是使用光硬化性樹脂。即，液狀樹脂(20)具有如下特性：若以液體狀態塗敷後暴露在光下，則硬化。The pump (30) is provided in the transfer unit (50) so as to be transportable in the up-down direction, the front-back direction, and the left-right direction, respectively. The pump (30) is configured to receive the supply of the liquid resin (20) so that the liquid resin (20) can be applied in the horizontal direction, that is, in the direction perpendicular to the side surface of the glass assembly (10). Therefore, the nozzle (31) of the pump (30) is disposed in the horizontal direction, not in the up and down direction. The liquid resin (20) applied from the pump (30) is a photocurable resin. That is, the liquid resin (20) has a property of being cured by being exposed to light after being applied in a liquid state.

在各個移送部(50)設置視覺感測器(vision sensor)(41)。視覺感測器(41)分別測定相對於玻璃組裝體(10)側面的距離與玻璃組裝體(10)側面的高度。利用由視覺感測器(41)測定的相對於玻璃組裝體(10)側面的距離與玻璃組裝體(10)側面高度，固定地維持泵(30)的噴嘴(31)相對於玻璃組裝體(10)側面的距離與高度。視覺感測器(41)可為雷射感測器(laser sensor)，也可使用相機(camera)。A vision sensor (41) is provided at each of the transfer portions (50). The visual sensor (41) measures the distance from the side of the glass assembly (10) and the height of the side of the glass assembly (10), respectively. The nozzle (31) of the pump (30) is fixedly maintained relative to the glass assembly by the distance from the side of the glass assembly (10) measured by the visual sensor (41) and the side height of the glass assembly (10) ( 10) Distance and height of the side. The visual sensor (41) can be a laser sensor or a camera.

如上所述的視覺感測器(41)配置在沿玻璃組裝體(10)側面移送泵(30)的方向的前方，首先測定相對於該側面的距離與高度，並傳達該結果，以便可調節配置於後方的泵(30)相對於玻璃組裝體(10)側面的距離與高度。The visual sensor (41) as described above is disposed in front of the direction in which the pump (30) is transferred along the side of the glass assembly (10), first measuring the distance and height with respect to the side, and communicating the result so as to be adjustable The distance and height of the pump (30) disposed at the rear with respect to the side of the glass assembly (10).

在移送部(50)，還設置燈(lamp)(42)。向塗敷在玻璃組裝體(10)側面的液狀樹脂(20)照射從燈(42)產生的光而使液狀樹脂(20)硬化。燈(42)相對於泵(30)的移送方向設置在後方，由此可在剛剛塗敷液狀樹脂(20)後，照射該液狀樹脂(20)而使液狀樹脂(20)硬化。In the transfer unit (50), a lamp (42) is also provided. The liquid resin (20) applied to the side surface of the glass assembly (10) is irradiated with light generated from the lamp (42) to cure the liquid resin (20). The lamp (42) is disposed rearward with respect to the transfer direction of the pump (30), whereby the liquid resin (20) can be irradiated immediately after the liquid resin (20) is applied, and the liquid resin (20) can be cured.

光硬化性液狀樹脂(20)較佳為使用紫外線硬化性液狀樹脂(20)。另外，燈(42)也較佳為發出紫外線的紫外線燈(42)。紫外線硬化性樹脂是由於其硬化速度較快，因此可在液狀樹脂(20)剛剛塗敷在玻璃組裝體(10)後，立即開始硬化。通過使用以較快的速度硬化的紫外線硬化性樹脂，可固定地維持被覆在玻璃組裝體(10)側面的液狀樹脂(20)的形狀。The photocurable liquid resin (20) is preferably an ultraviolet curable liquid resin (20). Further, the lamp (42) is also preferably an ultraviolet lamp (42) that emits ultraviolet rays. Since the ultraviolet curable resin has a high curing rate, it can be immediately cured immediately after the liquid resin (20) is applied to the glass assembly (10). By using an ultraviolet curable resin which is cured at a relatively high speed, the shape of the liquid resin (20) coated on the side surface of the glass assembly (10) can be fixedly maintained.

以下，對利用如上所述的裝置實施本實施例的薄膜電 晶體液晶顯示面板製造方法的過程進行說明。Hereinafter, the thin film electricity of the present embodiment is implemented using the apparatus as described above. The process of the method of manufacturing a crystalline liquid crystal display panel will be described.

本實施例的薄膜電晶體液晶顯示面板製造方法是通過首先執行如下步驟而開始((a)步驟)：水平配置如上所述般構成的玻璃組裝體(10)。玻璃組裝體(10)呈厚度相比面積非常薄的結構，因此可容易地彎曲。較佳為，考慮玻璃組裝體(10)的如上所述的特性，使用玻璃組裝體(10)不會彎曲而可水平地配置為平面形態的治具來水平配置玻璃組裝體(10)。根據情況，也可考慮因玻璃組裝體(10)的自身重量而玻璃組裝體(10)彎曲的情況，在向與其變形方向相反方向具有平面曲率的治具上配置玻璃組裝體(10)，由此補償因自身重量引起的變形而水平配置。The method of manufacturing a thin film transistor liquid crystal display panel of the present embodiment is started by first performing the following steps ((a) step): horizontally disposing the glass assembly (10) configured as described above. The glass assembly (10) has a structure in which the thickness is extremely thin compared to the area, and thus can be easily bent. In view of the above-described characteristics of the glass assembly (10), it is preferable to arrange the glass assembly (10) horizontally by using a jig in which the glass assembly (10) is horizontally arranged without being bent. In some cases, the glass assembly (10) may be bent due to the weight of the glass assembly (10), and the glass assembly (10) may be disposed on the jig having a plane curvature in a direction opposite to the deformation direction thereof. This compensation is horizontally arranged due to deformation due to its own weight.

在如上所述的狀態下，使參照圖2說明的3個移送部(50)同時作動而沿玻璃組裝體(10)的3個側面移動視覺感測器(41)、泵(30)及燈(42)。In the above state, the three transfer portions (50) described with reference to Fig. 2 are simultaneously operated to move the visual sensor (41), the pump (30), and the lamps along the three side faces of the glass assembly (10). (42).

未配置移送部(50)的玻璃組裝體(10)的側面是用以使薄膜電晶體陣列玻璃(12)的電路與驅動電路連接的部位，因此不被覆液狀樹脂(20)。如上所述般未被覆液狀樹脂(20)的面在使用時，配置於下方而與支撐基底(base)連接。The side surface of the glass assembly (10) in which the transfer portion (50) is not disposed is a portion for connecting the circuit of the thin film transistor array glass (12) to the drive circuit, and thus the liquid resin (20) is not coated. When the surface of the liquid-repellent resin (20) is not used as described above, it is placed below and connected to a support base.

若移送部(50)作動，則執行如下步驟((d)步驟)：一面沿玻璃組裝體(10)的側面移動，一面通過配置於較泵(30)更前方的視覺感測器(41)測定玻璃組裝體(10)側面的高度。另外，也同時執行如下步驟((e)步驟)：一面沿玻璃組裝體(10)的側面移動，一面測定玻璃組裝體(10)側面與泵(30)的噴嘴(31)之間的距離。When the transfer unit (50) is actuated, the following step ((d) step) is performed: while moving along the side surface of the glass assembly (10), the visual sensor (41) disposed further ahead of the pump (30) The height of the side surface of the glass assembly (10) was measured. Further, the following step ((e) step) is simultaneously performed: the distance between the side surface of the glass assembly (10) and the nozzle (31) of the pump (30) is measured while moving along the side surface of the glass assembly (10).

如上所述的高度與距離的測定可利用一個視覺感測器(41)來執行，也可分別利用執行單獨的功能的視覺感測器(41)來執行。The determination of the height and distance as described above may be performed using one visual sensor (41), or separately using a visual sensor (41) that performs a separate function.

如上所述般測定的玻璃組裝體(10)側面的高度、與玻璃組裝體(10)側面與泵(30)的噴嘴(31)之間的距離即時傳達至移送部(50)，從而固定地維持泵(30)的噴嘴(31)與玻璃組裝體(10)側面之間的距離與高度。The height of the side surface of the glass assembly (10) measured as described above and the distance between the side surface of the glass assembly (10) and the nozzle (31) of the pump (30) are instantaneously transmitted to the transfer portion (50), thereby being fixedly The distance and height between the nozzle (31) of the pump (30) and the side of the glass assembly (10) are maintained.

在如上所述的狀態下，執行如下步驟((b)步驟)：一面沿玻璃組裝體(10)的側面移動泵(30)，一面向垂直於該玻璃組裝體(10)側面的方向塗敷被覆具有光硬化性的液狀樹脂(20)。In the state as described above, the following step ((b) step) is performed: the pump (30) is moved along the side of the glass assembly (10), and one surface is applied perpendicularly to the side of the glass assembly (10). A liquid resin (20) having photocurability is coated.

即時測定將通過如上所述的方法塗敷液狀樹脂(20)的部位的玻璃組裝體(10)側面的高度、與該側面與噴嘴(31)之間的距離。可一面利用所測定的值來調節噴嘴(31)的高度、與噴嘴(31)與玻璃組裝體(10)側面之間的距離，一面塗敷液狀樹脂(20)。The height of the side surface of the glass assembly (10) where the liquid resin (20) was applied by the method described above and the distance between the side surface and the nozzle (31) were measured in real time. The liquid resin (20) can be applied while adjusting the height of the nozzle (31) and the distance between the nozzle (31) and the side surface of the glass assembly (10) by the measured value.

液狀樹脂(20)使用具有如下程度的黏度的液狀樹脂(20)：即使對玻璃組裝體(10)的側面進行塗敷，該液狀樹脂(20)也不會流動而向下滴落。The liquid resin (20) uses a liquid resin (20) having a viscosity to the extent that even if the side surface of the glass assembly (10) is applied, the liquid resin (20) does not flow and drip downward. .

參照圖3，泵(30)較佳為使用如下所謂的噴射泵(30)(jet pump)：相比連續且以均勻的流量塗敷液狀樹脂(20)，以小液滴(droplet)為單位噴出而塗敷。此時，噴出的液狀樹脂(20)也可在每一次抽吸(pumping)時，以一個個小液滴為單位噴出而在玻璃組裝體(10)側面彼此連接。根據情況，也能夠 以如下方式塗敷：在一個個小液滴彼此不會斷開，且該小液滴的尾部(tail)不會從泵(30)的噴嘴(31)斷開的狀態下，噴嘴(31)水平移動而使下一個小液滴噴出，從而液狀樹脂(20)以液流(stream)形態噴出在玻璃組裝體(10)側面而彼此連續地連接。Referring to Fig. 3, the pump (30) preferably uses a so-called jet pump (30) in which a liquid resin (20) is applied continuously and at a uniform flow rate, with a droplet as a droplet. The unit is sprayed and coated. At this time, the liquid resin (20) to be ejected may be ejected in units of small droplets for each pumping, and connected to each other on the side surface of the glass assembly (10). According to the situation, it is also possible It is applied in such a manner that the nozzles (31) are in a state where the small droplets are not broken from each other, and the tail of the small droplets is not disconnected from the nozzle (31) of the pump (30). When the horizontal droplet is moved to eject the next small droplet, the liquid resin (20) is ejected in the form of a stream on the side surface of the glass assembly (10) to be continuously connected to each other.

如上所述般塗敷在玻璃組裝體(10)側面的液狀樹脂(20)與因黏性與表面張力鄰接的液狀樹脂(20)的小液滴連接，而最終如圖4所示或以類似於該圖4的形態被覆在玻璃組裝體(10)側面。The liquid resin (20) coated on the side of the glass assembly (10) as described above is connected to the small droplets of the liquid resin (20) adjacent to the viscous surface tension, and finally as shown in FIG. 4 or The side of the glass assembly (10) is covered in a form similar to that of Fig. 4.

泵(30)的噴嘴(31)的高度可維持為與玻璃組裝體(10)側面的高度相同，也可考慮當液狀樹脂(20)離開噴嘴(31)到達玻璃組裝體(10)的側面時可能下降的高度，維持為稍微高於玻璃組裝體(10)的側面。另外，在玻璃組裝體(10)側面的表面不均勻的情況下，如上所述般測定該側面的表面而使噴嘴(31)相對於該側面前進後退，並且固定地維持噴嘴(31)與側面之間的距離，由此具有如下優點：可固定地維持塗敷在玻璃組裝體(10)側面的液狀樹脂(20)的形狀。The height of the nozzle (31) of the pump (30) can be maintained at the same height as the side of the glass assembly (10), and it is also conceivable that when the liquid resin (20) leaves the nozzle (31) and reaches the side of the glass assembly (10) The height that may fall is maintained to be slightly higher than the side of the glass assembly (10). Further, when the surface of the side surface of the glass assembly (10) is not uniform, the surface of the side surface is measured as described above, and the nozzle (31) is moved forward and backward with respect to the side surface, and the nozzle (31) and the side surface are fixedly maintained. The distance between them has the advantage that the shape of the liquid resin (20) applied to the side of the glass assembly (10) can be fixedly maintained.

在未能固定地維持噴嘴(31)與玻璃組裝體(10)側面之間的距離與高度的情況下，不會維持被覆在玻璃組裝體(10)側面的液狀樹脂(20)的尺寸準確度，從而可能無法覆蓋玻璃組裝體的鋒利的側面、或液狀樹脂(20)被覆至無需被覆的區域的玻璃組裝體(10)上表面與下表面為止而產生不良。When the distance and height between the nozzle (31) and the side surface of the glass assembly (10) are not fixedly maintained, the size of the liquid resin (20) coated on the side of the glass assembly (10) is not maintained accurately. In this case, it may be impossible to cover the sharp side surface of the glass assembly or the liquid resin (20) to be applied to the upper surface and the lower surface of the glass assembly (10) in the region where the coating is not required.

玻璃組裝體(10)的厚度大多薄至1mm左右，因此即 使在之前說明的(a)步驟中，將玻璃組裝體(10)水平配置於治具上，也可產生因自身重量引起的變形而使玻璃組裝體(10)彎曲。在該情況下，可通過如上所述般固定地維持噴嘴(31)與玻璃組裝體(10)側面之間的距離與高度來提高品質。The thickness of the glass assembly (10) is usually as thin as about 1 mm, so In the step (a) described above, the glass assembly (10) is horizontally disposed on the jig, and the glass assembly (10) may be bent by deformation due to its own weight. In this case, the quality can be improved by maintaining the distance and height between the nozzle (31) and the side surface of the glass assembly (10) fixedly as described above.

在如上所述的狀態下，執行如下步驟((c)步驟)：利用設置在泵(30)的後方的燈(42)，向液狀樹脂(20)照射光，以使塗敷在玻璃組裝體(10)側面的該液狀樹脂(20)硬化。In the state as described above, the following step ((c) step) is performed: the liquid resin (20) is irradiated with light by a lamp (42) provided at the rear of the pump (30) to be coated in the glass assembly. The liquid resin (20) on the side of the body (10) is hardened.

將作為照射光的光源的燈(42)如圖2所示般結合於泵(30)而通過移送部(50)使其與泵(30)一同移動，由此可立即使通過泵(30)塗敷的液狀樹脂(20)硬化。通過如上所述的方法，可使液狀樹脂(20)不在玻璃組裝體(10)的側面流動而立即硬化。A lamp (42) as a light source for illuminating light is coupled to the pump (30) as shown in Fig. 2, and is moved together with the pump (30) by the transfer portion (50), whereby the passing pump (30) can be immediately used. The applied liquid resin (20) is hardened. By the method as described above, the liquid resin (20) can be prevented from flowing immediately on the side surface of the glass assembly (10).

另一方面，利用如圖2所示般在玻璃組裝體(10)的每個側面分別單獨具備的泵(30)、燈(42)、及視覺感測器(41)來執行作業，由此具有如下優點：可提高作業速度，且相對簡化用以實施本發明的薄膜電晶體液晶顯示面板製造方法的裝置的構成。On the other hand, the pump (30), the lamp (42), and the visual sensor (41) which are separately provided on each side surface of the glass assembly (10) are operated as shown in Fig. 2, whereby There is an advantage that the work speed can be increased, and the configuration of the apparatus for carrying out the method of manufacturing the thin film transistor liquid crystal display panel of the present invention is relatively simplified.

在如上所述般利用燈(42)使液狀樹脂(20)硬化後，還可追加性地實施如下的固化(curing)步驟：通過重新加熱或照射光等方法，完成塗敷在玻璃組裝體(10)側面的液狀樹脂(20)的硬化。After the liquid resin (20) is cured by the lamp (42) as described above, the following curing step may be additionally performed by applying a method such as reheating or irradiating light to the glass assembly. (10) Hardening of the liquid resin (20) on the side.

如上所述般以液狀樹脂(20)被覆玻璃組裝體(10)的側面並使其硬化，由此具有如下優點：不使鋒利地形成的玻 璃組裝體(10)的稜角向外部露出而確保使用者或消費者的安全。另外，具有如下優點：可通過液狀樹脂(20)的黏著力補充玻璃組裝體(10)的薄膜電晶體陣列玻璃(12)與彩色濾光片玻璃(11)之間的黏著力。另外，具有如下效果：通過液狀樹脂(20)的被覆硬化而完成的構造物，從背光產生的熱傳達至玻璃組裝體(10)，從而可防止玻璃組裝體(10)變形。As described above, the side surface of the glass assembly (10) is covered with the liquid resin (20) and hardened, thereby having the advantage that the glass which is not sharply formed is obtained. The corners of the glass assembly (10) are exposed to the outside to ensure the safety of the user or the consumer. Further, there is an advantage that the adhesion between the thin film transistor array glass (12) of the glass assembly (10) and the color filter glass (11) can be supplemented by the adhesion of the liquid resin (20). In addition, the structure obtained by the coating and hardening of the liquid resin (20) transmits heat generated from the backlight to the glass assembly (10), thereby preventing deformation of the glass assembly (10).

通過被覆液狀樹脂(20)，使玻璃組裝體(10)週邊的形狀在視覺上美觀，由此具有如下效果：不在玻璃組裝體(10)上設置其他框架或外殼而使玻璃組裝體(10)本身成為顯示裝置，從而可完成簡單、緊密且美感優異的設計。By coating the liquid resin (20), the shape around the glass assembly (10) is visually beautiful, and there is an effect that the glass assembly (10) is not provided on the glass assembly (10) by providing another frame or casing. It becomes a display device itself, so that a simple, compact, and aesthetically pleasing design can be completed.

以上，對實施本發明的薄膜電晶體液晶顯示面板製造方法的一例進行了說明，但本發明的範圍並不限定於之前說明圖示的形態。Although an example of the method of manufacturing the thin film transistor liquid crystal display panel of the present invention has been described above, the scope of the present invention is not limited to the form described above.

例如，視覺感測器也可設置在單獨地具備在玻璃組裝體上側的移送部作動，而並非如上所述般與泵設置於相同的移送部。For example, the visual sensor may be provided separately provided with a transfer portion on the upper side of the glass assembly, and is not provided in the same transfer portion as the pump as described above.

另外，之前說明為一面通過視覺感測器分別測定相對於玻璃組裝體側面的距離與高度，而固定地維持噴嘴與玻璃組裝體側面之間的距離與高度，一面進行作業，但也能夠以如下方式進行作業：不測定距離而僅測定高度來固定地維持該高度。In addition, although the distance and the height with respect to the side surface of the glass assembly are measured by the visual sensor, and the distance and height between the nozzle and the side surface of the glass assembly are fixedly maintained, the operation can be performed as follows. The work is performed in such a manner that the height is fixed only without measuring the distance, and the height is fixedly maintained.

另外，產生光的燈也同樣不設置於移送部而與泵一同移動，也可在向作業空間整體照射光的狀態下，通過泵塗 敷液狀樹脂使其硬化。Further, the lamp that generates light is also not moved to the transfer portion and moved together with the pump, and may be pumped in a state where the entire working space is irradiated with light. The liquid resin is applied to harden it.

10‧‧‧玻璃組裝體10‧‧‧glass assembly

11‧‧‧彩色濾光片玻璃11‧‧‧Color filter glass

12‧‧‧薄膜電晶體陣列玻璃12‧‧‧Film Array Glass

13、14‧‧‧膜13, 14‧ ‧ film

20‧‧‧液狀樹脂20‧‧‧Liquid resin

30‧‧‧泵30‧‧‧ pump

31‧‧‧噴嘴31‧‧‧Nozzles

41‧‧‧視覺感測器41‧‧‧Visual Sensor

42‧‧‧燈42‧‧‧ lights

50‧‧‧移送部50‧‧‧Transfer Department

圖1是用以實施本發明的薄膜電晶體液晶顯示面板製造方法的玻璃組裝體的剖面圖。BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a glass assembly for carrying out a method for producing a thin film transistor liquid crystal display panel of the present invention.

圖2是用以說明利用圖1所示的玻璃組裝體實施本發明的薄膜電晶體液晶顯示面板製造方法的一例的立體圖。FIG. 2 is a perspective view for explaining an example of a method of manufacturing the thin film transistor liquid crystal display panel of the present invention by using the glass assembly shown in FIG. 1.

圖3是用以說明向圖1所示的玻璃組裝體被覆液狀樹脂的過程的立體圖。Fig. 3 is a perspective view for explaining a process of coating a liquid resin to the glass assembly shown in Fig. 1;

圖4是表示在圖1所示的薄膜電晶體液晶顯示面板製造方法中，被覆液狀樹脂的狀態的剖面圖。4 is a cross-sectional view showing a state in which a liquid resin is coated in the method of manufacturing a thin film transistor liquid crystal display panel shown in FIG. 1 .

10‧‧‧玻璃組裝體10‧‧‧glass assembly

11‧‧‧彩色濾光片玻璃11‧‧‧Color filter glass

12‧‧‧薄膜電晶體陣列玻璃12‧‧‧Film Array Glass

13、14‧‧‧膜13, 14‧ ‧ film

20‧‧‧液狀樹脂20‧‧‧Liquid resin

Claims (8)

一種薄膜電晶體液晶顯示面板製造方法，其特徵在於包括如下步驟：(a)，水平配置接合有薄膜電晶體陣列玻璃與彩色濾光片玻璃的玻璃組裝體的步驟；(b)，一面沿所述玻璃組裝體的側面移動泵，一面向垂直於該玻璃組裝體側面的方向塗敷被覆具有光硬化性的液狀樹脂的步驟；(c)，向該液狀樹脂照射光，以使塗敷在所述玻璃組裝體側面的所述液狀樹脂硬化的步驟；(d)，一面沿所述玻璃組裝體的側面移動，一面測定所述玻璃組裝體側面的高度的步驟；且所述(b)步驟是一面根據在所述(d)步驟中測定的高度來調節所述泵的噴嘴的高度，一面塗敷所述光硬化樹脂。 A method for manufacturing a thin film transistor liquid crystal display panel, comprising the steps of: (a) horizontally arranging a glass assembly in which a thin film transistor array glass and a color filter glass are bonded; and (b) a side moving pump of the glass assembly, a step of coating a liquid resin coated with photocurability in a direction perpendicular to a side surface of the glass assembly; (c) irradiating the liquid resin with light to apply the coating a step of curing the liquid resin on a side surface of the glass assembly; (d) a step of measuring a height of a side surface of the glass assembly while moving along a side surface of the glass assembly; and the (b) The step is to apply the photohardenable resin while adjusting the height of the nozzle of the pump according to the height measured in the step (d). 如申請專利範圍第1項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於：所述(b)步驟是通過所述(d)步驟來即時測定將塗敷所述液狀樹脂的部位的所述玻璃組裝體側面的高度，而調節所述噴嘴的高度。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 1, wherein the step (b) is to immediately determine a portion to which the liquid resin is to be applied by the step (d). The height of the side of the glass assembly is adjusted to the height of the nozzle. 如申請專利範圍第1項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於更包括如下步驟：(e)，一面沿所述玻璃組裝體的側面移動，一面測定所述玻璃組裝體側面與所述泵的噴嘴之間的距離的步驟；且所述(b)步驟一面根據在所述(e)步驟中測定的距離來 固定地維持所述噴嘴與所述玻璃組裝體側面之間的距離，一面塗敷所述光硬化樹脂。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 1, further comprising the step of: (e) measuring the side of the glass assembly while moving along a side surface of the glass assembly; a step of the distance from the nozzle of the pump; and the step (b) is based on the distance measured in the step (e) The photocurable resin is applied while maintaining the distance between the nozzle and the side surface of the glass assembly. 如申請專利範圍第3項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於：所述(b)步驟是通過所述(e)步驟來即時測定將塗敷所述液狀樹脂的部位的所述玻璃組裝體側面與所述泵的噴嘴之間的距離，而調節所述噴嘴與所述玻璃組裝體側面之間的距離。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 3, wherein the step (b) is to immediately determine a portion to which the liquid resin is to be applied by the step (e). The distance between the side of the glass assembly and the nozzle of the pump adjusts the distance between the nozzle and the side of the glass assembly. 如申請專利範圍第1或2項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於：所述(c)步驟是將照射所述光的光源結合於執行所述(b)步驟的所述泵而與所述泵一同移動來執行。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 1 or 2, wherein the step (c) is a step of bonding a light source that illuminates the light to a step of performing the step (b). The pump is moved with the pump to perform. 如申請專利範圍第1或2項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於：在所述(b)步驟中塗敷的所述液狀樹脂為紫外線硬化樹脂，在所述(c)步驟中照射的所述光為紫外線。 The method for producing a thin film transistor liquid crystal display panel according to claim 1 or 2, wherein the liquid resin applied in the step (b) is an ultraviolet curing resin, in the (c) The light irradiated in the step is ultraviolet light. 如申請專利範圍第1或2項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於：所述(b)步驟是通過所述泵以點為單位塗敷所述液狀樹脂，而該液狀樹脂在所述玻璃組裝體的側面彼此連接，由此被覆在該玻璃組裝體的側面。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 1 or 2, wherein the step (b) is: applying the liquid resin by a point in units of the pump, and The liquid resin is connected to each other on the side faces of the glass assembly, thereby being coated on the side surface of the glass assembly. 如申請專利範圍第1或2項所述之薄膜電晶體液晶顯示面板製造方法，其特徵在於： 所述(b)步驟是利用各個單獨的泵，分別向所述玻璃組裝體的各個側面被覆所述液狀樹脂。 The method for manufacturing a thin film transistor liquid crystal display panel according to claim 1 or 2, characterized in that: In the step (b), the liquid resin is coated on each side of the glass assembly by using separate pumps.