TWI699884B - Tiled display - Google Patents

Abstract

A tiled display includes at least two display panels and a mechanical piece. Each display panel is provided with a data line and a scan line. The mechanical piece bears at least two display panels and changes the position of at least two display panels between the first relative position and the second relative position. Wherein, in the first relative position, at least two panels are tiled with each other and the data line or scan line corresponding to each display panel are electrically connected with each other. In the second relative position, at least two panels are separated from each other and the data line or scan line corresponding to each display panel are electrically insulated from each other.

Description

拼接式顯示器 Spliced display

本發明關於一種顯示器，特別是一種拼接式的顯示器。 The invention relates to a display, in particular to a spliced display.

一般而言，可撓性顯示器通常利用可撓性基板來使其具有可彎曲性、柔軟性以及可捲曲性，因此，可撓性顯示器可讓使用者加以彎曲或折疊。然而，可撓性基板根據其材料特性具有固定的楊氏模量，若彎曲力超過楊氏模量，可撓性顯示面板無法恢復成原本的平整模樣；亦即，若過度彎曲可撓性顯示器，可撓性顯示器因無法承受過度彎曲而導致其破損或無法恢復成平整，如何解決前述癥結點，遂成為待解決的問題。 Generally speaking, a flexible display usually uses a flexible substrate to make it bendable, flexible, and rollable. Therefore, the flexible display can be bent or folded by a user. However, the flexible substrate has a fixed Young's modulus according to its material properties. If the bending force exceeds the Young's modulus, the flexible display panel cannot be restored to its original flat appearance; that is, if the flexible display is excessively bent Since the flexible display cannot withstand excessive bending, it is damaged or cannot be restored to a flat state. How to solve the aforementioned crux has become a problem to be solved.

綜觀前所述，本發明之發明者思索並設計一種拼接式顯示器，以期針對習知技術之缺失加以改善，進而增進產業上之實施利用。 In summary, the inventor of the present invention thought about and designed a spliced display, in order to improve the deficiency of the conventional technology, and further enhance the industrial application.

有鑑於上述習知之問題，本發明的目的在於提供一種拼接式顯示器，用以解決習知技術中所面臨之問題。 In view of the above-mentioned conventional problems, the purpose of the present invention is to provide a spliced display to solve the problems faced by the conventional technology.

基於上述目的，本發明提供一種拼接式顯示器，其包括至少二顯示面板以及機構件。各顯示面板具有資料線或掃描線。機構件係承載至少二顯示面板，機構件係使至少二顯示面板於第一相對位置狀態及第二相對位置狀態 之間變換。其中，於第一相對位置狀態中，至少二顯示面板係彼此拼接，且各顯示面板相對應之資料線或掃描線係彼此電性導通；於第二相對位置狀態中，至少二顯示面板係彼此分離，且各顯示面板相對應之資料線或掃描線係彼此電性隔絕。透過前述的機制，各顯示面板相對應之資料線或掃描線係彼此電性導通，使各顯示面板互相電性連接，且不會有可撓性顯示面板之因過度彎曲而破損之問題。 Based on the above objective, the present invention provides a spliced display, which includes at least two display panels and mechanical components. Each display panel has data lines or scan lines. The mechanism component carries at least two display panels, and the mechanism component makes the at least two display panels in a first relative position state and a second relative position state Change between. Wherein, in the first relative position state, at least two display panels are joined to each other, and the data lines or scan lines corresponding to each display panel are electrically connected to each other; in the second relative position state, at least two display panels are connected to each other The data lines or scan lines corresponding to each display panel are electrically isolated from each other. Through the aforementioned mechanism, the data lines or scan lines corresponding to the display panels are electrically connected to each other, so that the display panels are electrically connected to each other, and there is no problem of the flexible display panel being damaged due to excessive bending.

較佳地，各顯示面板的邊緣具有連接部，各連接部對應設置而互相契合。 Preferably, the edge of each display panel has a connecting portion, and each connecting portion is arranged correspondingly to fit each other.

較佳地，各連接部的至少其中之一和各資料線或掃描線處於相同膜層。 Preferably, at least one of the connecting portions and each data line or scan line are in the same film layer.

較佳地，各連接部的至少其中之一和各資料線或掃描線處於不同膜層。 Preferably, at least one of the connecting portions and each data line or scan line are in different film layers.

較佳地，各連接部具有段差結構，段差結構由絕緣層及相對絕緣層較為突伸之另一絕緣層形成，而資料線或掃描線係設置於絕緣層與另一絕緣層之間，而延伸至另一絕緣層之表面。 Preferably, each connecting portion has a stepped structure. The stepped structure is formed by an insulating layer and another insulating layer that is relatively protruding from the insulating layer, and the data line or scan line is arranged between the insulating layer and the other insulating layer and extends To the surface of another insulating layer.

較佳地，各連接部具有金屬導電層或導電膠層，金屬導電層或導電膠層係覆蓋資料線或掃描線，且於第一相對位置狀態中，資料線或掃描線係藉由金屬導電層或導電膠層相互電性連接。 Preferably, each connecting portion has a metal conductive layer or a conductive adhesive layer, the metal conductive layer or conductive adhesive layer covers the data line or the scan line, and in the first relative position state, the data line or the scan line is conductive by metal The layers or conductive adhesive layers are electrically connected to each other.

較佳地，金屬導電層為與顯示面板之發光元件的陽極或陰極為同一膜層。 Preferably, the metal conductive layer is the same film layer as the anode or cathode of the light-emitting element of the display panel.

較佳地，各連接部具有凸部結構及凹部結構，而資料線或掃描線 係設置於凸部結構及凹部結構之間，而延伸至凸部結構之表面。 Preferably, each connecting portion has a convex structure and a concave structure, and the data line or the scan line It is arranged between the convex structure and the concave structure, and extends to the surface of the convex structure.

較佳地，凸部結構具有金屬導電層或導電膠層，金屬導電層或導電膠層係覆蓋資料線或掃描線，且於第一相對位置狀態中，資料線或掃描線係藉由金屬導電層或導電膠層相互電性連接。 Preferably, the convex structure has a metal conductive layer or a conductive adhesive layer, the metal conductive layer or the conductive adhesive layer covers the data line or the scan line, and in the first relative position state, the data line or the scan line is conductive by metal The layers or conductive adhesive layers are electrically connected to each other.

較佳地，金屬導電層為與顯示面板之發光元件的陽極或陰極為同一膜層。 Preferably, the metal conductive layer is the same film layer as the anode or cathode of the light-emitting element of the display panel.

較佳地，各顯示面板更包括觸控感測器，各觸控感測器具有觸控連接部，各觸控連接部對應設置而互相契合。 Preferably, each display panel further includes a touch sensor, and each touch sensor has a touch connection portion, and each touch connection portion is correspondingly arranged to fit with each other.

較佳地，各觸控感測器相對應的觸控連接部互相連接而共用二觸控感測器之其一的驅動器。 Preferably, the touch connection parts corresponding to each touch sensor are connected to each other to share a driver of one of the two touch sensors.

較佳地，各顯示面板更包括側向阻水層，以側向密封各顯示面板，進而側向阻擋水氣或雜質進入顯示面板的發光元件。 Preferably, each display panel further includes a lateral water blocking layer to laterally seal each display panel, thereby laterally blocking moisture or impurities from entering the light-emitting elements of the display panel.

較佳地，於第一相對位置狀態中，各顯示面板相對應之資料線互相連接而共用至少二顯示面板之其一的資料線驅動器。 Preferably, in the first relative position state, the data lines corresponding to each display panel are connected to each other to share the data line driver of one of the at least two display panels.

較佳地，於第一相對位置狀態中，各顯示面板相對應之掃描線互相連接而共用至少二顯示面板之其一的掃描線驅動器。 Preferably, in the first relative position state, the scan lines corresponding to each display panel are connected to each other to share the scan line driver of one of the at least two display panels.

承上所述，本發明之拼接式顯示器，透過機構件使各顯示面板彼此連接，各顯示面板相對應之資料線或掃描線係彼此電性導通，各顯示面板從而彼此電性連接，且不會有可撓性顯示面板之因過度彎曲而破損之問題。 As mentioned above, in the spliced display of the present invention, the display panels are connected to each other through mechanical components, the data lines or scan lines corresponding to each display panel are electrically connected to each other, and the display panels are thus electrically connected to each other without There may be a problem of damage to the flexible display panel due to excessive bending.

10:機構件 10: Mechanical parts

11:轉軸 11: shaft

20:連接部 20: Connection part

21:金屬導電層 21: Metal conductive layer

22:導電膠層 22: conductive adhesive layer

23:側向阻水層 23: Lateral water blocking layer

A:第一顯示面板 A: The first display panel

A1:第三顯示面板 A1: The third display panel

A2:第五顯示面板 A2: Fifth display panel

Anode:陽極 Anode: anode

B:第二顯示面板 B: Second display panel

B1:第四顯示面板 B1: The fourth display panel

B2:第六顯示面板 B2: The sixth display panel

Buffer:緩衝層 Buffer: buffer layer

C:第七顯示面板 C: Seventh display panel

C1:第八顯示面板 C1: Eighth display panel

C2:第九顯示面板 C2: Ninth display panel

Cathode:陰極 Cathode: Cathode

CCS:凹部結構 CCS: concave structure

CVS:凸部結構 CVS: Convex structure

D:汲極 D: Dip pole

DL:資料線 DL: Data line

Data Driver 1、Data Driver 2、Data Driver 3:資料線驅動器 Data Driver 1, Data Driver 2, Data Driver 3: Data Line Driver

G:閘極 G: Gate

Gate Driver 1、Gate Driver 2、Gate Driver 3、Gate Driver 4、Gate Driver 7:掃描線驅動器 Gate Driver 1, Gate Driver 2, Gate Driver 3, Gate Driver 4, Gate Driver 7: Scan line driver

GI1、GI2、ILD、IL1、IL2、IOBP1、IOBP2:絕緣層 GI1, GI2, ILD, IL1, IL2, IOBP1, IOBP2: insulating layer

M1、M2:金屬層 M1, M2: Metal layer

OLED:有機發光二極體 OLED: organic light emitting diode

PDL:像素定義層 PDL: Pixel Definition Layer

PF:保護膜 PF: Protective film

PI:基板 PI: Substrate

PL:平坦層 PL: Flat layer

PS:間隙柱 PS: Clearance column

Rx Driver 1、Rx Driver 2:接收端驅動器 Rx Driver 1, Rx Driver 2: Receiver driver

S:源極 S: source

SL:掃描線 SL: scan line

SS:段差結構 SS: Step structure

S11~S13:步驟 S11~S13: steps

TC:觸控連接部 TC: Touch connection part

TFE:薄膜封裝層 TFE: thin film encapsulation layer

TPA、TPB:觸控感測器 TPA, TPB: touch sensor

Tx Driver 1、Tx Driver 2:傳輸端驅動器 Tx Driver 1, Tx Driver 2: Transmission end driver

T1、T2:電晶體 T1, T2: Transistor

VDD:高電壓端 VDD: high voltage terminal

VSS:低電壓端 VSS: low voltage side

第1圖為有機發光二極體顯示器之結構示意圖。 Figure 1 is a schematic diagram of the structure of an organic light emitting diode display.

第2圖為有機發光二極體之控制電路示意圖。 Figure 2 is a schematic diagram of the control circuit of the organic light emitting diode.

第3圖為本發明之拼接顯示器之第一實施例之結構示意圖。 FIG. 3 is a schematic structural diagram of the first embodiment of the spliced display of the present invention.

第4a圖為本發明之拼接顯示器之第一實施例於第一相對位置的示意圖。 Figure 4a is a schematic diagram of the first embodiment of the spliced display of the present invention at the first relative position.

第4b圖為本發明之拼接顯示器之第一實施例於第二相對位置的示意圖。 Fig. 4b is a schematic diagram of the first embodiment of the spliced display of the present invention at the second relative position.

第5圖為本發明之拼接顯示器之第二實施例之結構示意圖。 FIG. 5 is a schematic structural diagram of the second embodiment of the spliced display of the present invention.

第6圖為本發明之拼接顯示器之第三實施例之結構示意圖。 FIG. 6 is a schematic diagram of the structure of the third embodiment of the spliced display of the present invention.

第7圖為本發明之拼接顯示器之第四實施例之結構示意圖。 FIG. 7 is a schematic structural diagram of the fourth embodiment of the spliced display of the present invention.

第8圖為本發明之拼接顯示器之製作流程圖。 Figure 8 is a flow chart of the spliced display of the present invention.

第9圖為本發明之拼接顯示器之拼接面板之第一態樣的示意圖。 FIG. 9 is a schematic diagram of the first aspect of the splicing panel of the splicing display of the present invention.

第10圖為本發明之拼接顯示器之拼接面板之第二態樣的示意圖。 FIG. 10 is a schematic diagram of the second aspect of the spliced panel of the spliced display of the present invention.

第11圖為本發明之拼接顯示器之拼接面板之第三態樣的示意圖。 FIG. 11 is a schematic diagram of the third aspect of the spliced panel of the spliced display of the present invention.

第12圖為本發明之拼接顯示器之拼接面板之第四態樣的示意圖。 FIG. 12 is a schematic diagram of the fourth aspect of the splicing panel of the splicing display of the present invention.

第13圖為本發明之拼接顯示器之拼接面板之第五態樣的示意圖。 FIG. 13 is a schematic diagram of the fifth aspect of the spliced panel of the spliced display of the present invention.

第14圖和第15圖為本發明之拼接顯示器之第五實施例之結構示意圖。 Figures 14 and 15 are schematic views of the structure of the fifth embodiment of the spliced display of the present invention.

第16圖為本發明之拼接顯示器之拼接面板之第六態樣的示意圖。 FIG. 16 is a schematic diagram of the sixth aspect of the spliced panel of the spliced display of the present invention.

本發明之優點、特徵以及達到之技術方法將參照例示性實施例及所附圖式進行更詳細地描述而更容易理解，且本發明可以不同形式來實現，故 不應被理解僅限於此處所陳述的實施例，相反地，對所屬技術領域具有通常知識者而言，所提供的實施例將使本揭露更加透徹與全面且完整地傳達本發明的範疇，且本發明將僅為所附加的申請專利範圍所定義。 The advantages, features, and technical methods of the present invention will be described in more detail with reference to the exemplary embodiments and the accompanying drawings for easier understanding, and the present invention can be implemented in different forms, so It should not be understood to be limited to the embodiments set forth herein. On the contrary, for those with ordinary knowledge in the technical field, the provided embodiments will make this disclosure more thorough, comprehensive and complete to convey the scope of the present invention, and The present invention will only be defined by the scope of the appended patent application.

應當理解的是，儘管術語「第一」、「第二」等在本發明中可用於描述各種元件、部件、區域、層及/或部分，但是這些元件、部件、區域、層及/或部分不應受這些術語的限制。這些術語僅用於將一個元件、部件、區域、層及/或部分與另一個元件、部件、區域、層及/或部分區分開。因此，下文討論的「第一元件」、「第一部件」、「第一區域」、「第一層」及/或「第一部分」可以被稱為「第二元件」、「第二部件」、「第二區域」、「第二層」及/或「第二部分」，而不悖離本發明的精神和教示。 It should be understood that although the terms "first", "second", etc. can be used to describe various elements, components, regions, layers and/or parts in the present invention, these elements, components, regions, layers and/or parts Should not be restricted by these terms. These terms are only used to distinguish one element, component, region, layer and/or section from another element, component, region, layer and/or section. Therefore, the “first element”, “first part”, “first area”, “first layer” and/or “first part” discussed below can be referred to as “second element”, “second part” , "Second Area", "Second Layer" and/or "Second Part" without departing from the spirit and teachings of the present invention.

另外，術語「包括」及/或「包含」指所述特徵、區域、整體、步驟、操作、元件及/或部件的存在，但不排除一個或多個其他特徵、區域、整體、步驟、操作、元件、部件及/或其組合的存在或添加。 In addition, the terms "including" and/or "including" refer to the existence of the features, regions, wholes, steps, operations, elements and/or components, but do not exclude one or more other features, regions, wholes, steps, operations , The presence or addition of elements, components, and/or combinations thereof.

除非另有定義，本發明所使用的所有術語(包括技術和科學術語)具有與本發明所屬技術領域的普通技術人員通常理解的相同含義。將進一步理解的是，諸如在通常使用的字典中定義的那些術語應當被解釋為具有與它們在相關技術和本發明的上下文中的含義一致的定義，並且將不被解釋為理想化或過度正式的意義，除非本文中明確地這樣定義。 Unless otherwise defined, all terms (including technical and scientific terms) used in the present invention have the same meanings as commonly understood by those of ordinary skill in the technical field to which the present invention belongs. It will be further understood that terms such as those defined in commonly used dictionaries should be interpreted as having definitions consistent with their meanings in the context of related technologies and the present invention, and will not be interpreted as idealized or overly formal Unless explicitly defined as such in this article.

請參閱第1圖及第2圖，其分別為有機發光二極體顯示器之結構示意圖以及有機發光二極體之控制電路示意圖。如第1圖所示，有機發光二極體顯示器包括基板PI、緩衝層Buffer、絕緣層GI和GI2、絕緣層IL1、IL2及ILD、具有汲極D、閘極G、源極S、具摻雜區組成的多晶矽Poly之電晶體、平坦化層PL、 陽極Anode、有機發光二極體OLED、陰極Cathode、像素定義層PDL、間隙柱PS、薄膜封裝層TFE以及保護膜PF。舉例而言，緩衝層Buffer至絕緣層IL2的位置順序為從緩衝層Buffer依序至於其上，電晶體位於緩衝層Buffer和絕緣層IL2之間，電晶體具有汲極D、閘極G、源極S以及具有摻雜區組成的多晶矽Poly，M1和M2分別為閘極G、源極S、汲極D所具有的金屬層，閘極G和掃描線SL相連，源極S和資料線DL相連，且於此實施例中源極S和資料線DL屬同一膜層直接連接。需說明的是，於第一圖中之剖面，並非為同一剖面，而為省略部分元件之結構之側視示意圖，舉例而言，圖中的掃描線SL和訊號線DL並非位於同一剖面，例如可位於前後剖面。電晶體例如為p型或n型，電晶體可包括薄膜電晶體(thin film transistor,TFT)、底閘極式(bottom-gate)電晶體、頂閘極式(top-gate)電晶體、立體式的電晶體(vertical TFT)，當然也可為其他合適的電晶體，並未侷限於本發明所列舉的範圍；平坦層PL設置於絕緣層IL2上以平坦化絕緣層IL2的表面，像素定義層PDL及有機發光二極體OLED分別位於平坦層PL上，像素定義層PDL則定義以有機發光二極體OLED的顯示區；有機發光二極體OLED的陽極Anode和汲極D電性連接以讓電晶體控制，有機發光二極體OLED的陰極Cathode設置於有機發光二極體OLED上，間隙柱PS間隔設置於有機發光二極體OLED的陰極Cathode和像素定義層PDL之間，而薄膜封裝層TFE設置於有機發光二極體OLED的陰極Cathode上，薄膜封裝層TFE例如可為包括有機層和無機層堆疊之膜層，無機層可阻擋水氣及雜質進入有機發光二極體OLED，而有機層可覆蓋無機層的凹凸表面以平坦化無機層的表面，以及保護膜PF設置於薄膜封裝層TFE上以保護有機發光二極體顯示器免於損害。 Please refer to Figure 1 and Figure 2, which are a schematic diagram of the structure of an organic light emitting diode display and a schematic diagram of the control circuit of the organic light emitting diode, respectively. As shown in Figure 1, the organic light emitting diode display includes a substrate PI, a buffer layer Buffer, insulating layers GI and GI2, insulating layers IL1, IL2, and ILD, with drain D, gate G, source S, and doped Polysilicon Poly transistor composed of miscellaneous regions, planarization layer PL, Anode, organic light-emitting diode OLED, cathode Cathode, pixel definition layer PDL, gap pillar PS, thin film encapsulation layer TFE and protective film PF. For example, the position sequence of the buffer layer Buffer to the insulating layer IL2 is from the buffer layer Buffer to the upper layer. The transistor is located between the buffer layer Buffer and the insulating layer IL2. The transistor has a drain D, a gate G, and a source. The electrode S and the polysilicon Poly composed of doped regions, M1 and M2 are the metal layers of the gate G, source S, and drain D respectively. The gate G is connected to the scan line SL, and the source S is connected to the data line DL Connected, and in this embodiment, the source S and the data line DL are directly connected to the same film layer. It should be noted that the cross-section in the first figure is not the same cross-section, but is a schematic side view of the structure with some components omitted. For example, the scan line SL and the signal line DL in the figure are not in the same cross-section, such as Can be located in front and rear profiles. The transistor is, for example, p-type or n-type, and the transistor may include thin film transistor (TFT), bottom-gate transistor, top-gate transistor, three-dimensional The vertical TFT of the formula, of course, can also be other suitable transistors, and is not limited to the scope of the present invention; the flattening layer PL is disposed on the insulating layer IL2 to flatten the surface of the insulating layer IL2, and the pixel definition The layer PDL and the organic light emitting diode OLED are respectively located on the flat layer PL, and the pixel definition layer PDL defines the display area of the organic light emitting diode OLED; the anode Anode and the drain D of the organic light emitting diode OLED are electrically connected to Let the transistor control, the cathode Cathode of the organic light-emitting diode OLED is arranged on the organic light-emitting diode OLED, the gap column PS is arranged at intervals between the cathode cathode of the organic light-emitting diode OLED and the pixel definition layer PDL, and the thin film encapsulation The layer TFE is disposed on the cathode Cathode of the organic light-emitting diode OLED. The thin-film encapsulation layer TFE can be, for example, a film layer including an organic layer and an inorganic layer stack. The inorganic layer can block moisture and impurities from entering the organic light-emitting diode OLED, and The organic layer may cover the uneven surface of the inorganic layer to flatten the surface of the inorganic layer, and the protective film PF is disposed on the thin film encapsulation layer TFE to protect the organic light emitting diode display from damage.

如第2圖所示，單顆有機發光二極體OLED利用兩個電晶體T1和T2控制。其中，電晶體T1的閘極G連接掃描線SL，電晶體T1的源極S連接資料線DL，電晶體T1的汲極D連接電晶體T2的閘極G，電晶體T2的汲極D連接有機發光二極體OLED的一端，電晶體T2的源極S連接高電壓端VDD，有機發光二極體OLED的另一端連接低電壓端VSS。透過前述的電路配置，有機發光二極體OLED能根據掃描線SL和資料線DL的控制而發光。 As shown in Figure 2, a single organic light emitting diode OLED is controlled by two transistors T1 and T2. Among them, the gate G of the transistor T1 is connected to the scan line SL, the source S of the transistor T1 is connected to the data line DL, the drain D of the transistor T1 is connected to the gate G of the transistor T2, and the drain D of the transistor T2 is connected One end of the organic light emitting diode OLED, the source S of the transistor T2 is connected to the high voltage terminal VDD, and the other end of the organic light emitting diode OLED is connected to the low voltage terminal VSS. Through the aforementioned circuit configuration, the organic light emitting diode OLED can emit light according to the control of the scan line SL and the data line DL.

前述段落僅為陳述有機發光二極體顯示器之組成，以方便後面段落說明，當然也能根據實際所需加以調整發光二極體顯示器所具有的膜層或控制電路，而非侷限於本發明所列舉的範圍。舉例而言，本發明不限於有機發光二極體顯示器，於其他實施例中，例如可為無機發光二極體顯示器、量子點發光顯示器等，於此不再贅述。舉例而言，本發明不限於2T1C的控制電路，於其他實施例中，例如可為3T1C的架構、3T2C的架構、4T1C的架構、4T2C的架構、5T1C的架構、5T2C的架構、6T1C的架構、6T2C的架構、7T2C的架構等，於此不再贅述。 The foregoing paragraphs only state the composition of the organic light-emitting diode display for the convenience of the following paragraphs. Of course, the film or control circuit of the light-emitting diode display can also be adjusted according to actual needs, and is not limited to the present invention. Enumerated range. For example, the present invention is not limited to organic light-emitting diode displays. In other embodiments, it may be inorganic light-emitting diode displays, quantum dot light-emitting displays, etc., which will not be repeated here. For example, the present invention is not limited to 2T1C control circuits. In other embodiments, for example, 3T1C architecture, 3T2C architecture, 4T1C architecture, 4T2C architecture, 5T1C architecture, 5T2C architecture, 6T1C architecture, The architecture of 6T2C, 7T2C, etc. will not be repeated here.

請參閱第3圖、第4a圖以及第4b圖，其分別為本發明之拼接顯示器之第一實施例之結構示意圖為本發明之拼接顯示器之第一實施例於第一相對位置的示意圖以及本發明之拼接顯示器之第一實施例於第二相對位置的示意圖。如第3圖、第4a圖和第4b圖所示，將有機發光二極體顯示器分為第一顯示面板A和第二顯示面板B，第一顯示面板A和第二顯示面板B皆具有連接部20、段差結構SS、資料線DL以及掃描線SL。詳言之，一個連接部20設置於第一顯示面板A之欲和第二顯示面板B接合之邊緣，另一個連接部20設置於第二顯示面板B之欲和第一顯示面板A接合之邊緣，透過連接部20的對應設置，使第 一顯示面板A和第二顯示面板B彼此電性連接。各連接部20可具有金屬導電層21或導電膠層(未繪示)，以覆蓋資料線DL或掃描線SL並和其電性連接。於此實施例中，第一顯示面板A的掃描線SL具連接部20且連接部20具有金屬導電層21，和第二顯示面板B的掃描線SL的連接部20電性連接。金屬導電層21可由作為有機發光二極體OLED的陰極cathode之膜層所形成，即金屬導電層21和有機發光二極體OLED的陰極cathode屬於同一膜層。具體而言，段差結構SS由絕緣層IL1所形成，第一顯示面板A之連接部20位於絕緣層ILD和IL1之間。第二顯示面板B之連接部20位於絕緣層IL2和IL1之間，因而形成段差結構SS。亦即，第一顯示面板A之連接部20設置於段差結構SS，同樣地，第二顯示面板B之連接部20設置於段差結構SS。且，第一顯示面板A之掃描線SL位於絕緣層ILD和IL1之間，第一顯示面板A之掃描線SL於絕緣層ILD的表面延伸，第二顯示面板B之掃描線SL位於絕緣層IL1和IL2之間，且於絕緣層IL1的表面延伸，第一顯示面板A之掃描線SL被金屬導電層21覆蓋。第一顯示面板A和第二顯示面板B之連接部20為對應設置並相互契合。換句話說，於此實施例中，第一顯示面板A之連接部20和其資料線DL或掃描線SL處於不同膜層，第二顯示面板B之連接部20和其掃描線SL處於不同膜層。 Please refer to FIG. 3, FIG. 4a and FIG. 4b, which are the structural schematic diagrams of the first embodiment of the spliced display of the present invention, respectively, are the schematic diagrams of the first embodiment of the spliced display of the present invention in the first relative position and the present invention. A schematic diagram of the first embodiment of the spliced display of the invention in the second relative position. As shown in Figure 3, Figure 4a, and Figure 4b, the organic light emitting diode display is divided into a first display panel A and a second display panel B. Both the first display panel A and the second display panel B have connections Section 20, step structure SS, data line DL and scan line SL. In detail, one connecting portion 20 is disposed on the edge of the first display panel A to be joined to the second display panel B, and the other connecting portion 20 is disposed on the edge of the second display panel B to be joined to the first display panel A , Through the corresponding setting of the connecting part 20, the first A display panel A and a second display panel B are electrically connected to each other. Each connection portion 20 may have a metal conductive layer 21 or a conductive adhesive layer (not shown) to cover the data line DL or the scan line SL and be electrically connected to it. In this embodiment, the scan line SL of the first display panel A has a connection portion 20 and the connection portion 20 has a metal conductive layer 21, and is electrically connected to the connection portion 20 of the scan line SL of the second display panel B. The metal conductive layer 21 may be formed by a film layer serving as the cathode cathode of the organic light emitting diode OLED, that is, the metal conductive layer 21 and the cathode cathode of the organic light emitting diode OLED belong to the same film layer. Specifically, the step structure SS is formed by the insulating layer IL1, and the connecting portion 20 of the first display panel A is located between the insulating layer ILD and IL1. The connecting portion 20 of the second display panel B is located between the insulating layers IL2 and IL1, thus forming a step structure SS. That is, the connecting portion 20 of the first display panel A is disposed on the level difference structure SS, and similarly, the connecting portion 20 of the second display panel B is disposed on the level difference structure SS. Also, the scan line SL of the first display panel A is located between the insulating layer ILD and IL1, the scan line SL of the first display panel A extends on the surface of the insulating layer ILD, and the scan line SL of the second display panel B is located on the insulating layer IL1 Between IL2 and IL2 and extending on the surface of the insulating layer IL1, the scan line SL of the first display panel A is covered by the metal conductive layer 21. The connecting portions 20 of the first display panel A and the second display panel B are correspondingly arranged and fit with each other. In other words, in this embodiment, the connecting portion 20 of the first display panel A and its data line DL or scan line SL are in different layers, and the connecting portion 20 of the second display panel B and its scan line SL are in different layers. Floor.

於一實施例中，第一顯示面板A和第二顯示面板B可透過機構件10的轉軸11於第一相對位置狀態(如第4a圖)及第二相對位置狀態(如第4b圖)之間變換。其中，於第一相對位置狀態中，第一顯示面板A如第4a圖所示透過機構件10的轉軸11而和第二顯示面板B拼接，使第一顯示面板A和第二顯示面板B之資料線DL或掃描線SL透過金屬導電層21或導電膠層係彼此電性導通；於第二相對位置狀態中，第一顯示面板A如第4b圖所示透過機構件10的轉軸11而和第二顯示面板B分離，使第一顯示面板A和第二顯示面板B之資料線DL或掃描線SL係彼此電 性隔絕。雖然如第3圖所示應為第一顯示面板A和第二顯示面板B之掃描線SL相連，但也可為第一顯示面板A和第二顯示面板B之資料線DL相連，而未侷限於本發明所列舉的範圍。 In one embodiment, the first display panel A and the second display panel B can be moved between the first relative position state (as shown in Figure 4a) and the second relative position state (as shown in Figure 4b) through the shaft 11 of the mechanical component 10 Between changes. Wherein, in the first relative position state, the first display panel A is spliced with the second display panel B through the shaft 11 of the mechanism 10 as shown in Figure 4a, so that the first display panel A and the second display panel B are The data lines DL or the scan lines SL are electrically connected to each other through the metal conductive layer 21 or the conductive adhesive layer; in the second relative position state, the first display panel A is connected through the rotating shaft 11 of the mechanical component 10 as shown in FIG. 4b The second display panel B is separated so that the data lines DL or scan lines SL of the first display panel A and the second display panel B are electrically connected to each other Sexual isolation. Although the scan line SL of the first display panel A and the second display panel B should be connected as shown in Fig. 3, the data line DL of the first display panel A and the second display panel B can also be connected without limitation. Within the scope of the present invention.

在一實施例中，第一顯示面板A或第二顯示面板B之連接部20和各資料線DL或掃描線SL處於相同膜層。在另一實施例中，第一顯示面板A或第二顯示面板B之連接部20和各資料線DL或掃描線SL處於不同膜層。即，第一顯示面板A或第二顯示面板B之連接部20的其中之一和其資料線或該掃描線處於相同膜層。在另一實施例中，第一顯示面板A或第二顯示面板B之連接部20的其中之一和各該資料線或該掃描線處於不同膜層。當然可根據實際所需調整各連接部20所設置的位置，並未侷限於本發明所列舉的範圍。 In one embodiment, the connecting portion 20 of the first display panel A or the second display panel B and each data line DL or scan line SL are in the same film layer. In another embodiment, the connecting portion 20 of the first display panel A or the second display panel B and each data line DL or scan line SL are in different layers. That is, one of the connecting portions 20 of the first display panel A or the second display panel B and the data line or the scan line are in the same film layer. In another embodiment, one of the connecting portions 20 of the first display panel A or the second display panel B and each of the data lines or the scan lines are in different layers. Of course, the positions of the connecting portions 20 can be adjusted according to actual needs, and are not limited to the scope of the present invention.

請參閱第5圖，其為本發明之拼接顯示器之第二實施例之結構示意圖。於第5圖所示，將有機發光二極體顯示器分為第一顯示面板A和第二顯示面板B，第一顯示面板A和第二顯示面板B皆具有連接部20、凹部結構CCS、凸部結構CVS、資料線DL以及掃描線SL(未標示)。詳言之，一個連接部20設置於第一顯示面板A之欲和第二顯示面板B接合之邊緣，另一個連接部20設置於第二顯示面板B之欲和第一顯示面板A接合之邊緣，透過連接部20的對應設置，使第一顯示面板A和第二顯示面板B彼此電性連接。具體而言，第一顯示面板A和第二顯示面板B之連接部20皆具有凹部結構CCS和凸部結構CVS，第一顯示面板A之資料線DL位於凹部結構CCS和凸部結構CVS之間而延伸至凸部結構CVS的表面，第一顯示面板A之凸部結構CVS具有金屬導電層21且其覆蓋資料線DL，於此實施例中，第一顯示面板A之金屬導電層21可由作為有機發光二極體OLED的陰極cathode之膜層所形成，即金屬導電層21和有機發光二極體OLED的陰極 cathode屬於同一膜層，但不以此為限。同樣地，第二顯示面板B之資料線DL位於凹部結構CCS和凸部結構CVS之間而延伸至凸部結構CVS的表面，第二顯示面板B之凸部結構CVS具有金屬導電層21且其覆蓋資料線DL，於此實施例中，第二顯示面板B之金屬導電層21可由作為有機發光二極體OLED的陽極anode之膜層所形成，即金屬導電層21和有機發光二極體OLED的陽極anode屬於同一膜層，但不以此為限。一般而言，陽極anode之材料可以包括氧化銦錫(ITO)，較耐刮，因此可使良率和耐用性更佳。 Please refer to FIG. 5, which is a schematic structural diagram of the second embodiment of the spliced display of the present invention. As shown in Figure 5, the organic light emitting diode display is divided into a first display panel A and a second display panel B. Both the first display panel A and the second display panel B have a connecting portion 20, a concave structure CCS, and a convex Part structure CVS, data line DL and scan line SL (not labeled). In detail, one connecting portion 20 is disposed on the edge of the first display panel A to be joined to the second display panel B, and the other connecting portion 20 is disposed on the edge of the second display panel B to be joined to the first display panel A , Through the corresponding arrangement of the connecting portion 20, the first display panel A and the second display panel B are electrically connected to each other. Specifically, the connecting portion 20 of the first display panel A and the second display panel B has a concave structure CCS and a convex structure CVS, and the data line DL of the first display panel A is located between the concave structure CCS and the convex structure CVS And extending to the surface of the convex structure CVS, the convex structure CVS of the first display panel A has a metal conductive layer 21 and it covers the data line DL. In this embodiment, the metal conductive layer 21 of the first display panel A can be used as The film layer of the cathode of the organic light emitting diode OLED is formed by the film layer of the metal conductive layer 21 and the cathode of the organic light emitting diode OLED The cathode belongs to the same film, but not limited to this. Similarly, the data line DL of the second display panel B is located between the concave structure CCS and the convex structure CVS and extends to the surface of the convex structure CVS. The convex structure CVS of the second display panel B has a metal conductive layer 21 and its Covering the data line DL, in this embodiment, the metal conductive layer 21 of the second display panel B can be formed by the film layer as the anode of the organic light emitting diode OLED, namely the metal conductive layer 21 and the organic light emitting diode OLED The anode belongs to the same film layer, but it is not limited to this. Generally speaking, the material of the anode can include indium tin oxide (ITO), which is more resistant to scratches, so that the yield and durability are better.

此外，由於第一顯示面板A和第二顯示面板B之資料線DL需互相連接，需將第二顯示面板B的源極S延伸而形成金屬層M3，以使第一顯示面板A和第二顯示面板B互相電性連接；第二顯示面板B的連接部20也可由有機發光二極體OLED的陽極Anode製作，有機發光二極體OLED的陽極Anode的材料包括氧化銦錫(ITO)、氧化鋅(ZnO)、氧化鋁鎵銦錫(AlGaInSnO)、氧化鋁鋅(AZO)、氧化錫(SnO₂)、氧化銦(In₂O₃)、氧化鋅錫(SnZnO)或石墨烯(Graphene)，當然也可為其他材料，而未侷限於本發明所列舉的範圍。 In addition, since the data lines DL of the first display panel A and the second display panel B need to be connected to each other, the source S of the second display panel B needs to be extended to form a metal layer M3, so that the first display panel A and the second display panel A The display panels B are electrically connected to each other; the connecting portion 20 of the second display panel B can also be made of the anode Anode of the organic light emitting diode OLED. The material of the anode Anode of the organic light emitting diode OLED includes indium tin oxide (ITO), oxide Zinc (ZnO), aluminum oxide gallium indium tin (AlGaInSnO), aluminum oxide zinc (AZO), tin oxide (SnO ₂ ), indium oxide (In ₂ O ₃ ), zinc tin oxide (SnZnO) or graphene (Graphene), Of course, it can also be other materials, and is not limited to the scope of the present invention.

同樣地，參照第4a圖及第4b圖，第一顯示面板A和第二顯示面板B透過機構件10的轉軸11於第一相對位置狀態及第二相對位置狀態之間變換。於第一相對位置狀態中，第一顯示面板A透過機構件10的轉軸11而和第二顯示面板B拼接，使第一顯示面板A和第二顯示面板B之資料線DL透過金屬導電層21係彼此電性導通；於第二相對位置狀態中，第一顯示面板A透過機構件10的轉軸11而和第二顯示面板B分離，使第一顯示面板A和第二顯示面板B之資料線DL係彼此電性隔絕。雖然如第5圖所示應為第一顯示面板A和第二顯示面板B之資料線 DL相連，但也可為第一顯示面板A和第二顯示面板B之掃描線SL相連，而未侷限於本發明所列舉的範圍。 Similarly, referring to FIG. 4a and FIG. 4b, the first display panel A and the second display panel B are switched between the first relative position state and the second relative position state through the rotating shaft 11 of the mechanism 10. In the first relative position state, the first display panel A is spliced with the second display panel B through the shaft 11 of the mechanism 10, so that the data lines DL of the first display panel A and the second display panel B pass through the metal conductive layer 21 Are electrically connected to each other; in the second relative position state, the first display panel A is separated from the second display panel B through the shaft 11 of the mechanism 10, so that the data lines of the first display panel A and the second display panel B The DL series are electrically isolated from each other. Although it should be the data line of the first display panel A and the second display panel B as shown in Figure 5 DL is connected, but can also be connected to the scan line SL of the first display panel A and the second display panel B, and is not limited to the scope of the present invention.

請參閱第6圖，其為本發明之拼接顯示器之第三實施例之結構示意圖。如第6圖所示，本發明之第三實施例與第二實施例之差異為更包括導電膠層22，其他相同元件的敘述於此不再重複其細節。在一實施例中，如第6圖所示，導電膠層22可設置於第二顯示面板B之金屬導電層21下。在另一實施例中，導電膠層22可設置於第一顯示面板A之金屬導電層21上。當然可根據實際所需調整導電膠層22的位置，而未侷限於本發明所列舉的範圍。 Please refer to FIG. 6, which is a schematic structural diagram of the third embodiment of the spliced display of the present invention. As shown in FIG. 6, the difference between the third embodiment of the present invention and the second embodiment is that it further includes a conductive adhesive layer 22, and the description of other same elements will not be repeated here. In an embodiment, as shown in FIG. 6, the conductive adhesive layer 22 may be disposed under the metal conductive layer 21 of the second display panel B. In another embodiment, the conductive adhesive layer 22 may be disposed on the metal conductive layer 21 of the first display panel A. Of course, the position of the conductive adhesive layer 22 can be adjusted according to actual needs, and is not limited to the scope of the present invention.

請參閱第7圖，其為本發明之拼接顯示器之第四實施例之結構示意圖。如第7圖所示，本發明之第四實施例與第二實施例之差異為側向阻水層23，其他相同元件的敘述於此不再重複其細節。其中，側向阻水層23設置於第一顯示面板A和第二顯示面板B之設有連接部20的邊緣，以密封第一顯示面板A和第二顯示面板B及阻擋側向的水氣及雜質進入有機發光二極體OLED。 Please refer to FIG. 7, which is a structural diagram of the fourth embodiment of the spliced display of the present invention. As shown in FIG. 7, the difference between the fourth embodiment of the present invention and the second embodiment is the lateral water blocking layer 23, and the description of the other same elements will not be repeated here. Wherein, the lateral water blocking layer 23 is provided on the edges of the first display panel A and the second display panel B where the connecting portion 20 is provided to seal the first display panel A and the second display panel B and block lateral moisture And impurities enter the organic light-emitting diode OLED.

需說明的是，第3圖、第5圖至第7圖之第一顯示面板A和第二顯示面板B為非相同截面，而其僅為說明第一顯示面板A和第二顯示面板B的拼接而表示。 It should be noted that the first display panel A and the second display panel B in FIG. 3, FIG. 5 to FIG. 7 are different cross-sections, and they are only for illustrating the first display panel A and the second display panel B. Represented by splicing.

請參閱第8圖，其為本發明之一實施例之拼接顯示器之製作流程圖。如第8圖所示，本發明之拼接顯示器之製作方法如下：(1)S11步驟：提供第一顯示面板A和第二顯示面板B，且第一顯示面板A和第二顯示面板B皆具有掃描線SL和資料線DL，並在第一顯示面板A和第二顯示面板B分別形成金屬導電層21以作為連接部20。(2)S12步驟：形成保護膜PF於第一顯示面板A上，但保護膜PF並未覆蓋第一顯示面板A的金屬導電層21，進而形成凹部結構CCS和凸部結構 CVS；形成保護膜PF於第二顯示面板B上，且保護膜PF覆蓋第二顯示面板B。(3)S13步驟：側向沉積側向阻水層23於第一顯示面板A之設置金屬導電層21的邊緣，保護膜PF之鄰近金屬導電層21的側邊同樣沉積側向阻水層23，於本實施例中採用光固化之側向阻水層23之材料，故接著照光使側向阻水層23硬化，但第一顯示面板A之金屬導電層21未被側向阻水層23覆蓋；透過曝光顯影的方式蝕刻第二顯示面板B，使金屬導電層21暴露於外，進而形成凹部結構CCS和凸部結構CVS，接續側向沉積側向阻水層23於第二顯示面板B之設置金屬導電層21的邊緣和保護膜PF之鄰近金屬導電層21的側邊，並照光使側向阻水層23硬化，但第二顯示面板B之金屬導電層21未被側向阻水層23覆蓋。(4)S14步驟：第一顯示面板A和第二顯示面板B透過金屬導電層21互相電性連接。需說明的是側向阻水層23可依據需求選用適當之材料，本實施例選用光固化之材料，但不以此為限，於其他實施例中，亦可選用熱固化材料或熱加光固化材料，亦可直接沉積形成。 Please refer to FIG. 8, which is a flow chart of making a spliced display according to an embodiment of the present invention. As shown in Figure 8, the manufacturing method of the spliced display of the present invention is as follows: (1) Step S11: Provide a first display panel A and a second display panel B, and both the first display panel A and the second display panel B have The scan line SL and the data line DL are formed on the first display panel A and the second display panel B respectively to form a metal conductive layer 21 as the connection portion 20. (2) Step S12: forming a protective film PF on the first display panel A, but the protective film PF does not cover the metal conductive layer 21 of the first display panel A, thereby forming a concave structure CCS and a convex structure CVS; A protective film PF is formed on the second display panel B, and the protective film PF covers the second display panel B. (3) Step S13: laterally deposit a lateral water blocking layer 23 on the edge of the first display panel A where the metal conductive layer 21 is provided, and deposit the lateral water blocking layer 23 on the side of the protective film PF adjacent to the metal conductive layer 21 In this embodiment, the material of the light-cured lateral water-blocking layer 23 is used, so the lateral water-blocking layer 23 is hardened by illumination, but the metal conductive layer 21 of the first display panel A is not provided with the lateral water-blocking layer 23 Cover; etch the second display panel B through exposure and development to expose the metal conductive layer 21 to the outside to form a concave structure CCS and a convex structure CVS, followed by lateral deposition of a lateral water blocking layer 23 on the second display panel B The edge of the metal conductive layer 21 and the side of the protective film PF adjacent to the metal conductive layer 21 are arranged, and the lateral water blocking layer 23 is hardened by illumination, but the metal conductive layer 21 of the second display panel B is not laterally water blocking Layer 23 covers. (4) Step S14: the first display panel A and the second display panel B are electrically connected to each other through the metal conductive layer 21. It should be noted that appropriate materials can be selected for the lateral water blocking layer 23 according to requirements. In this embodiment, light-curing materials are used, but not limited to this. In other embodiments, heat-curing materials or heat-added light can also be selected. The cured material can also be deposited directly.

需說明的是，基板PI例如可包括玻璃基板、石英基板、聚合物樹脂所形成的基板或例如聚亞醯胺之可撓性材料形成的可撓性基板。聚合物樹脂的材料可包括聚醚碸(polyethersulfone，PES)、聚丙烯酸酯(polyacrylate，PA)、聚芳酯(polyarylate，PAT)、聚醚醯亞胺(polyetherimide，PEI)、聚2,6萘二甲酸乙二酯(polyethylene naphthalate，PEN)、聚對酞酸乙二酯(polyethylene terephthalate，PET)、聚苯硫(polyphenylene sulfide，PPS)、聚芳基酸酯(polyallylate)、聚亞醯胺(polyimide，PI)、聚碳酸酯(polycarbonate，PC)、纖維素三乙酸酯(cellulose triacetate，CAT或TAC)、醋酸丙酸纖維素(cellulose acetate propionate，CAP)、以及其組合物；緩衝層Buffer、閘極絕緣層GI和GI2、絕緣層IL1和IL2、汲極絕緣層ILD、像素定義層PDL、無機層以及保護膜PF的材料例如可包括氧化矽(SiO_x)、 氮化矽(SiN_x)、氮氧化矽(SiON)、碳氮化矽(SiCN)、碳氧化矽(SiOC)或氧化鋁(AlO_x)及其組合物；間隙柱PS的材料例如可為正光阻或負光阻材料；有機層及側向阻水層23的材料例如可包括苯環丁烯(benzocyclobutene)、聚亞醯胺、聚醯胺、丙烯酸樹脂或酚醛樹脂及其組合物；陰極Cathode、陽極Anode、源極S、閘極G以及汲極D的材料例如可包括銦(In)、錫(Sn)、鋁(Al)、金(Au)、鉑(Pt)、銦(In)、鋅(Zn)、鍺(Ge)、銀(Ag)、鉛(Pb)、鈀(Pd)、銅(Cu)、鈹化金(AuBe)、鈹化鍺(BeGe)、鎳(Ni)、錫化鉛(PbSn)、鉻(Cr)、鋅化金(AuZn)、鈦(Ti)、鎢(W)以及鎢化鈦(TiW)等所組成材料中至少一種；有機發光二極體OLED發出的光可為紅光、藍光或綠光；電晶體例如可為多晶矽為主要材料的電晶體，或者，電晶體可以透明導電材料為主要材料的電晶體，透明導電材料可包括氧化銦錫(ITO)、氧化鋅(ZnO)、氧化鋁鎵銦錫(AlGaInSnO)、氧化鋁鋅(AZO)、氧化錫(SnO₂)、氧化銦(In₂O₃)、氧化鋅錫(SnZnO)或石墨烯(Graphene)。前述的材料僅為列舉，當然也可為其他較佳的材料，而未侷限於本發明所列舉的範圍。 It should be noted that the substrate PI may include, for example, a glass substrate, a quartz substrate, a substrate formed of a polymer resin, or a flexible substrate formed of a flexible material such as polyimide. The material of the polymer resin may include polyethersulfone (PES), polyacrylate (PA), polyarylate (PAT), polyetherimide (PEI), poly 2,6 naphthalene Polyethylene naphthalate (PEN), polyethylene terephthalate (PET), polyphenylene sulfide (PPS), polyallylate (polyallylate), and poly(ethylene terephthalate) polyimide (PI), polycarbonate (PC), cellulose triacetate (CAT or TAC), cellulose acetate propionate (CAP), and combinations thereof; buffer layer The materials for the gate insulating layers GI and GI2, the insulating layers IL1 and IL2, the drain insulating layer ILD, the pixel defining layer PDL, the inorganic layer, and the protective film PF may include, for example, silicon oxide (SiO _x ), silicon nitride (SiN _x ), silicon oxynitride (SiON), silicon carbonitride (SiCN), silicon oxycarbide (SiOC) or aluminum oxide (AlO _x ) and combinations thereof; the material of the spacer PS can be, for example, a positive photoresist or a negative photoresist material The material of the organic layer and the lateral water blocking layer 23 may include, for example, benzocyclobutene, polyimide, polyamide, acrylic resin or phenolic resin and combinations thereof; cathode Cathode, anode Anode, source The materials of S, gate G, and drain D may include, for example, indium (In), tin (Sn), aluminum (Al), gold (Au), platinum (Pt), indium (In), zinc (Zn), germanium (Ge), silver (Ag), lead (Pb), palladium (Pd), copper (Cu), gold beryllium (AuBe), germanium beryllium (BeGe), nickel (Ni), lead tin (PbSn), At least one of chromium (Cr), gold zinc (AuZn), titanium (Ti), tungsten (W), and titanium tungsten (TiW); the light emitted by the organic light-emitting diode OLED can be red light, Blue or green light; for example, the transistor may be a transistor with polysilicon as the main material, or the transistor may be a transistor with a transparent conductive material as the main material, the transparent conductive material may include indium tin oxide (ITO), zinc oxide (ZnO) , Aluminum gallium indium tin oxide (AlGaInSnO), aluminum oxide zinc (AZO), tin oxide (SnO ₂ ), indium oxide (In ₂ O ₃ ), zinc tin oxide (SnZnO) or graphene (Graphene). The aforementioned materials are merely examples, and of course other preferred materials can be used, and are not limited to the scope of the present invention.

續言之，有機發光二極體OLED、有機層、側向阻水層23以及間隙柱PS可透過蒸鍍或旋轉塗佈(spin coating)的方式形成；緩衝層Buffer、閘極絕緣層GI和GI2、絕緣層IL1和IL2、汲極絕緣層ILD、像素定義層PDL、無機層以及保護膜PF可透過化學氣相沉積(chemical vapor deposition,CVD)、分子束磊晶(molecular beam epitaxy,MBE)、原子層堆積(atomic layer deposition,ALD)或濺鍍(Sputtering)的方式形成；電晶體可透過離子佈值的方式形成。當然也可為其他較佳的形成方法，而未侷限於本發明所列舉的範圍。 In addition, the organic light emitting diode OLED, the organic layer, the lateral water blocking layer 23 and the gap pillar PS can be formed by evaporation or spin coating; the buffer layer Buffer, the gate insulating layer GI and GI2, insulating layers IL1 and IL2, drain insulating layer ILD, pixel defining layer PDL, inorganic layer, and protective film PF can be through chemical vapor deposition (CVD), molecular beam epitaxy (MBE) , Atomic layer deposition (ALD) or sputtering (Sputtering) method; transistors can be formed through ion distribution. Of course, other preferred forming methods are also possible, and are not limited to the scope of the present invention.

請參閱第9圖、第10圖及第11圖，其分別為本發明之拼接顯示器之拼接面板之第一態樣、第二態樣以及第三態樣的示意圖。先說明的是，第一 顯示面板A的資料線驅動器標示為Data Driver 1及其掃描線驅動器標示為Gate Driver 1，第二顯示面板B的資料線驅動器標示為Data Driver 2及其掃描線驅動器可包括或可不包括Gate Driver 2(未標示)。於一模式時，第一顯示面板A和第二顯示面板B可獨立操作，即分別包括各自的資料線驅動器和掃描線驅動器，此時，第一顯示面板A可透過資料線驅動器Data Driver 1及掃描線驅動器Gate Driver 1控制其內的每個像素P之電晶體的運作，第二顯示面板B可透過資料線驅動器Data Driver 2及掃描線驅動器Gate Driver 2控制其內的每個像素P之電晶體的運作。 Please refer to FIG. 9, FIG. 10 and FIG. 11, which are schematic diagrams of the first aspect, the second aspect, and the third aspect of the splicing panel of the spliced display of the present invention, respectively. First of all, first The data line driver of display panel A is marked as Data Driver 1 and its scan line driver is marked as Gate Driver 1. The data line driver of second display panel B is marked as Data Driver 2 and its scan line driver may or may not include Gate Driver 2 (Unlabeled). In one mode, the first display panel A and the second display panel B can be operated independently, that is, each includes their own data line driver and scan line driver. At this time, the first display panel A can be operated through the data line driver Data Driver 1 and The scan line driver Gate Driver 1 controls the operation of the transistor of each pixel P. The second display panel B can control the power of each pixel P through the data line driver Data Driver 2 and the scan line driver Gate Driver 2. The operation of the crystal.

在一實施例中，當第一顯示面板A和第二顯示面板B之掃描線SL或資料線DL彼此電性連接時，第二顯示面板B和第一顯示面板A可如第9圖所示共用第一顯示面板A的掃描線驅動器Gate Driver 1。亦即，第二顯示面板B的掃描線SL由第一顯示面板A的掃描線驅動器Gate Driver 1所控制。在另一實施例中，當第一顯示面板A和第二顯示面板B之掃描線SL或資料線DL彼此電性連接時，第二顯示面板B和第一顯示面板A可如第10圖所示共用第一顯示面板A的資料線驅動器Data Driver 1和掃描線驅動器Gate Driver 1。亦即，第二顯示面板B的資料線DL由第一顯示面板A的資料線驅動器Data Driver 1所控制，第二顯示面板B的掃描線SL由第一顯示面板A的掃描線驅動器Gate Driver 1所控制。在又一實施例中，當第一顯示面板A和第二顯示面板B之掃描線SL或資料線DL彼此電性連接時，第二顯示面板B和第一顯示面板A如第11圖所示共用第一顯示面板A的資料線驅動器Data Driver 1。亦即，第二顯示面板B的資料線DL由第一顯示面板A的資料線驅動器Data Driver 1所控制。需說明的是，若一開始設計階段，可即確認 顯示器為拼接顯示器，不需各面板獨立操作，即可視需求省略部分面板之資料線驅動器或掃描線驅動器。 In one embodiment, when the scan lines SL or the data lines DL of the first display panel A and the second display panel B are electrically connected to each other, the second display panel B and the first display panel A can be as shown in FIG. 9 The scan line driver Gate Driver 1 of the first display panel A is shared. That is, the scan line SL of the second display panel B is controlled by the scan line driver Gate Driver 1 of the first display panel A. In another embodiment, when the scan lines SL or the data lines DL of the first display panel A and the second display panel B are electrically connected to each other, the second display panel B and the first display panel A can be as shown in FIG. 10 Shows the data line driver Data Driver 1 and the scan line driver Gate Driver 1 sharing the first display panel A. That is, the data line DL of the second display panel B is controlled by the data line driver Data Driver 1 of the first display panel A, and the scan line SL of the second display panel B is controlled by the scan line driver Gate Driver 1 of the first display panel A. Controlled. In another embodiment, when the scan lines SL or the data lines DL of the first display panel A and the second display panel B are electrically connected to each other, the second display panel B and the first display panel A are as shown in FIG. 11 Share the data line driver Data Driver 1 of the first display panel A. That is, the data line DL of the second display panel B is controlled by the data line driver Data Driver 1 of the first display panel A. It should be noted that if you start the design phase, you can confirm The display is a spliced display, and there is no need to operate each panel independently, and the data line driver or scan line driver of some panels can be omitted as required.

請參閱第12圖，其為本發明之拼接顯示器之拼接面板之第四態樣的示意圖。承上所述，如第12圖所示，本發明之拼接顯示器更包括第三顯示面板A1以及第四顯示面板B1，第三顯示面板A1的掃描線驅動器為Gate Driver 3，且視需求可包括或可不包括資料線驅動器為Data Driver 3(未繪示)，第四顯示面板B1視需求可包括或可不包括資料線驅動器為Data Driver 4(未繪示)及其掃描線驅動器為Gate Driver 4(未繪示)。於一顯示模式時，第三顯示面板A1和第四顯示面板B1獨立控制驅動，第三顯示面板A1可透過資料線驅動器Data Driver 3及掃描線驅動器Gate Driver 3控制其內的每個像素P之電晶體的運作，第四顯示面板B1可透過資料線驅動器Data Driver 4及掃描線驅動器Gate Driver 4控制其內的每個像素P之電晶體的運作。於另一模式時，當第一顯示面板A、第二顯示面板B、第三顯示面板A1以及第四顯示面板B1之掃描線SL或資料線DL彼此電性連接時，第一顯示面板A和第三顯示面板A1共用第一顯示面板A的資料線驅動器Data Driver 1，第二顯示面板B和第四顯示面板B1共用第二顯示面板B的資料線驅動器Data Driver 2，第一顯示面板A和第二顯示面板B共用第一顯示面板A的掃描線驅動器Gate Driver 1，第三顯示面板A1和第四顯示面板B1共用第三顯示面板的掃描線驅動器Gate Driver 3。亦即，第二顯示面板B的掃描線SL由第一顯示面板A的掃描線驅動器Gate Driver 1所控制，第三顯示面板A1的資料線DL由第一顯示面板A的資料線驅動器Data Driver 1所控制，第四顯示面板B1的資料線DL由第二顯示面板B的資料線驅動器Data Driver 2所控制，第四顯示面板B1的掃描線SL由第三顯示面板的掃描線驅動器Gate Driver 3所控制。 Please refer to FIG. 12, which is a schematic diagram of the fourth aspect of the spliced panel of the spliced display of the present invention. Continuing from the above, as shown in Figure 12, the spliced display of the present invention further includes a third display panel A1 and a fourth display panel B1. The scan line driver of the third display panel A1 is Gate Driver 3, and may include Or it may not include the data line driver as Data Driver 3 (not shown), the fourth display panel B1 may or may not include the data line driver as Data Driver 4 (not shown) and its scan line driver as Gate Driver 4 ( Not shown). In a display mode, the third display panel A1 and the fourth display panel B1 independently control the drive, and the third display panel A1 can control the data line driver Data Driver 3 and the scan line driver Gate Driver 3 to control each pixel P within it. For the operation of the transistor, the fourth display panel B1 can control the operation of the transistor of each pixel P through the data line driver Data Driver 4 and the scan line driver Gate Driver 4. In another mode, when the scan lines SL or the data lines DL of the first display panel A, the second display panel B, the third display panel A1, and the fourth display panel B1 are electrically connected to each other, the first display panel A and The third display panel A1 shares the data line driver Data Driver 1 of the first display panel A, the second display panel B and the fourth display panel B1 share the data line driver Data Driver 2 of the second display panel B, and the first display panel A and The second display panel B shares the scan line driver Gate Driver 1 of the first display panel A, and the third display panel A1 and the fourth display panel B1 share the scan line driver Gate Driver 3 of the third display panel. That is, the scan line SL of the second display panel B is controlled by the scan line driver Gate Driver 1 of the first display panel A, and the data line DL of the third display panel A1 is controlled by the data line driver Data Driver 1 of the first display panel A. Controlled, the data line DL of the fourth display panel B1 is controlled by the data line driver Data Driver 2 of the second display panel B, and the scan line SL of the fourth display panel B1 is controlled by the scan line driver Gate Driver 3 of the third display panel. control.

請參閱第13圖，其為本發明之拼接顯示器之拼接面板之第五態樣的示意圖。承上所述，如第13圖所示，本發明之拼接顯示器更包括第五顯示面板A2、第六顯示面板B2、第七顯示面板C、第八顯示面板C1以及第九顯示面板C2。第五顯示面板A2的掃描線驅動器為Gate Driver 5，且可包括或不包括資料線驅動器為Data Driver 5(未繪示)，第六顯示面板B2可包括或不包括資料線驅動器Data Driver 6(未繪示)及可包括或不包括掃描線驅動器Gate Driver 6(未繪示)，第七顯示面板C的資料線驅動器標示為Data Driver 7及可包括或不包括掃描線驅動器為Gate Driver 7(未繪示)，第八顯示面板C1可包括或不包括資料線驅動器Data Driver 8(未繪示)及可包括或不包括掃描線驅動器標示為Gate Driver 8(未繪示)，第九顯示面板C2可包括或不包括資料線驅動器Data Driver 9(未繪示)及可包括或不包括掃描線驅動器Gate Driver 9(未繪示)。於一模式時，即當各面板獨立運作時第五顯示面板A2透過資料線驅動器Data Driver 5及掃描線驅動器Gate Driver 5控制其內的每個像素P之電晶體的運作，第六顯示面板B2透過資料線驅動器Data Driver 6及掃描線驅動器Gate Driver 6控制其內的每個像素P之電晶體的運作，第七顯示面板C透過資料線驅動器Data Driver 7及掃描線驅動器Gate Driver 7控制其內的每個像素P之電晶體的運作，第八顯示面板C1透過資料線驅動器Data Driver 8及掃描線驅動器Gate Driver 8控制其內的每個像素P之電晶體的運作，第九顯示面板C2透過資料線驅動器Data Driver 9及掃描線驅動器Gate Driver 9控制其內的每個像素P之電晶體的運作。 Please refer to FIG. 13, which is a schematic diagram of the fifth aspect of the spliced panel of the spliced display of the present invention. From the foregoing, as shown in FIG. 13, the spliced display of the present invention further includes a fifth display panel A2, a sixth display panel B2, a seventh display panel C, an eighth display panel C1, and a ninth display panel C2. The scan line driver of the fifth display panel A2 is Gate Driver 5, and may include or exclude the data line driver as Data Driver 5 (not shown), and the sixth display panel B2 may include or exclude the data line driver Data Driver 6 ( Not shown) and may include or exclude the scan line driver Gate Driver 6 (not shown). The data line driver of the seventh display panel C is labeled as Data Driver 7 and may include or exclude the scan line driver as Gate Driver 7 ( Not shown), the eighth display panel C1 may include or exclude the data line driver Data Driver 8 (not shown) and may include or exclude the scan line driver labeled as Gate Driver 8 (not shown), the ninth display panel C2 may include or not include the data line driver Data Driver 9 (not shown) and may or may not include the scan line driver Gate Driver 9 (not shown). In one mode, that is, when each panel operates independently, the fifth display panel A2 controls the operation of the transistors of each pixel P through the data line driver Data Driver 5 and the scan line driver Gate Driver 5. The sixth display panel B2 The operation of the transistor of each pixel P is controlled through the data line driver Data Driver 6 and the scan line driver Gate Driver 6, and the seventh display panel C is controlled through the data line driver Data Driver 7 and the scan line driver Gate Driver 7 The operation of the transistor of each pixel P of the eighth display panel C1 controls the operation of the transistor of each pixel P through the data line driver Data Driver 8 and the scan line driver Gate Driver 8, and the ninth display panel C2 transmits The data line driver Data Driver 9 and the scan line driver Gate Driver 9 control the operation of the transistor of each pixel P in it.

於另一模式，第一顯示面板A至第九顯示面板C2之掃描線SL或資料線DL彼此電性連接時，第一顯示面板A、第三顯示面板A1以及第五顯示面板A2共用第一顯示面板A的資料線驅動器Data Driver 1，第二顯示面板B、第四顯 示面板B1以及第六顯示面板B2共用第二顯示面板B的資料線驅動器Data Driver 2，第七顯示面板C、第八顯示面板C1以及第九顯示面板C2共用第七顯示面板C的資料線驅動器Data Driver 7。而且，第一顯示面板A、第二顯示面板B以及第七顯示面板C共用第一顯示面板A的掃描線驅動器Gate Driver 1，第三顯示面板A1、第四顯示面板B1以及第八顯示面板C1共用第三顯示面板A1的掃描線驅動器Gate Driver 3，第五顯示面板A2、第六顯示面板B2以及第九顯示面板C2共用第五顯示面板A2的掃描線驅動器Gate Driver 5。也就是說，第一顯示面板A至第九顯示面板C2之掃描線SL和資料線DL根據前述的共用驅動器的配置做相應的訊號控制。 In another mode, when the scan lines SL or the data lines DL of the first display panel A to the ninth display panel C2 are electrically connected to each other, the first display panel A, the third display panel A1, and the fifth display panel A2 share the first The data line driver Data Driver 1 of display panel A, the second display panel B, the fourth display The display panel B1 and the sixth display panel B2 share the data line driver of the second display panel B, and the seventh display panel C, the eighth display panel C1, and the ninth display panel C2 share the data line driver of the seventh display panel C Data Driver 7. Moreover, the first display panel A, the second display panel B, and the seventh display panel C share the scan line driver Gate Driver 1 of the first display panel A, the third display panel A1, the fourth display panel B1, and the eighth display panel C1 The scan line driver Gate Driver 3 of the third display panel A1 is shared, and the fifth display panel A2, the sixth display panel B2, and the ninth display panel C2 share the scan line driver Gate Driver 5 of the fifth display panel A2. In other words, the scan lines SL and the data lines DL of the first display panel A to the ninth display panel C2 are controlled by the corresponding signals according to the configuration of the shared driver described above.

從第9圖至第13圖得知，不論顯示面板的數量為何，各顯示面板皆能成功地透過資料線DL或掃描線SL的電性相連來控制整個拼接顯示器之操控。 It can be seen from FIGS. 9 to 13 that regardless of the number of display panels, each display panel can successfully control the control of the entire mosaic display through the electrical connection of the data line DL or the scan line SL.

請參閱第14圖和第15圖，其皆為本發明之拼接顯示器之第五實施例之結構示意圖。如第14圖和第15圖所示，第一顯示面板A更具備觸控感測器TPA以及絕緣層IOBP2和IOBP1。絕緣層IOBP1設置於薄膜封裝層TFE上，觸控感測器TPA設置於絕緣層IOBP1上，絕緣層IOBP2設置於觸控感測器TPA上。第二顯示面板B更具備觸控感測器TPB以及絕緣層IOBP2和IOBP1，絕緣層IOBP1設置於薄膜封裝層TFE上，絕緣層IOBP2設置於絕緣層IOBP1上，觸控感測器TPB設置於絕緣層IOBP2上。 Please refer to FIG. 14 and FIG. 15, which are both schematic structural diagrams of the fifth embodiment of the spliced display of the present invention. As shown in FIGS. 14 and 15, the first display panel A further includes a touch sensor TPA and insulating layers IOBP2 and IOBP1. The insulating layer IOBP1 is disposed on the thin film encapsulation layer TFE, the touch sensor TPA is disposed on the insulating layer IOBP1, and the insulating layer IOBP2 is disposed on the touch sensor TPA. The second display panel B further includes a touch sensor TPB and insulating layers IOBP2 and IOBP1. The insulating layer IOBP1 is disposed on the thin film encapsulation layer TFE, the insulating layer IOBP2 is disposed on the insulating layer IOBP1, and the touch sensor TPB is disposed on the insulating layer. On layer IOBP2.

在一實施例中，如第14圖和第15圖所示，第一顯示面板A之觸控連接部TC位於第一顯示面板A的邊緣，且其設置於觸控感測器TPA和絕緣層IOBP2之間，且其延著觸控感測器TPA的表面延伸；第二顯示面板B之觸控連接 部TC位於第二顯示面板B的邊緣，且其設置於觸控感測器TPA和絕緣層IOBP2之間且其延著觸控感測器TPB的表面延伸，透過觸控連接部TC的對應設置，使第一顯示面板A和第二顯示面板B彼此電性連接。在另一實施例中，第一顯示面板A和第二顯示面板B之連接部也可如第3圖所示設置薄膜封裝層TFE下並位於由絕緣層IL1形成的段差結構SS，第一顯示面板A和第二顯示面板B之連接部20相關細節已於第3圖之對應段落所敘述，於此不再重複其細節。 In one embodiment, as shown in FIGS. 14 and 15, the touch connection portion TC of the first display panel A is located at the edge of the first display panel A, and it is disposed on the touch sensor TPA and the insulating layer Between IOBP2 and extending along the surface of the touch sensor TPA; touch connection of the second display panel B The part TC is located at the edge of the second display panel B, and it is arranged between the touch sensor TPA and the insulating layer IOBP2 and extends along the surface of the touch sensor TPB, through the corresponding arrangement of the touch connection part TC , The first display panel A and the second display panel B are electrically connected to each other. In another embodiment, the connecting portion of the first display panel A and the second display panel B can also be provided under the thin film encapsulation layer TFE and located in the step structure SS formed by the insulating layer IL1 as shown in FIG. The related details of the connecting portion 20 of the panel A and the second display panel B have been described in the corresponding paragraph of FIG. 3, and the details will not be repeated here.

請參閱第16圖，其為本發明之拼接顯示器之拼接面板之第六態樣的示意圖。先說明的是，第一顯示面板A具有傳輸端驅動器Tx Driver1以及接收端控制器Rx Driver1來控制觸控感測器TPA的陣列，第二顯示面板B具有傳輸端驅動器Tx Driver2以及接收端控制器Rx Driver2來控制觸控感測器TPB的陣列。當第一顯示面板A和第二顯示面板B透過觸控連接部TC彼此電性連接，第一顯示面板A和第二顯示面板B共用第一顯示面板A的傳輸端驅動器Tx Driver1。亦即，第二顯示面板B之傳輸端訊號由第一顯示面板A的傳輸端驅動器Tx Driver1所控制。 Please refer to FIG. 16, which is a schematic diagram of the sixth aspect of the spliced panel of the spliced display of the present invention. First, the first display panel A has a transmitting end driver Tx Driver1 and a receiving end controller Rx Driver1 to control the array of touch sensors TPA, and the second display panel B has a transmitting end driver Tx Driver2 and a receiving end controller. Rx Driver2 to control the array of touch sensors TPB. When the first display panel A and the second display panel B are electrically connected to each other through the touch connection portion TC, the first display panel A and the second display panel B share the transmission terminal driver Tx Driver1 of the first display panel A. That is, the transmission terminal signal of the second display panel B is controlled by the transmission terminal driver Tx Driver1 of the first display panel A.

綜觀前述，本發明之拼接式顯示器，透過機構件10和連接部20的搭配，各顯示面板相對應之資料線或掃描線係彼此電性導通，使各顯示面板彼此電性連接且不會有可撓性顯示面板之因過度彎曲而破損之問題。總括而言，本發明之拼接式顯示器，具有如上述的優點，從而取代現有的可撓性顯示面板。 In summary, in the spliced display of the present invention, through the combination of the mechanism 10 and the connecting portion 20, the data lines or scan lines corresponding to each display panel are electrically connected to each other, so that the display panels are electrically connected to each other without The flexible display panel is damaged due to excessive bending. In conclusion, the spliced display of the present invention has the above-mentioned advantages, thereby replacing the existing flexible display panel.

以上所述僅為舉例性，而非為限制性者。任何未脫離本發明之精神與範疇，而對其進行之等效修改或變更，均應包含於後附之申請專利範圍中。 The above description is only illustrative, not restrictive. Any equivalent modification or alteration that does not deviate from the spirit and scope of the present invention shall be included in the scope of the appended patent application.

20:連接部 20: Connection part

21:金屬導電層 21: Metal conductive layer

A:第一顯示面板 A: The first display panel

Anode:陽極 Anode: anode

B:第二顯示面板 B: Second display panel

Buffer:緩衝層 Buffer: buffer layer

Cathode:陰極 Cathode: Cathode

D:汲極 D: Dip pole

DL:資料線 DL: Data line

G:閘極 G: Gate

GI1、GI2、ILD、IL1、IL2:絕緣層 GI1, GI2, ILD, IL1, IL2: insulating layer

M1、M2:金屬層 M1, M2: Metal layer

OLED:有機發光二極體 OLED: organic light emitting diode

PDL:像素定義層 PDL: Pixel Definition Layer

PF:保護膜 PF: Protective film

PI:基板 PI: Substrate

PL:平坦層 PL: Flat layer

PS:間隙柱 PS: Clearance column

S:源極 S: source

SL:掃描線 SL: scan line

TFE:薄膜封裝層 TFE: thin film encapsulation layer

Claims (14)

一種拼接式顯示器，其包括：至少二顯示面板，各該顯示面板具有一資料線或一掃描線，各該顯示面板的邊緣具有一連接部，各該連接部對應設置而互相契合；以及一機構件，係承載該至少二顯示面板，該機構件係使該至少二顯示面板於一第一相對位置狀態及一第二相對位置狀態之間變換；其中，於該第一相對位置狀態中，該至少二顯示面板係彼此拼接，且各該顯示面板相對應之該資料線或該掃描線係彼此電性導通；於該第二相對位置狀態中，該至少二顯示面板係彼此分離，且各該顯示面板相對應之該資料線或該掃描線係彼此電性隔絕。 A spliced display, comprising: at least two display panels, each of the display panels has a data line or a scan line, the edge of each of the display panels has a connecting part, and each of the connecting parts is arranged correspondingly to fit each other; and a mechanism The device carries the at least two display panels, and the mechanical device makes the at least two display panels change between a first relative position state and a second relative position state; wherein, in the first relative position state, the At least two display panels are spliced with each other, and the data line or the scan line corresponding to each display panel is electrically connected to each other; in the second relative position state, the at least two display panels are separated from each other, and each The data lines or the scan lines corresponding to the display panel are electrically isolated from each other. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該連接部的至少其中之一和各該資料線或該掃描線處於相同膜層。 According to the spliced display described in item 1 of the scope of patent application, at least one of the connecting portions and the data line or the scan line are in the same film layer. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該連接部的至少其中之一和各該資料線或該掃描線處於不同膜層。 According to the spliced display described in item 1 of the scope of patent application, at least one of the connecting portions and the data line or the scan line are in different layers. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該連接部具有一段差結構，該段差結構由一絕緣層及相對該絕緣層較為突伸之另一絕緣層形成，而該資料線或該掃描線係設置於該絕緣層與該另一絕緣層之間，而延伸至該另一絕緣層之表面。 For the spliced display described in item 1 of the scope of patent application, wherein each of the connecting portions has a stepped structure, the stepped structure is formed by an insulating layer and another insulating layer that protrudes relatively to the insulating layer, and the data line Or the scan line is arranged between the insulating layer and the other insulating layer, and extends to the surface of the other insulating layer. 如申請專利範圍第4項所述之拼接式顯示器，其中，各該連接部具有一金屬導電層或一導電膠層，該金屬導電層或該導電膠層係覆蓋該資料線或該掃描線，且於該第一相對位置狀態中，該資料線或該掃描線係藉由該金屬導電層或該導電膠層相互電性連接。 The spliced display described in item 4 of the scope of patent application, wherein each of the connecting portions has a metal conductive layer or a conductive adhesive layer, and the metal conductive layer or the conductive adhesive layer covers the data line or the scan line, And in the first relative position state, the data line or the scan line is electrically connected to each other through the metal conductive layer or the conductive adhesive layer. 如申請專利範圍第5項所述之拼接式顯示器，其中，該金屬導電層為與該顯示面板之發光元件的陽極或陰極為同一膜層。 The spliced display described in item 5 of the scope of patent application, wherein the metal conductive layer is the same film layer as the anode or the cathode of the light-emitting element of the display panel. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該連接部具有一凸部結構及一凹部結構，而該資料線或該掃描線係設置於該凸部結構及該凹部結構之間，而延伸至該凸部結構之表面。 For the spliced display described in item 1 of the scope of patent application, wherein each of the connecting portions has a convex structure and a concave structure, and the data line or the scan line is arranged on the convex structure and the concave structure And extend to the surface of the convex structure. 如申請專利範圍第7項所述之拼接式顯示器，其中，該凸部結構具有一金屬導電層或一導電膠層，該金屬導電層或該導電膠層係覆蓋該資料線或該掃描線，且於該第一相對位置狀態中，該資料線或該掃描線係藉由該金屬導電層或該導電膠層相互電性連接。 For the spliced display described in item 7 of the scope of patent application, wherein the convex structure has a metal conductive layer or a conductive adhesive layer, and the metal conductive layer or the conductive adhesive layer covers the data line or the scan line, And in the first relative position state, the data line or the scan line is electrically connected to each other through the metal conductive layer or the conductive adhesive layer. 如申請專利範圍第8項所述之拼接式顯示器，其中，該金屬導電層與該顯示面板之發光元件的陽極或陰極為同一膜層。 The spliced display described in item 8 of the scope of patent application, wherein the metal conductive layer and the anode or cathode of the light-emitting element of the display panel are the same film layer. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該顯示面板更包括一觸控感測器，各該觸控感測器具有一觸控連接部，各該觸控連接部對應設置而互相契合。 As for the spliced display described in claim 1, wherein each of the display panels further includes a touch sensor, each of the touch sensors has a touch connection portion, and each of the touch connection portions is correspondingly disposed And fit each other. 如申請專利範圍第10項所述之拼接式顯示器，其中，各該觸控感測器相對應的該觸控連接部互相連接而共用該二觸控感測器之其一的驅動器。 According to the spliced display described in claim 10, the touch connection portions corresponding to the touch sensors are connected to each other to share the driver of one of the two touch sensors. 如申請專利範圍第1項所述之拼接式顯示器，其中，各該顯示面板更包括一側向阻水層，以側向密封各該顯示面板。 According to the spliced display described in item 1 of the scope of patent application, each of the display panels further includes a lateral water blocking layer to seal each of the display panels laterally. 如申請專利範圍第1項所述之拼接式顯示器，其中，於該第一相對位置狀態中，各該顯示面板相對應之該資料線互相連接而共用該至少二顯示面板之其一的一資料線驅動器。 For the spliced display described in claim 1, wherein, in the first relative position state, the data lines corresponding to each of the display panels are connected to each other to share data of one of the at least two display panels Line drive. 如申請專利範圍第1項所述之拼接式顯示器，其中，於該第一相對位置狀態中，各該顯示面板相對應之該掃描線互相連接而共用該至少二顯示面板之其一的一掃描線驅動器。 According to the spliced display described in claim 1, wherein, in the first relative position state, the scan lines corresponding to each display panel are connected to each other to share a scan of one of the at least two display panels Line drive.

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