M419191 五、新型說明·· 【新型所屬之技術領域】 本創作是有關一種顯示裝置,特別是指兼具觸控與裸 視3D顯示功能的顯示裝置。 【先前技術】 請參考圖9所示’係一已知的觸控顯示裝置,其包含 有一控制模組50、一液晶面板51與一觸控面板52 ;該觸 控面板52設置在該液晶面板51上方;該液晶面板51設 置在控制杈組50上方,該液晶面板51與觸控面板52分 J由排線5 3電連接該控制模組5 〇 ;由控制模組5 〇感測 二板52的觸控點,並透過液晶面板5彳對應顯示畫 面。 述中L 體影像已形成一種播放影片的趨勢,惟M419191 V. New Description·· [New Technology Field] This creation is related to a display device, especially a display device that has both touch and bare 3D display functions. [Prior Art] Please refer to FIG. 9 for a known touch display device, which includes a control module 50, a liquid crystal panel 51 and a touch panel 52. The touch panel 52 is disposed on the liquid crystal panel. The upper panel 51 is disposed above the control unit 50. The liquid crystal panel 51 and the touch panel 52 are electrically connected to the control module 5 by the cable 53. The second module is sensed by the control module 5 The touch point of 52 is corresponding to the display screen through the liquid crystal panel 5彳. The L-body image has formed a trend to play movies,
欲使::顯不裝置不具備裸視立體的視覺效果,因 肩不裝置兼具觸控及裸視 解決的主要課題。 係本創作所 【新型内容】To make:: The display device does not have the stereoscopic stereoscopic visual effect, because the shoulder does not have the main problem of touch and naked vision. Department of Creative Office [New Content]
顯示= 要:的是提供-種兼具觸控與裸視3D 該顯示裝置中。.以將裸視扣顯示與觸控功能整合於 马違前揭目的,太备 觸控與裸視s 創作所採用的技術手 ,、保说3D顯示功 的·.員不裝置包含有: M419191 一觸控面板,具有一正面與一背面; 一柱狀透鏡,設置於該觸控面板的背面;. 一顯示器,設置於該柱狀透鏡的背面,該顯示器包含 有一顯示面板’該顯示面板具有一顯示區。 根據本創作的構造,由柱狀透鏡配合顯示器所顯示經 景深轉換後的影像’可產生3D立體的視覺效果;此外當 使用者觀看3D立體影像的同時,使用者可觸碰該觸控面 板’由控制模組偵測觸碰的位置,並使顯示面板對應切換 晝面’供使用者可同時觀賞3D畫面與觸控的目的。 、 【實施方式】 參考B 1所*,係本創作的第一較佳實施例,第— 較仫貫施例包3有一觸控面板4〇、一柱狀透鏡與—顯 示器1 0。 # »玄觸控面板40里右_ jfc /、有 淨面與一正面,該柱狀透鏡30 貼合於該觸控面板4〇沾北二 * 奴的月面,該觸控面板4〇的正面作為 使用者碰觸面。 請搭配參考圖2盥mi. 圖3所不,於第一較佳實施例中, 該觸控面板40包今—加$ n 個透明的玻璃基板41,以及形成在 玻璃基板41背® 周圍的一遮蔽框層42、複數第一、第二 感應線路4 3、4 4组;^ | ρ % Λ γ 後數化旒線45,在玻璃基板41背面 由遮蔽框層42所環繞的F Λ 衣、a的&域作為一觸控區420,第〆、第 一感應線路4 3、4 4 έ71祕 °'巴、.象父錯排列於對應觸控區420的區 域中,各信號線45形说户、办# ^ 心成在遮蔽框層42表面且分別連接各 感應線路43、44 ; 1由 咕 ”中’弟一、第二感應線路43、44分 M419191 別由第一電極430、第二電極440串接構成,第―、第二 感應線路43、44交錯處之間設有一絕緣層46。Display = To: It is provided - a combination of both touch and naked view 3D in the display device. In order to integrate the naked-eye display and touch functions into the front of the horse, the technical hand used for the creation of touch and naked-eye s is very useful, and the 3D display function is not included in the device: M419191 a touch panel having a front surface and a back surface; a cylindrical lens disposed on the back surface of the touch panel; a display disposed on the back surface of the lenticular lens, the display including a display panel A display area. According to the construction of the present invention, the depth-converted image displayed by the lenticular lens in conjunction with the display can produce a 3D stereoscopic visual effect; and when the user views the 3D stereoscopic image, the user can touch the touch panel. The control module detects the position of the touch and makes the display panel correspond to the switch surface for the user to simultaneously view the 3D picture and the touch. [Embodiment] Referring to B1*, which is a first preferred embodiment of the present invention, the first embodiment has a touch panel 4A, a cylindrical lens and a display 10. #»玄触摸面板40中右_jfc /, has a clean surface and a front surface, the lenticular lens 30 is attached to the moon panel of the touch panel 4, the touch panel 4〇 The front side touches the surface as a user. Referring to FIG. 2, FIG. 3, in the first preferred embodiment, the touch panel 40 includes a transparent glass substrate 41 and is formed around the back of the glass substrate 41. a masking layer 42, a plurality of first and second sensing lines 4 3, 4 4; ^ | ρ % Λ γ, a squaring line 45, and a F-coat surrounded by the masking layer 42 on the back side of the glass substrate 41 The & field of a is used as a touch area 420, and the first sensing line 4 3, 4 4 έ 71 ° ' 巴 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The shape of the household, the office # ^ heart into the surface of the shielding frame 42 and respectively connected to the sensing lines 43, 44; 1 by the "middle" brother, the second sensing line 43, 44 points M419191 by the first electrode 430, The second electrode 440 is formed in series, and an insulating layer 46 is disposed between the first and second sensing lines 43 and 44.
請參考圖4與圖5所示,係另一形式的觸控面板 40’ ’該觸控面板40’包含一保護玻璃47與—觸控基板 48,該保護玻璃47背面與該觸控基板48之間設有一透明 膠層49以彼此相互黏合。該保護玻璃47包含一玻璃板 47〇與形成在玻璃板470背面的不透光遮蔽框層471,在 玻璃板470背面由遮蔽框層471所環繞的區域作為一觸控 區>472 ;該觸控基板48係於一基材48〇正面形成複數絕 緣交錯的第一、第二感應線路481、482與複數電連接各 感應線路481、482的信號線485,其中第一感應線路 481由複數第—電極483串接構成,第二感應線路482由 複數第二電極484串接構成;第一感應線路481與第二感 應線路482交錯處之間設有一絕緣層486,且第一、第二 感應線路481、482設置於對應觸控區472的區域中,各 信號線485形成在對應遮蔽框層471的區域中。 該柱狀透鏡30係一高分子薄膜,其包含有一膜片31 及形成於膜片31背面的複數條狀部32,該膜片3 ]可為 聚酿(PET)片,條狀部32可為聚曱基丙缚酸甲酷(pMMA) 條;該觸控面板40係以其背面貼合於該柱狀透鏡3〇之膜 片31正面;於第一較佳實施例中,使膜片31覆蓋於觸控 面板40上的感應線路43、44 ;於第二較佳實施例中,則 使膜片31貼合於觸控基板48的背面。 该顯示器10設置於該柱狀透鏡3〇的背面,其包含有 顯不面板1 1與-設置在該顯示面板U冑面的控制模組 5 M419191 12’该顯示面板”具 對庫於_鎚& 顯不區110,且該顯示區110 對應於該觸控面板4〇觸控 可執行从、 2〇的區域,該控制模組12 _ :、’ ’透過該顯示面板11的顯示區110顯 不,其中該顯示面板i i可 ’’ ^ 10 ^ ^ 為液日日,..·員不面板,其中該顯示 益與柱狀透鏡3〇之門% 士 ^ 兄U之間設有一透明膠層2〇,本較佳實 施例中該柱狀诱镑、 ’、條狀部32與該透明膠層20相 黏’本創作的立體外觀圖可參考圖6所示。 上述透明勝層20可為光學 入二勺九于膠(〇CA)層,該透明膠層 20 了王面覆盍於該顯示 .^ 一上 做的上表面,S青參考圖8所 示’該透明勝層2 0斜μ # t應於该顯示區11〇的區域形成一鏤 空區21。 氣上逑於觸控面板40與柱狀透鏡3〇的結合結構 /线^ 30除了作為光折射的功能,因柱狀透鏡% 本身係南分子薄胺,目1 、八有相虽的強度,可取代一般觸控面 板所需的防爆膜兮古+ . m ^ 、、β ° ’因本創作不再另外設置防爆膜,而 可降低製造、材料成本。 μ參考圖7與圖8所示’於組合時,皆是先分別將觸 工面板40與柱狀透鏡30相結合,以及於該顯示器10上 設置透明膠層20後,里胺J d 1交冉將柱狀透鏡30透過透明膠層20 與顯示器1 〇相互對·你目上a 對位貼合,即可完成本創作同時兼具觸 控與裸視3D顯示功能的顯示裝置。 口此透過邊顯示1 1 0〔將影像轉換處S,配合該 狀透鏡30對光的折射效果,令使用者可產生犯立體的 旯觀感,,、中由戎控制模組1 2根據觸控面板40被觸碰 的位置,控制顯示面板11對應顯示切換晝面 M419191 【圖式簡單說明】 圖1 :本創作第一較佳實施例立體分解示意圖。 圖2:圖1中的觸控面板背面示意圖。 圖3 :圖2剖視示意圖。 圖4:另一觸控面板立體分解示意圖。 圖5 :圖4剖視示意圖。 圖6 :圖1立體外觀圖。Referring to FIG. 4 and FIG. 5 , another type of touch panel 40 ′′ includes a cover glass 47 and a touch substrate 48 . The back surface of the cover glass 47 and the touch substrate 48 . A transparent adhesive layer 49 is disposed between them to adhere to each other. The cover glass 47 includes a glass plate 47 and an opaque shielding frame layer 471 formed on the back surface of the glass plate 470. The area surrounded by the shielding frame layer 471 on the back surface of the glass plate 470 serves as a touch area >472; The touch substrate 48 is formed on a front surface of a substrate 48 to form a plurality of first and second sensing lines 481 and 482 which are electrically staggered and a plurality of signal lines 485 electrically connected to the sensing lines 481 and 482. The first sensing circuit 481 is composed of a plurality of signals 485. The first electrode 482 is formed in series, and the second sensing circuit 482 is formed by a plurality of second electrodes 484. The insulating layer 486 is disposed between the first sensing circuit 481 and the second sensing circuit 482, and the first and second electrodes are disposed. The sensing lines 481 and 482 are disposed in the area corresponding to the touch area 472, and the signal lines 485 are formed in the area corresponding to the masking layer 471. The lenticular lens 30 is a polymer film comprising a diaphragm 31 and a plurality of strips 32 formed on the back surface of the diaphragm 31. The diaphragm 3 can be a PET sheet, and the strip portion 32 can be The touch panel 40 is attached to the front surface of the diaphragm 31 of the lenticular lens 3 by the back surface thereof; in the first preferred embodiment, the diaphragm is made 31, the sensing lines 43 and 44 are covered on the touch panel 40. In the second preferred embodiment, the diaphragm 31 is attached to the back surface of the touch substrate 48. The display 10 is disposed on the back surface of the lenticular lens 3, and includes a display panel 1 1 and a control module 5 disposed on the display panel U 胄 M M M ' _ _ _ _ And the display area 110 corresponds to the area of the touch panel 4 that can be touched, and the control module 12 _ :, ' ' transmits through the display area 110 of the display panel 11 Displayed, the display panel ii can be '' ^ 10 ^ ^ for the liquid day, ..... staff not panel, where the display benefits and the lenticular lens 3 % door % 士 ^ brother U is provided with a transparent glue In the preferred embodiment, the columnar lure, ', the strip portion 32 and the transparent adhesive layer 20 are adhered to each other'. The stereoscopic appearance of the creation can be referred to FIG. 6. The transparent layer 20 can be In order to optically enter two spoonfuls of yoke (〇CA) layer, the transparent adhesive layer 20 is covered with the king's surface on the upper surface of the display. The upper surface of the display is as shown in Fig. 8 'the transparent layer 2 0 The oblique μ#t should form a hollowed out area 21 in the area of the display area 11〇. The gas is applied to the combined structure/line of the touch panel 40 and the lenticular lens 3〇 As a function of light refraction, since the lenticular lens itself is a southern molecular thin amine, the strength of the first and eighth phases can replace the explosion-proof film required for general touch panels. m ^ , , β ° ' Since the explosion-proof film is not additionally provided in the present invention, the manufacturing cost and the material cost can be reduced. μ Referring to FIG. 7 and FIG. 8 , when combined, the touch panel 40 and the lenticular lens 30 are respectively combined, and After the transparent adhesive layer 20 is disposed on the display 10, the lining J d 1 exchanges the lenticular lens 30 through the transparent adhesive layer 20 and the display 1 〇 · 你 你 你 目 目 目 对 对 对 对 对 对 对 对 对At the same time, the display device has both the touch and the naked-view 3D display function. The mouth is displayed through the side display 1 1 0 [the image conversion portion S is matched with the refraction effect of the lens 30 on the light, so that the user can generate the stereoscopic 旯The control module 1 2 controls the display panel 11 corresponding to the display switching surface M419191 according to the position where the touch panel 40 is touched. [Simplified description of the drawing] FIG. 1 : The first preferred embodiment of the present invention Stereoscopic exploded view. Figure 2: The back of the touch panel in Figure 1 FIG 3: a schematic cross-sectional view of FIG 2 FIG 4: a perspective exploded view of another touch panel in FIG. 5: a schematic cross-sectional view of FIG. 4 FIG. 6: FIG. 1 is a perspective external view.
圖7 :圖6組合示意圖。 圖8 :透明膠層形成鏤空區示意圖。 圖9 :已知的觸控面板示意圖。 【主要元件符號說明】 10 顯示器 11 顯 示面板 110 顯示區 12 控 制模組 20 透明膠層 21 鏤 空區 30 柱狀透鏡 31 膜 片 32 條狀部 40、 40’觸控面板 41 玻璃基板 42 遮 蔽框層 420 觸控區 43 第 一感應線路 430 第一電極 44 第 二感應線路 440 第二電極 45 信 號線 46 絕緣層 47 保 護玻璃 470 玻璃板 471 遮蔽框層 7 M419191 472觸控區 480基材 482第二感應線路 484第二電極 486絕緣層 50控制模組 52觸控面板 48觸控基板 481第一感應線路 483第一電極 485信號線 49透明膠層 51 液晶面板 5 3排線Figure 7: A schematic diagram of the combination of Figure 6. Figure 8: Schematic diagram of the formation of a hollow layer of a transparent adhesive layer. Figure 9: Schematic diagram of a known touch panel. [Main component symbol description] 10 Display 11 Display panel 110 Display area 12 Control module 20 Transparent adhesive layer 21 Hollow area 30 Cylindrical lens 31 Diaphragm 32 Strip 40, 40' Touch panel 41 Glass substrate 42 Masking layer 420 touch area 43 first sensing line 430 first electrode 44 second sensing line 440 second electrode 45 signal line 46 insulating layer 47 protective glass 470 glass plate 471 shielding frame layer 7 M419191 472 touch area 480 substrate 482 second Inductive line 484 second electrode 486 insulation layer 50 control module 52 touch panel 48 touch substrate 481 first sensing line 483 first electrode 485 signal line 49 transparent adhesive layer 51 liquid crystal panel 5 3 cable