201239836201239836
1 vy I 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種顯示模組及應用其之顯示器,且 特別是有關於一種輕量化、薄型化之顯示模組及應用其之 顯示器。 【先前技術】 傳統的顯示模組包括金屬背板、反射片、導光板、光 源、膠框及顯示面板。其中,反射片設於金屬背板上,導 光板設於反射片上,光源鄰近導光板配置且卡設於膠框, 而顯示面板設於膠框上。 然而,上述結構都具有其厚度及重量,在層層疊加之 後,導致顯示模組的厚度較厚、重量較重。也就是說,層 層疊加的元件愈多,則愈不符合輕量化與薄型化的趨勢。 【發明内容】 本發明係有關於一種顯示模組及應用其之顯示器,顯 示模組的厚度較薄,重量較輕。 根據本發明之第一方面,提出一種顯示模組。顯示模 組包括一反射片、一光學元件及一顯示面板。反射片具有 一凹部且包括一側部。光學元件設於反射片之凹部内。顯 示面板設於反射片之側部上。 根據本發明之第二方面,提出一種顯示器。顯示器包 括一顯示模組及一外殼。顯示模組包括一反射片、一光學 元件及一顯示面板。反射片具有一凹部且包括一側部。光 201239836 ’ '1 vy I VI. Description of the Invention: [Technical Field] The present invention relates to a display module and a display using the same, and particularly to a lightweight, thin display module and a display using the same . [Prior Art] A conventional display module includes a metal back plate, a reflection sheet, a light guide plate, a light source, a plastic frame, and a display panel. The reflective sheet is disposed on the metal back plate, and the light guide plate is disposed on the reflective sheet. The light source is disposed adjacent to the light guide plate and is disposed on the plastic frame, and the display panel is disposed on the plastic frame. However, the above structures all have their thickness and weight, and after the layers are stacked, the thickness of the display module is thicker and heavier. That is to say, the more components stacked on the layer, the less the trend toward weight reduction and thinning. SUMMARY OF THE INVENTION The present invention relates to a display module and a display using the same, the display module having a thinner thickness and a lighter weight. According to a first aspect of the invention, a display module is provided. The display module includes a reflective sheet, an optical component, and a display panel. The reflective sheet has a recess and includes a side portion. The optical element is disposed in the recess of the reflective sheet. The display panel is disposed on the side of the reflective sheet. According to a second aspect of the invention, a display is presented. The display includes a display module and a housing. The display module includes a reflective sheet, an optical component, and a display panel. The reflective sheet has a recess and includes a side portion. Light 201239836 ’ '
TW7393A 學元件設於反射片之凹部内。顯示面板設於反射片之侧部 上。外殼係包覆顯示模組之至少一部分。 為了對本發明之上述及其他方面有更佳的暸解,下文 特舉實施例,並配合所附圖式,作詳細說明如下: 【實施方式】 請參照第1圖,其繪示依照本發明一實施例之顯示模 組的剖視圖。顯示模組100包括反射片102、至少一光學 元件、膠框138及顯示面板no。顯示面板11〇例如是液 晶顯示面板或其它種類之顯示面板。 反射片102例如是一體成形之結構,其材質例如是微 發泡聚對苯二曱酸乙二酯(Micro Cellular PET, MCPET)或 其它具反射功能的材質,例如鋁或鋁鎂合金。mcpet採用 PET(polyethylene Terephthalate)為基材來進行發泡製 程,其内部的發泡微粒可反射絕大多數的入射光,使得 MCPET的反射率普遍可達99〇/0以上,且對各波長光源的 反射能力都能夠維持均一性。另外,MCPET作為反射板而 言具有厚度薄、重量輕、支撐性佳、抗衝擊、表面具有高 度平滑性,能承受高溫(在攝氏160度下仍能保持形狀)、 加工塑型容易、成本相對較低、可利用一般PET資源回收 方式廢棄處理等優點。 反射片102的厚度大約介於0.2至1公厘之 間,以此薄厚度的反射片1〇2取代原有的金屬背板加反射 片的結構,除了可以達到承載及反射的功能,更可降低顯 示模組100的厚度、重量及成本,使顯示器達到輕量化與 4 201239836 薄型化的效果。 反射片102具有凹部102a且包括侧部102b。光學元 件包括導光板104、至少一光學薄膜106及光源108,其 設於凹部102a内。光學薄膜106例如是稜鏡片(Prism Sheet)或擴散片(Diffuser),該些光學薄膜106的種類可相 同或不同。 光源108例如是發光二極體(LED)。光源108可鄰近 導光板104之一入光侧面配置,使導光板104、光學薄膜 106及光源108構成一側光型背光模組(edge-light type backlight module),然此非用以限制本發明。顯示面板110 設於侧部102b上,顯示面板110包括彩色濾光片基板112 及薄膜電晶體陣列基板114。 此外,反射片102更包括承載部102c,上述光學元 件設於承載部102c上。側部102b包括凸緣102M及連接 部102b2,連接部102b2連接凸緣102b1與承載部102c。 顯示面板110可設於側部102b之凸緣102b1上,例如, 顯示面板110係以薄膜電晶體陣列基板114鄰近凸緣 102M之上表面102u設置。另外,雖然第1圖之薄膜電 晶體陣列基板114承靠於膠框138上,然其它實施態樣 中,薄膜電晶體陣列基板114可不承靠於與膠框138,而 與膠框138之間保持一間隙。 雖然本實施例之薄膜電晶體陣列基板114的尺寸以大 於彩色濾光片基板112的尺寸為例說明,然此非用以限制 本發明。請參照第2圖,其繪示依照本發明另一實施例之 顯示模組的剖視圖。顯示模組700之顯示面板710包括彩 201239836 色濾光片基板712及薄膜電晶體陣列基板714,彩色濾光 片基板712的尺寸大於薄膜電晶體陣列基板714的尺寸。 顯示面板710係以彩色濾光片基板712鄰近凸緣702b1之 上表面702u設置。在本實施例中,顯示面板71 〇包括電 路元件728,電路元件728係穿過反射片702設置。反射 片702具有凹口 702r,電路元件728係穿過凹口 702r並 延伸至反射片702之外,反射片702之凹口 702r相似於 第5圖之凹口 202r (凹口 202r於後續說明)。此外,顯示 模組700之膠框738具有凹口 738r或貫孔,電路元件728 可穿過膠框738之凹口 738r或貫孔設置;或者,電路元件 728也可繞過膠框738之外側後穿過凹口 7〇2r設置,在此 情況下,膠框738可省略膠框738之凹口 738r或貫孔。 顯示面板與凸緣之至少一部分係重疊。例如,顯示面 板110與凸緣102b1之整個上表面i〇2u係重疊,使反射 片102與顯示面板11〇連接的部分較多,此有助於提升整 體顯示模組100的結構強度。當顯示面板110與凸緣102b1 之整個上表面102U重疊時’從第]圖之俯視方向觀看顯 示面板110,其係完全覆蓋反射片102。於一實施態樣中, 顯示面板110僅與凸緣102b1之上表面i〇2u的一部分重 疊。當顯示面板no與凸緣102b1之上表面i〇2u的 分重疊時,從第1圖之俯視方向觀看反射片1〇2 102b1之上表面的另一部分係露出。 、、 連接部102b2係直立地連接於居丧° 102b2係環繞體,以定義或環繞出凹,·。連接部 係往連接部1Q2b2之外侧方向延伸。。〜以。凸緣1〇2Μ 實施態樣中,凸緣 201239836 1 w 獅1實質上平行於承載部歡。 反射片與顯示面板中至少一者包括黏結元件,以結合 顯不面板與反射片。例如,黏結元件120可設於顯示面板 之薄膜電阳體陣列基板114上,顯示面板11〇藉由黏 元件120可穩固地結合至反射片102 _h。於其它實施態 樣中,黏結兀件12〇可設於反射片102之凸緣1〇2b1上; 或者,二黏結元件12〇可分別設於反射片102之凸緣102b1 上及顯示面板110之薄膜電晶體陣列基板114上。其中, 黏結元件例如是雙面膠(d〇ub丨e sided adhesjve)或密封膠 (Sealant)。 於另一實施例中,顯示面板係觸控顯示面板。例如, 請參照第3圖’其繪示依照本發明又一實施例之顯示模組 的剖視圖。顯示模組200包括顯示面板、反射片202、上 述光學tl件。其中’顯示面板係一觸控顯示面板21〇,其 包括顯不單元216及觸控單元218,顯示單元216及觸控 單兀218可透過黏結元件226穩固地結合。顯示單元216 包括彩色滤、光片基板212及薄膜電晶體陣列基板214,其 分別相似上述彩色濾光片基板112及薄膜電晶體陣列基板 114 ’容此不再贅述。觸控單元218包括感應基板222及 玻璃基板224 ’其中感應基板222具有感應線路,以感應 一觸控動作。坡螭基板224 係覆蓋於感應基板222,以保 護感應基板222。觸控顯示面板210係以觸控單元218設 於反射片202之側部202b上,例如是鄰近側部202b之凸 緣202b1的上表面202u設置。側部202b之結構相似於上 述側部102b之結構,容此不再贅述。在本實施例中,玻 201239836The TW7393A component is placed in the recess of the reflector. The display panel is disposed on the side of the reflective sheet. The outer casing covers at least a portion of the display module. In order to better understand the above and other aspects of the present invention, the following detailed description of the embodiments of the present invention will be described in detail as follows: [Embodiment] Referring to Figure 1, an embodiment of the present invention is shown. A cross-sectional view of a display module of an example. The display module 100 includes a reflective sheet 102, at least one optical component, a bezel 138, and a display panel no. The display panel 11 is, for example, a liquid crystal display panel or other type of display panel. The reflection sheet 102 is, for example, an integrally formed structure made of, for example, microcellular polystyrene (MCPET) or other reflective material such as aluminum or aluminum-magnesium alloy. Mcpet uses PET (polyethylene Terephthalate) as the substrate for the foaming process, and the foamed particles inside it can reflect most of the incident light, so that the reflectivity of MCPET is generally above 99〇/0, and for each wavelength source. The ability to reflect is able to maintain uniformity. In addition, MCPET as a reflector has a thin thickness, light weight, good support, impact resistance, high smoothness on the surface, high temperature resistance (can maintain shape at 160 degrees Celsius), easy processing and cost, relative cost It has the advantages of being low, and can be disposed of by the general PET resource recycling method. The thickness of the reflective sheet 102 is between about 0.2 and 1 mm. The thin reflective sheet 1〇2 replaces the structure of the original metal back sheet and the reflective sheet, in addition to the function of carrying and reflecting, The thickness, weight and cost of the display module 100 are reduced, and the display is lighter and thinner than the 201203398. The reflective sheet 102 has a recess 102a and includes a side portion 102b. The optical element includes a light guide plate 104, at least one optical film 106, and a light source 108 disposed in the recess 102a. The optical film 106 is, for example, a Prism Sheet or a diffuser, and the types of the optical films 106 may be the same or different. The light source 108 is, for example, a light emitting diode (LED). The light source 108 can be disposed adjacent to the light incident side of the light guide plate 104, so that the light guide plate 104, the optical film 106, and the light source 108 form an edge-light type backlight module, which is not used to limit the present invention. . The display panel 110 is disposed on the side portion 102b. The display panel 110 includes a color filter substrate 112 and a thin film transistor array substrate 114. Further, the reflection sheet 102 further includes a carrying portion 102c, and the optical element is provided on the carrying portion 102c. The side portion 102b includes a flange 102M and a connecting portion 102b2, and the connecting portion 102b2 connects the flange 102b1 and the carrying portion 102c. The display panel 110 can be disposed on the flange 102b1 of the side portion 102b. For example, the display panel 110 is disposed with the thin film transistor array substrate 114 adjacent to the upper surface 102u of the flange 102M. In addition, although the thin film transistor array substrate 114 of FIG. 1 is supported on the plastic frame 138, in other embodiments, the thin film transistor array substrate 114 may not bear between the plastic frame 138 and the plastic frame 138. Keep a gap. Although the size of the thin film transistor array substrate 114 of the present embodiment is exemplified by the size of the color filter substrate 112, it is not intended to limit the present invention. Referring to Figure 2, a cross-sectional view of a display module in accordance with another embodiment of the present invention is shown. The display panel 710 of the display module 700 includes a color 201239836 color filter substrate 712 and a thin film transistor array substrate 714. The size of the color filter substrate 712 is larger than the size of the thin film transistor array substrate 714. The display panel 710 is disposed with the color filter substrate 712 adjacent the upper surface 702u of the flange 702b1. In the present embodiment, display panel 71A includes circuit elements 728 that are disposed through reflective sheet 702. The reflective sheet 702 has a recess 702r through which the circuit component 728 extends and extends beyond the reflective sheet 702. The recess 702r of the reflective sheet 702 is similar to the recess 202r of FIG. 5 (the recess 202r is described later) . In addition, the plastic frame 738 of the display module 700 has a notch 738r or a through hole, and the circuit component 728 can be disposed through the notch 738r or the through hole of the plastic frame 738; or the circuit component 728 can also bypass the outer side of the plastic frame 738. It is then placed through the recess 7〇2r, in which case the frame 738 can omit the notch 738r or the through hole of the bezel 738. The display panel overlaps at least a portion of the flange. For example, the display panel 110 overlaps with the entire upper surface i〇2u of the flange 102b1, and the portion of the reflective sheet 102 that is connected to the display panel 11A is more, which helps to improve the structural strength of the entire display module 100. When the display panel 110 overlaps the entire upper surface 102U of the flange 102b1, the display panel 110 is viewed from the top view of the drawing, which completely covers the reflective sheet 102. In one embodiment, the display panel 110 overlaps only a portion of the upper surface i〇2u of the flange 102b1. When the display panel no overlaps with the surface i 〇 2u of the flange 102b1, another portion of the upper surface of the reflection sheet 1 〇 2 102b1 is exposed from the plan view direction of Fig. 1 . The connecting portion 102b2 is connected upright to the surrounding body 102b2 to define or surround the recess. The connecting portion extends in the outer side direction of the connecting portion 1Q2b2. . ~ to. Flange 1〇2Μ In the embodiment, the flange 201239836 1 w Lion 1 is substantially parallel to the bearing. At least one of the reflective sheet and the display panel includes a bonding member to bond the display panel to the reflective sheet. For example, the bonding component 120 can be disposed on the thin film electrical anode array substrate 114 of the display panel, and the display panel 11 can be firmly coupled to the reflective sheet 102_h by the adhesive component 120. In other embodiments, the bonding member 12 can be disposed on the flange 1〇2b1 of the reflective sheet 102. Alternatively, the two bonding members 12 can be respectively disposed on the flange 102b1 of the reflective sheet 102 and the display panel 110. On the thin film transistor array substrate 114. Among them, the bonding member is, for example, a double-sided tape (d〇ub丨e sided adhesjve) or a sealant (Sealant). In another embodiment, the display panel is a touch display panel. For example, please refer to FIG. 3, which shows a cross-sectional view of a display module in accordance with still another embodiment of the present invention. The display module 200 includes a display panel, a reflective sheet 202, and the optical tl member. The display panel is a touch display panel 21, which includes a display unit 216 and a touch unit 218. The display unit 216 and the touch unit 218 can be firmly coupled through the bonding member 226. The display unit 216 includes a color filter, a light sheet substrate 212, and a thin film transistor array substrate 214, which are similar to the color filter substrate 112 and the thin film transistor array substrate 114, respectively. The touch unit 218 includes an inductive substrate 222 and a glass substrate 224'. The sensing substrate 222 has an inductive line to sense a touch action. The ramp substrate 224 is overlying the sensing substrate 222 to protect the sensing substrate 222. The touch display panel 210 is disposed on the side portion 202b of the reflective sheet 202, such as the upper surface 202u of the flange 202b1 adjacent to the side portion 202b. The structure of the side portion 202b is similar to that of the side portion 102b, and will not be described again. In this embodiment, glass 201239836
i W/jyjA 璃基板224的長度大於感應基板222的長度。 在第3圖中,觸控單元218係以感應基板222設於側 部202b上,然此非用以限制本發明。於再一實施例中’ 請參照第4圖,其繪示依照本發明再一實施例之顯示模組 的剖視圖。顯示模組600之觸控單元618包括感應基板 622及玻璃基板624。觸控單元618係以感應基板622設 於側部202b上。在此實施例中,感應基板622及玻璃基 板624的長度實質上相同。 於其它實施態樣中,顯示面板例如是3D顯示面板。 例如,顯示面板包括顯示單元216及3D功能板(未繪示), 顯示面板係以顯示單元216或3D功能板設於反射片202 之侧部202b上。3D功能板與顯示單元216的連接關係可 相似於第3圖中觸控單元218與顯示單元216的連接關 係,容此不再贅述。透過3D功能板,可使顯示單元216 的晝面呈現立體顯像。3D功能板例如是透鏡式(lenticular type)3D功能板、柵式(barrier type)3D功能板、或相位延 遲式(phase retarder type)3D 功能板。 此外,反射片202的材質相似於上述反射片102,容 此不再贅述。反射片202與觸控顯示面板210中至少一者 包括黏結元件220,以結合觸控顯示面板210與反射片 202。本實施例中,黏結元件220設於觸控顯示面板210 之觸控單元218上;或者,其它實施態樣中,黏結元件220 可設於反射片202之侧部202b上,例如是鄰近侧部202b 之凸緣202b1的上表面202u設置。 顯示單元216位於反射片202之凹部202a(凹部202a 201239836The length of the i W/jyjA glass substrate 224 is greater than the length of the sensing substrate 222. In the third embodiment, the touch unit 218 is disposed on the side portion 202b with the sensing substrate 222, which is not intended to limit the present invention. In still another embodiment, please refer to FIG. 4, which is a cross-sectional view of a display module in accordance with still another embodiment of the present invention. The touch unit 618 of the display module 600 includes an inductive substrate 622 and a glass substrate 624. The touch unit 618 is provided on the side portion 202b with the sensing substrate 622. In this embodiment, the length of the sensing substrate 622 and the glass substrate 624 are substantially the same. In other implementations, the display panel is, for example, a 3D display panel. For example, the display panel includes a display unit 216 and a 3D function board (not shown), and the display panel is disposed on the side portion 202b of the reflective sheet 202 with the display unit 216 or the 3D function board. The connection relationship between the 3D function board and the display unit 216 can be similar to the connection relationship between the touch unit 218 and the display unit 216 in FIG. 3, and details are not described herein again. Through the 3D function board, the face of the display unit 216 can be stereoscopically displayed. The 3D function board is, for example, a lenticular type 3D function board, a barrier type 3D function board, or a phase retarder type 3D function board. In addition, the material of the reflective sheet 202 is similar to that of the reflective sheet 102 described above, and thus will not be described again. At least one of the reflective sheet 202 and the touch display panel 210 includes a bonding component 220 for bonding the touch display panel 210 and the reflective sheet 202. In this embodiment, the bonding component 220 is disposed on the touch unit 218 of the touch display panel 210. Alternatively, in other embodiments, the bonding component 220 may be disposed on the side portion 202b of the reflective sheet 202, for example, adjacent to the side portion. The upper surface 202u of the flange 202b1 of 202b is disposed. The display unit 216 is located in the recess 202a of the reflective sheet 202 (recess 202a 201239836)
1 w /jy^A 繪示於第3圖)内且具有電路元件228 ’電路元件228可 穿過反射片202設置。例如,請參照第5圖,其繪示第3 圖之反射片的侧視圖。反射片202具有凹口 202「,電路元 件228係穿過凹口 202r並延伸至反射片202之外。本實 施例中,凹口 202r開設於反射片202之凸緣202M及連 接部202b2並延伸至凸緣202b1之外侧面202s ;或者, 於其它實施態樣中,凹口 202r可以是一封閉開孔,其開設 於連接部202b2上。上述電路元件228例如是軟性電路板 (flexible printed circuit board, FPC)〇 顯示面板加上外殼後可構成顯示器,例如是液晶顯示 器或其它種類之顯示器。請參照第6圖,其繪示依照本發 明一實施例之顯示器的剖視圖。顯示器300包括顯示模組 1〇〇及外殼330,外殼330包覆顯示模組100之至少一部 分。例如,外殼330包括下殼332、上殼334及定位件336。 定位件336設於下殼332内且具有段差結構(或稱階梯結 構)’顯示模組100設於定位件336上並受到定位件336 之段差結構的拘束而不致輕易晃動。上殼334連接於下殼 332且露出顯示模組100之一部分,例如是露出顯示模組 1〇〇之顯示面。下殼332及上殼334例如是塑膠外殼或金 屬外殼,定位件336例如是塑膠或橡膠材料製成。此外, 一貫施態樣中’一外殼可包覆第2圖之顯示模組7〇〇而成 為顯示器(未繪示),其中該外殼相似於第6圖之外殼33〇, 容此不再贅述。 於另一實施例中,請參照第7圖,其繪示依照本發明 另一實施例之顯示器的剖視圖。顯示器4〇〇包括顯示模組 2012398361 w /jy^A is shown in Figure 3) and has circuit elements 228'. Circuit elements 228 can be disposed through reflective sheet 202. For example, please refer to Fig. 5, which shows a side view of the reflection sheet of Fig. 3. The reflective sheet 202 has a recess 202", and the circuit component 228 extends through the recess 202r and extends beyond the reflective sheet 202. In the embodiment, the recess 202r is formed in the flange 202M and the connecting portion 202b2 of the reflective sheet 202 and extends. The outer surface 202s of the flange 202b1; or, in other embodiments, the recess 202r may be a closed opening formed on the connecting portion 202b2. The circuit component 228 is, for example, a flexible printed circuit board. , FPC) 〇 display panel plus a casing to form a display, such as a liquid crystal display or other type of display. Please refer to FIG. 6 , which is a cross-sectional view of the display according to an embodiment of the invention. The display 300 includes a display module. The housing 330 covers at least a portion of the display module 100. For example, the housing 330 includes a lower housing 332, an upper housing 334, and a positioning member 336. The positioning member 336 is disposed in the lower housing 332 and has a stepped structure ( The display module 100 is disposed on the positioning member 336 and is restrained by the stepped structure of the positioning member 336 without being easily shaken. The upper case 334 is connected to the lower case 332 and exposed. One part of the display module 100 is, for example, a display surface exposing the display module 1. The lower case 332 and the upper case 334 are, for example, a plastic case or a metal case, and the positioning member 336 is made of, for example, a plastic or rubber material. In the embodiment, a housing can be covered by the display module 7 of FIG. 2 to form a display (not shown), wherein the housing is similar to the housing 33 of FIG. 6, and will not be described again. In one embodiment, please refer to FIG. 7 , which is a cross-sectional view of a display according to another embodiment of the present invention. The display 4 includes a display module 201239836
1 YV 200及外殼430 ’外殼430相似於上述外殼330 ’容此不 再贅述。此外,一實施態樣中’顯示器(未繪示)包括外 殼及第4圖之顯示模組600 ’該外殼包覆顯示模組600。 該外殼相似於第7圖之外殼430 ’容此不再贅述。 又一實施例中,請參照第8圖’其繪示依照本發明又 一實施例之顯示器的剖視圖。顯示器500包括顯示模組 100、外殼530及觸控單元218。外殼530與觸控單元218 包覆整個顯示模組1〇〇 ’而外殼530包覆觸控單元218之 一部分。外殼530包括下殼532、上殼534及定位件536。 定位件536設於下殼532内且具有段差結構(或稱階梯結 構)’顯示模組100及觸控單元218皆設於定位件536上, 且受到定位件536之段差結構的拘束而不致輕易晃動。上 殼534連接於下殼532且露出觸控單元218之一部分,例 如是露出觸控單元218之感應區。此外,一實施態樣中, 顯示器(未繪示)包括外殼、第2圖之顯示模組700及觸 控單元218 ’該外殼包覆第2圖之顯示模組700及觸控單 元218。該外殼相似於第8圖之外殼530,容此不再贅述。 本發明上述實施例之顯示模組與應用其之顯示器,具 有多項特徵,以下僅舉出其中幾項: 1) ·反射片係一體成形之結構。 2) _顯示模組可省略金屬背板,使整體顯示模組的厚 度減薄、重量減輕及成本降低。 3) .顯不面板係以薄膜電晶體陣列基板設於反射片之 側部上。 4) _觸控顯示面板係以觸控單元設於反射片之側部 2012398361 YV 200 and outer casing 430 'The outer casing 430 is similar to the above-described outer casing 330' and will not be described again. In addition, in one embodiment, the display (not shown) includes a housing and the display module 600' of FIG. 4, the housing enclosing the display module 600. The outer casing is similar to the outer casing 430' of Fig. 7 and will not be described again. In still another embodiment, please refer to Fig. 8 which shows a cross-sectional view of a display according to still another embodiment of the present invention. The display 500 includes a display module 100, a housing 530, and a touch unit 218. The outer casing 530 and the touch unit 218 cover the entire display module 1' and the outer casing 530 covers a portion of the touch unit 218. The outer casing 530 includes a lower casing 532, an upper casing 534, and a positioning member 536. The positioning member 536 is disposed in the lower casing 532 and has a step structure (or a step structure). The display module 100 and the touch unit 218 are all disposed on the positioning member 536, and are restrained by the step structure of the positioning member 536. Shake. The upper case 534 is connected to the lower case 532 and exposes a portion of the touch unit 218, for example, the sensing area of the touch unit 218 is exposed. In addition, in one embodiment, the display (not shown) includes a housing, a display module 700 of FIG. 2, and a touch control unit 218'. The housing covers the display module 700 and the touch unit 218 of FIG. The outer casing is similar to the outer casing 530 of Fig. 8, and will not be described again. The display module and the display using the same according to the above embodiments of the present invention have a plurality of features, and only a few of them are as follows: 1) The structure in which the reflection sheet is integrally formed. 2) The display module can omit the metal backplane, which reduces the thickness, weight and cost of the overall display module. 3) The display panel is provided with a thin film transistor array substrate on the side of the reflective sheet. 4) _ touch display panel is set on the side of the reflector with the touch unit 201239836
i w/jyjA 上。 綜上所述,雖然本發明已以至少一實施例揭露如上, 然其並非用以限定本發明。本發明所屬技術領域中具有通 常知識者,在不脫離本發明之精神和範圍内,當可作各種 之更動與潤飾。因此,本發明之保護範圍當視後附之申請 專利範圍所界定者為準。 【圖式簡單說明】 第1圖繪示依照本發明一實施例之顯示模組的剖視 圖。 第2圖繪示依照本發明另一實施例之顯示模組的剖視 圖。 第3圖繪示依照本發明又一實施例之顯示模組的剖 視圖。 第4圖繪示依照本發明再一實施例之顯示模組的剖視 圖。 第5圖繪示第3圖之反射片的側視圖。 第6圖繪示依照本發明一實施例之顯示器的剖視圖。 第7圖繪示依照本發明另一實施例之顯示器的剖視 圖。 第8圖繪示依照本發明又一實施例之顯示器的剖視 圖。 【主要元件符號說明】 100、200、600、700 :顯示模組 11 201239836i w/jyjA. In the above, the present invention has been disclosed in at least one embodiment, and is not intended to limit the invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a display module in accordance with an embodiment of the present invention. 2 is a cross-sectional view of a display module in accordance with another embodiment of the present invention. 3 is a cross-sectional view of a display module in accordance with still another embodiment of the present invention. Figure 4 is a cross-sectional view showing a display module in accordance with still another embodiment of the present invention. Fig. 5 is a side view showing the reflection sheet of Fig. 3. Figure 6 is a cross-sectional view of a display in accordance with an embodiment of the present invention. Figure 7 is a cross-sectional view of a display in accordance with another embodiment of the present invention. Figure 8 is a cross-sectional view showing a display in accordance with still another embodiment of the present invention. [Main component symbol description] 100, 200, 600, 700: display module 11 201239836
TW7393A 102、202、702 :反射片 102a、202a :凹部 102b、202b :侧部 102b1、202b1、702b1 :凸緣 102b2、202b2 :連接部 102c :承載部 102u、202u、702b1 :上表面 104 :導光板 106 :光學薄膜 108 :光源 110、710 :顯示面板 112、212、712 :彩色濾光片基板 114、214、714 :薄膜電晶體陣列基板 120、220、226 :黏結元件 138 ' 738 :膠框 216 :顯示單元 218、618 :觸控單元 202r、702r、738r:凹 σ 202s :外侧面 210 :觸控顯示面板 222、622 :感應基板 224、624 :玻璃基板 228 :電路元件 300、400、500 :顯示器 330 ' 430、530 :外殼 12 201239836 332、532 :下殼 334、534 :上殼 336、536 :定位件 728 :電路元件TW7393A 102, 202, 702: reflection sheets 102a, 202a: recesses 102b, 202b: side portions 102b1, 202b1, 702b1: flanges 102b2, 202b2: connection portion 102c: carrier portions 102u, 202u, 702b1: upper surface 104: light guide plate 106: optical film 108: light source 110, 710: display panel 112, 212, 712: color filter substrate 114, 214, 714: thin film transistor array substrate 120, 220, 226: bonding element 138 '738: plastic frame 216 Display unit 218, 618: touch unit 202r, 702r, 738r: concave σ 202s: outer side 210: touch display panel 222, 622: sensing substrate 224, 624: glass substrate 228: circuit elements 300, 400, 500: Display 330' 430, 530: housing 12 201239836 332, 532: lower housing 334, 534: upper housing 336, 536: positioning member 728: circuit components