200829978 九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種顯示器,特別是有關於一種具有 旋轉與升降功能之連接結構之顯示器。 【先前技術】 一般顯示器通常具有上下升降、垂直旋轉、水平旋轉 以及左右旋轉之功能,使顯示面板可依使用者的使用習慣 做調整。習知之顯示器係將具有Χ、Υ、Χ軸向之轉軸製作 ❹於同一個組件中,使顯示面板可以朝多方向旋轉,另外再 製作一個額外的上下升降之組件,使顯示面板可以上下升 降。 然而,不但製作三轴向轉軸之組件繁複,額外的升降 組件亦耗費工時,增加生產線的負擔。 【發明内容】 有鑑於此,本發明提供一種顯示器,包括一顯示面板、 一支撐件、一連接件以及一底座。支撐件具有一第一端與 • 一第二端。連接件連接顯示面板與第一端,包括一本體以 及一旋轉件。旋轉件以一第一軸為中心與本體相對旋轉, 以及以一第二轴為中心與顯示面板相對旋轉,且第一轴與 第二軸垂直。底座設置於第二端,以一第三轴為中心與支 撐件相對旋轉。 【實施方式】 參見第ΙΑ、1Β圖,本發明之顯示器10包括一顯示面 板11、一支撐件12、一連接件13以及一底座14。顯示面 0535-A21690TWF(N2);A06143;NORA 5 200829978 板11藉由連接件13與支撐件12連接,支撐件13設置於 底座14並用以支撐顯示面板11,其中連接件13頂部至支 撐件12底部,形成一總距離D。 請配合參見第ΙΑ、1B圖以及第2圖,為清楚表現支 撐件12與連接件13之内部結構,於第2圖中,將不顯示 支撐件12與連接件13外部之裝飾殼體、顯示面板11與底 座14 〇 本發明之連接件13内部結構包括第一旋轉單元R1、 參 第二旋轉單元R2、第三旋轉單元R3以及實質定力機構 S1,其中第一旋轉單元R1包括轴體A以及兩個扭力彈簧 S2 〇 如第2圖所示,支撐件12内部具有兩個支撐架121以 及兩個固定件122A、122B,支撐架121分別具有一滑執 121S,固定件122A、122B分別於第一端E1以及第二端 E2將兩個支撐架121固定於相等的間距。 如第ΙΑ、1B圖所示,固定件122連結於兩個支撐架 ® 121之間而使該支撐件12成為實質U型的結構,支撐件 12殼體於接近第二端E2之中央内侧具有第一表面F1,該 第一表面F1係為向下凹陷表面,且位於第2圖所示之兩個 支撐架121與固定件122B之間。 如第2圖所示,連接件13内部結構係連結於支撐件 12之第一端E1,並包括本體131、旋轉件132、兩個移動 件133,其中連接件13具有一第三端E3,而第二表面F2 係形成於第三端E3。旋轉件132藉由第一旋轉單元R1與 0535-A21690TWF(N2);A06143;NORA 6 200829978 本體131連接。第一旋轉 ixi^ 131 5 131 ^^^32 軸XI為中心相對旋轉,其中第—軸 』以—弟一 簧S 2設置於軸體Α、每—個^一 Χ軸;扭力彈 體⑶以及旋轉件132抵接,當力;^ =端分別與本 對旋轉時,可提供緩衝的力量。移動件⑶=轉件132相 片13L鎖合於本體131之兩側,且浐 刀別猎由—鎖 撐架121之滑轨121S中移動 技杜3可分別於支 鲁12之第-端£1與第二端拉之;;動連接 =32於支樓件 上下升降(如第1A、1B圖所示)。動使頒示面板11可 如第ΙΑ、1B圖所示,連拯杜η 士 H # & π 十,妾件13设體於接近底端處具 二::t3該弟二.2係為向上凹陷表面,形成 於本體131下方,介於兩個移動件133之間。 門轉早兀^置於顯示面板11與旋轉件132之 二也:二,示藉,第二旋轉單元R2與連接 • 亚且,弟一疋轉單元R2使_ -而也η组、鱼 接件132可以—第二轴Χ2 ^不面板11與連 軸Χ2與第—軸幻垂直。I相對㈣專,其中’第二 第三旋轉單元R3設置於支 就是說,支標件12藉由第三旋=一^底座14之間,也 ^ α 十一 尺轉早兀R3與底庙14遠捲, :軸單元,撐件12與底座14可以-第 一軸Χ3為中心相對旋轉,其 ^200829978 IX. Description of the Invention: [Technical Field] The present invention relates to a display, and more particularly to a display having a connection structure of a rotating and lifting function. [Prior Art] Generally, the display usually has functions of up and down, vertical rotation, horizontal rotation, and left and right rotation, so that the display panel can be adjusted according to the user's usage habits. Conventional displays are made by rotating the shafts of Χ, Υ, and Χ in the same assembly, so that the display panel can be rotated in multiple directions, and an additional upper and lower lifting assembly can be made to allow the display panel to rise and fall. However, not only is the assembly of the three-axis shaft complicated, but the additional lifting assembly also takes time and increases the burden on the production line. SUMMARY OF THE INVENTION In view of the above, the present invention provides a display including a display panel, a support member, a connecting member and a base. The support member has a first end and a second end. The connecting member connects the display panel and the first end, and includes a body and a rotating member. The rotating member rotates relative to the body centering on a first axis, and rotates relative to the display panel about a second axis, and the first axis is perpendicular to the second axis. The base is disposed at the second end and rotates relative to the support member about a third axis. [Embodiment] Referring to Figures 1 and 1, the display 10 of the present invention includes a display panel 11, a support member 12, a connector member 13, and a base 14. Display surface 0535-A21690TWF(N2); A06143; NORA 5 200829978 The board 11 is connected to the support member 12 by a connecting member 13 which is disposed on the base 14 and supports the display panel 11, wherein the top of the connecting member 13 to the support member 12 At the bottom, a total distance D is formed. Please refer to the drawings, FIG. 1B and FIG. 2 for the sake of clearly showing the internal structure of the support member 12 and the connecting member 13. In the second figure, the decorative shell and the display outside the support member 12 and the connecting member 13 will not be displayed. Panel 11 and base 14 The internal structure of the connector 13 of the present invention includes a first rotating unit R1, a second rotating unit R2, a third rotating unit R3, and a substantially constant force mechanism S1, wherein the first rotating unit R1 includes a shaft A And two torsion springs S2. As shown in FIG. 2, the support member 12 has two support frames 121 and two fixing members 122A and 122B. The support frame 121 has a sliding handle 121S, and the fixing members 122A and 122B respectively The first end E1 and the second end E2 fix the two support frames 121 at equal intervals. As shown in FIG. 1B, the fixing member 122 is coupled between the two support frames 121 to make the support member 12 a substantially U-shaped structure, and the support member 12 has a central inner side near the second end E2. The first surface F1 is a downwardly concave surface and is located between the two support frames 121 and the fixing member 122B shown in FIG. As shown in FIG. 2, the internal structure of the connecting member 13 is coupled to the first end E1 of the support member 12, and includes a body 131, a rotating member 132, and two moving members 133, wherein the connecting member 13 has a third end E3. The second surface F2 is formed at the third end E3. The rotating member 132 is coupled to the body 131 by the first rotating unit R1 and 0535-A21690TWF (N2); A06143; NORA 6 200829978. The first rotation ixi^ 131 5 131 ^^^32 The axis XI is a relative rotation of the center, wherein the first axis is set to the shaft body Α, each of the Χ axes, and the torsion body (3) The rotating member 132 abuts against the force; when the ^= end rotates with the pair, respectively, a buffering force can be provided. The moving piece (3)=the rotating piece 132 photo 13L is locked on both sides of the body 131, and the boring tool is not hunted by the sliding rail 121S of the locking bracket 121. The moving technology Du 3 can be respectively at the first end of the branch 12 Pulling with the second end;; moving connection = 32 lifting up and down the branch (as shown in Figures 1A, 1B). The motivational display panel 11 can be as shown in Figure 1, 1B, Lian Zheng Du η 士 H # & π 十, 妾 13 is placed near the bottom end with two: : t3 The brother II. 2 is The upwardly recessed surface is formed below the body 131 between the two moving members 133. The door turns early and is placed on the display panel 11 and the rotating member 132. Also: second, the borrowing, the second rotating unit R2 and the connection • Yahe, the younger one turning unit R2 makes _ - and also the η group, the fish fitting 132 can be - the second axis Χ 2 ^ no panel 11 and the coupling axis 2 and the first axis illusion vertical. I relative (four) special, in which the second and third rotating unit R3 is set in the branch, that is, the subscript 12 is rotated by the third rotation = a ^ base 14, and also ^ α eleven feet turn early R3 and the bottom temple 14 far roll, the shaft unit, the support member 12 and the base 14 can be rotated relative to the first axis Χ 3, which is ^
垂直。 、丫,弟三轴Χ3與第一軸XI 之 實質定力機構Ml力彈簧,設置於連接㈣vertical. , 丫, brother three-axis Χ 3 and the first axis XI, the basic force-fixing mechanism Ml force spring, set in the connection (four)
0535- A21690TWF(N2);A〇6143; NORA 200829978 本體131的底部,實質定力機構S1之一端B與位於第一 端E1之固定件122上之卡勾B’卡合連接,當連接件13與 支撐件12相對移動時,實質定力機構S1可克服該顯示面 板之重量,使連接件13可定位於支撐件12第一端E1與第 二端E2之間之任一位置。 如第ΙΑ、1B圖所示,從外部殼體來看,該第一表面 F1係相對於該第二表面F2 ;孔洞Η係形成於第一表面F1 與第二表面F2之間,且貫穿連接件13與支撐件12兩者結 ® 合後,沿著一長轴Υ延伸之截面C。 孔洞Η的大小會隨著移動件133由第一端Ε1移動至 第二端Ε2逐漸變小,亦即連接件13與支撐件12作彼此遠 離移動時,第一表面F1與第二表面F2間距離會逐漸加大; 而當連接件13與支撐件12作彼此接近移動時,該第一表 面F1與該第二表面F2間距離逐漸減小,直到連接件13 與支撐件12兩者之總距離D為一最小值。 如第1Α圖所示,當連接件13移動至最高位置時,孔 *洞Η最大。 如第1Β圖所示,當連接件13移動至最低位置時,孔 洞Η最小,此時支撐件12與連接件13之總距離D已為最 小值,但第一表面F1與第二表面F2仍保持彼此分離,故 於支撐件12與連接件13間仍能保持該孔洞Η。 如第2圖所示,從内部結構來看,孔洞Η係形成於連 接件本體131,兩個支撐架121以及固定件122之間。 本體131底部與移動件133之間具有預設距離d (如第 0535-A21690TWF(N2);A06143;NORA 8 200829978 =所:)E3換句話說,預設距離"亦是實質定力機構S1 第4圖所示)。當移動件133由 離d曰不上 E1移動至第二端E2日夺,由於預設距 == 交的’主體131並不會與第二端之固定 氏 接,可預留空間使孔洞Η足以形成。換句話說, : 面F2為凹陷表面時,則預設距離d大於第二表面μ之凹 陷深度,以預留形成該孔洞Η所需之空間。 ❿ 的是,f 1Α、1Β圖所示實施例中,第-表面 ^ 一表面F2皆為凹陷表面。但不限於此,可以(1)第 =面Π與第二表面F2兩者之—為凹陷表面,當該連接 牛與该支擇件12兩者之總距離D為最小值時,第一表 表面F2兩者部分接觸;或(2)加長上述預設距 _ d ’士备该連接件13與該支稽件12兩者之總距離d為最 J值日守第表®F1與第二表面F2兩者仍彼此分離,如 此第-表㈣與第二表面^均可為平面,便可形成該孔 洞Η 〇 明麥考第3圖與第4圖,本發明之顯示器1()更包括一 訊號線L ’孔洞η可為理線孔,訊號線L之一端設置於顯 不面板1卜訊號線L之另-端由兩個支撐架121之間所形 成之孔洞Η穿過,與一電腦主機連接,此外,由於主體 與移動件m之間的預設距離d,當連接件13帶動^示面 板η由第-端E1至第二端E2,孔洞H僅會縮小至一定 的尺寸(預設㈣d),如此由孔洞H穿過之訊號線L便不 會被播壓,造成接觸不良。 0535-A21690TWF(N2);A06143;NORA 9 200829978 應注意的是,於第4圖中,由於顯示器10裝飾殼體之 設計,支撐架121之間之孔洞Η呈現圓形,但不限於此。 請參考第5Α圖至第5C圖,由於第一軸XI為一 X軸 向轉轴,當本體131與旋轉件132以第一軸XI為中心相 對旋轉時,帶動顯示面板Π垂直旋轉(如第5 Α圖所示)。 而第二轴X2分別與第一轉軸X1以及顯示面板11垂直, 當顯示面板11與旋轉件132以第二軸S2為中心相對旋轉 時,顯示面板11可向左或向右右旋轉至呈現直立的狀態(如 • 第5B圖所示)。第三軸X3亦與第一轴XI垂直,當支撐件 12與底座14可以第三轴X3為中心相對旋轉時,同時顯示 面板11亦被連動並可水平旋轉(如第5C圖所示)。 本發明之顯示器10之連接件13同時具有使顯示面板 11向兩軸向轉動(如第5A、5B圖所示)以及升降之功能(如 第ΙΑ、1B圖所示),不用另外增設一升降結構,此外,在 支撐件12之第二端E2設置的第三旋轉單元R3亦可間接 帶動顯示面板11於另一轴向之轉動,與習知具有三軸向轉 • 轴組件之顯示器相比,本發明顯示器10於支撐件12之第 一端E1的連接件13結合了第一旋轉單元R1與第二旋轉 單元R2,另外再於支撐件12之第二端E2結合了一第三旋 轉單元R3,同樣可達成使顯示面板11三向旋轉的目的, 由於簡化了連接件13之製程,便可節省製造顯示器10之 工時。 雖然本發明已以較佳實施例揭露如上,然其並非用以 限定本發明,任何熟習此技藝者,在不脫離本發明之精神 0535-A21690TWF(N2);A061 43;NORA 10 200829978 和範圍内,當可作些許之更動與潤飾,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。0535- A21690TWF(N2); A〇6143; NORA 200829978 The bottom of the body 131, one end B of the substantial force-fixing mechanism S1 is engaged with the hook B' on the fixing member 122 of the first end E1, when the connecting member 13 When moving relative to the support member 12, the substantially constant force mechanism S1 can overcome the weight of the display panel, so that the connector 13 can be positioned at any position between the first end E1 and the second end E2 of the support member 12. As shown in FIG. 1B, the first surface F1 is opposite to the second surface F2 as viewed from the outer casing; the hole is formed between the first surface F1 and the second surface F2, and is connected through the connection. After the member 13 and the support member 12 are joined together, the section C extends along a long axis. The size of the hole Η will gradually decrease as the moving member 133 moves from the first end Ε1 to the second end Ε2, that is, when the connecting member 13 and the supporting member 12 move away from each other, between the first surface F1 and the second surface F2. The distance will gradually increase; and when the connecting member 13 and the supporting member 12 move close to each other, the distance between the first surface F1 and the second surface F2 gradually decreases until the total of the connecting member 13 and the supporting member 12 The distance D is a minimum. As shown in Fig. 1, when the connecting member 13 is moved to the highest position, the hole * hole is the largest. As shown in the first figure, when the connecting member 13 is moved to the lowest position, the hole Η is minimum, and the total distance D between the support member 12 and the connecting member 13 is at a minimum, but the first surface F1 and the second surface F2 are still Keeping away from each other, the hole Η can still be maintained between the support member 12 and the connecting member 13. As shown in Fig. 2, from the internal structure, the hole lanthanum is formed between the joint body 131, the two support frames 121, and the fixing member 122. The bottom of the body 131 and the moving member 133 have a preset distance d (such as 0535-A21690TWF (N2); A06143; NORA 8 200829978 = all:) E3 in other words, the preset distance " is also the basic force-fixing mechanism S1 Figure 4). When the moving member 133 moves from the E1 to the second end E2, since the main body 131 of the preset distance== is not connected with the fixed end of the second end, the space can be reserved for the hole Η Sufficient to form. In other words, when the surface F2 is a concave surface, the predetermined distance d is larger than the concave depth of the second surface μ to reserve the space required to form the hole. In the embodiment shown by the figures f 1 Α and 1 ,, the first surface - a surface F2 is a concave surface. However, the first table is not limited thereto, and the first table may be a recessed surface, and the total distance D between the connecting cow and the supporting member 12 is a minimum value. The surface F2 is partially in contact; or (2) the above-mentioned preset distance _ d ' 士 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备 备The surface F2 is still separated from each other, so that the first table (four) and the second surface ^ can be flat, the hole can be formed, and the third and fourth figures of the present invention are further included, and the display 1() of the present invention further includes A signal line L' hole η can be a cable management hole, and one end of the signal line L is disposed at the other end of the display panel 1 and the signal line L is formed by a hole formed between the two support frames 121, and a The host computer is connected. In addition, due to the preset distance d between the main body and the moving member m, when the connecting member 13 drives the display panel n from the first end E1 to the second end E2, the hole H is only reduced to a certain size ( Preset (4) d), the signal line L through which the hole H passes will not be broadcasted, resulting in poor contact. 0535-A21690TWF(N2); A06143; NORA 9 200829978 It should be noted that in Fig. 4, the hole 之间 between the support frames 121 is circular due to the design of the decorative casing of the display 10, but is not limited thereto. Referring to FIG. 5 to FIG. 5C, since the first axis XI is an X-axis rotation axis, when the body 131 and the rotating member 132 are relatively rotated about the first axis XI, the display panel is rotated vertically (eg, 5 (shown in the picture). The second axis X2 is perpendicular to the first axis X1 and the display panel 11, respectively. When the display panel 11 and the rotating member 132 are relatively rotated about the second axis S2, the display panel 11 can be rotated to the left or right to the upright position. Status (as shown in Figure 5B). The third axis X3 is also perpendicular to the first axis XI. When the support member 12 and the base 14 are relatively rotatable about the third axis X3, the display panel 11 is also interlocked and horizontally rotatable (as shown in Fig. 5C). The connecting member 13 of the display 10 of the present invention has the functions of rotating the display panel 11 in two axial directions (as shown in FIGS. 5A and 5B) and lifting and lowering (as shown in FIG. 1 and FIG. 1B), without additionally adding a lifting device. In addition, the third rotating unit R3 disposed at the second end E2 of the support member 12 can also indirectly drive the display panel 11 to rotate in another axial direction, compared with a conventional display having a three-axis rotary shaft assembly. The connecting member 13 of the display 10 of the present invention at the first end E1 of the support member 12 is combined with the first rotating unit R1 and the second rotating unit R2, and further a second rotating unit is coupled to the second end E2 of the supporting member 12. R3 can also achieve the purpose of rotating the display panel 11 in three directions. Since the process of the connector 13 is simplified, the man-hour for manufacturing the display 10 can be saved. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and those skilled in the art, without departing from the spirit of the invention, 0535-A21690TWF (N2); A061 43; NORA 10 200829978 and The scope of protection of the present invention is defined by the scope of the appended claims.
0535-A21690TWF(N2) ;A061 43;NORA 11 200829978 【圖式簡單說明】 第1A圖顯示本發明顯示器之連接件位於支撐件第一 端之示意圖; 第1B圖顯示本發明顯示器之連接件位於支撐件第二 端之不意圖, 第2A圖顯示本發明顯示器之内部結構,排除外部之裝 飾殼體、顯示面板與底座; 第2B圖顯示第2A圖中顯示器之分解圖; • 第3圖顯示本發明顯示器之侧視圖; 第4圖顯示本發明顯示器之後視圖;以及 第5A-5C圖顯示本發明顯示面板於不同方向轉動之作 動圖。 【主要元件符號說明】 10顯示器 11顯示面板 12支撐件 * 121支撐架 121S滑軌 122A、122B固定件 13連接件 13L鎖片 131本體 132旋轉件 133移動件 0535-A21690TWF(N2);A06143;NORA 12 200829978 14底座 A軸體 B實質定力機構之一端 B’卡勾 C截面 D總距離 d預設距離 E1第一端 • E2第二端 E3第三端 F1第一表面 F2第二表面 Η孔洞 L訊號線 R1第一旋轉單元 R2第二旋轉單元 ® R3第三旋轉單元 S1實質定力機構 S2扭力彈簧 XI第一軸 Χ2第二轴 Χ3第三轴 Υ長轴 0535-Α21690TWF(N2);A06143;NORA 130535-A21690TWF(N2) ; A061 43; NORA 11 200829978 [Simplified Schematic] FIG. 1A shows a schematic view of the connector of the display of the present invention at the first end of the support member; FIG. 1B shows the connector of the display of the present invention is located at the support The second end is not intended, and FIG. 2A shows the internal structure of the display of the present invention, excluding the outer decorative casing, the display panel and the base; FIG. 2B shows an exploded view of the display in FIG. 2A; A side view of the display of the invention is shown; Figure 4 shows a rear view of the display of the present invention; and Figures 5A-5C show an actuating view of the display panel of the present invention rotated in different directions. [Main component symbol description] 10 display 11 display panel 12 support member 121 121 support frame 121S slide rail 122A, 122B fixing member 13 connecting member 13L lock piece 131 body 132 rotating member 133 moving member 0535-A21690TWF (N2); A06143; NORA 12 200829978 14 base A shaft body B one side of the fixed force mechanism B' hook C section D total distance d preset distance E1 first end • E2 second end E3 third end F1 first surface F2 second surface boring hole L signal line R1 first rotation unit R2 second rotation unit® R3 third rotation unit S1 substantial constant force mechanism S2 torsion spring XI first axis Χ 2 second axis Χ 3 third axis Υ long axis 0535-Α21690TWF (N2); A06143 ;NORA 13