200949122 * * * * W A Α Λ & 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種旋轉機構及應用其之顯示器, 特別是有關於一種大角度之旋轉機構及應用其之顯示器。 【先前技術】 在電子產品發展的同時,越來越趨向人性化的設計。 舉例來說’為了方便使用者的工作,目前顯示器的螢幕經 ^ 常設計一旋轉機構來讓使用者自行轉動螢幕。 然而’顯示器目前所採用之旋轉機構中,僅可進行有 限角度旋轉c向左或右旋轉45度),而無法大角度旋轉(如 旋轉I80度至對向),增加使用上的不便。 因此如何提出一種旋轉機構以增加轉動的範圍實為 目前亟待研發之一重要目標。 【發明内容】200949122 * * * * WA Α Λ & IX, invention description: [Technical field of invention] The present invention relates to a rotating mechanism and a display using the same, and more particularly to a large-angle rotating mechanism and application thereof monitor. [Prior Art] At the same time as the development of electronic products, more and more humanized designs are becoming more and more popular. For example, in order to facilitate the user's work, the display screen of the display is often designed with a rotating mechanism for the user to turn the screen by himself. However, in the rotating mechanism currently used in the display, only a limited angular rotation c can be rotated 45 degrees to the left or right, and it is not possible to rotate at a large angle (e.g., I80 degrees to the opposite direction), which increases the inconvenience in use. Therefore, how to propose a rotating mechanism to increase the range of rotation is an important goal that needs to be developed urgently. [Summary of the Invention]
本發明係有關於一種旋轉機構及應用其之顯示器,其 利用第-連接件、第二連接件及墊片之設計使得顯示模組 可以輕易的轉動於各種角度範圍内。 ^本發月之實施例提出一種旋轉機構。旋轉機構設置 於第-物件與一第二物件間。旋轉機構包括一抱轴、一 =向件,套接於樞軸並 設—-第―:邊連 6 200949122 一位置或一第二位置並包括一第一凸塊。第一凸塊係可旋 轉地牴觸墊片之第一邊或第二邊。第二連接件設置於墊片 之一第二側並包括一第二凸塊。第二凸塊係牴觸墊片之第 一邊或第二邊。其中,當第一連接件置於第一位置時,第 一凸塊係鄰近第二凸塊並牴觸墊片之第一邊或第二邊。 本發明之另一實施例提出一種顯示器。顯示器包括一 顯示模組、一旋轉機構及一支撐座。旋轉機構用以帶動顯 示模組可旋轉地置於一第三位置或一第四位置。旋轉機構 鲁 包括一樞軸、一墊月、一第一連接件及一第二連接件。墊 片套接於樞軸並於徑向上具有一第一邊及一第二邊。第一 連接件套接於樞輪且設置於墊片之一第一侧。第一連接件 可繞樞軸旋轉於〜第一位置或一第二位置並包括一第一 凸塊。第一凸塊係可旋轉地牴觸墊片之第一邊或第二邊。 第二連接件設置於墊片之一第二侧並包括一第二凸塊。第 一凸塊係牴觸墊片之第一邊或第二邊。支撐座用以支撐顯 籲示模組及旋轉機構。其中,當第一連接件置於第一位置 日守’顯示模組係置於第三位置’第一凸塊係鄰近第二凸塊 並牴觸墊片之第一邊或第二邊。 為讓本發明之上述内容能更明顯易懂,下文特舉一較 佳實施例’並配合所附圖式’作詳細說明如下: 【實施方式】 請同時參照第1圖及第2圖’第1圖繪示本發明較佳 實施例之顯示器之組合圖,第2圖繪示本發明較佳實施例 7 200949122 之旋轉機構的分解圖。如第丨圖所示,顯示器丨包括一顯 示模組10、一旋轉機構2〇、一支撐座3〇及一傾仰鉸鍊4〇。 傾仰鉸鍊40連接顯示模組10及旋轉機構2〇,用以調整顯 示模組10相對支撐座30之一傾仰角。支撐座30包括一 支撐架301及一底座3〇2。此實施例中,旋轉機構2〇及底 座302分別連接於支撐架301之兩端。 如第2圖所示,旋轉機構20包括一第一連接件2〇1、 一樞軸202、一墊片203及一第二連接件204。第一連接 ❹件201包括一第一平板2〇11及一第一凸塊2〇12 (第一凸 塊2012係由第一平板2〇 11沖壓所形成,並凸向於墊片 203。故第2圖由上侧來觀看,係可觀看到第一凸塊2〇11 在第一平板2011所沖壓之凹陷),第二連接件2〇4包括一 、第二平板2041及一第二凸塊2042。第二凸塊2042亦凸向 於墊片203。此實施例中,第一連接件係設置於墊片 203之第一侧2〇3a (上側;+Ζ方向),第二連接件2〇4係 魯設置於塾片2〇3之第二側203b (下側;-z方向)。 此實施例中,枢軸202之貫穿第一連接件2〇1之第一 平板2011的貫穿孔2011a、墊片2〇3、第二連接件2〇4之 第二平板2041的貫穿孔2041a、固定於第二連接件2〇4 上,而第一連接件2011可繞著樞軸2〇2轉動。 請同時參照第1圖及第2圖,支撐架301之第一端 3〇la連接旋轉機構20之第二連接件2〇4。底座2〇3則連 接支撐架301之第二端3〇lb。即,顯示模組1〇、傾仰鉸 鍊40及第一連接件2〇1係相互連接,而樞軸2〇2、第二連 8 200949122 接件204、支撐架301及底座3〇2係相互連接。所以’當 使用者轉動顯示模組1〇時,同時第一連接件2〇丨也會繞 著樞軸202轉動’而樞軸202、支撐架3〇1及底座302則 不轉動。 在使用者轉動顯示模組1〇的過程中,係透過設置於 第一連接件201及第二連接件204之間的墊片203來逵 控制顯示模組10之轉動的效果。為了清楚說明塾片=到 如何達到控制顯示模組10之轉動範圍的效果,以下係| 第3A〜3E圖說明如下,第3A〜3E圖繪示第i圖之二以 之轉動示意圖。 …w器 首先,如第3A圖所示,第一連接件2〇1係位於 位置(第一平板2011之凹口 2011b朝-Y方向),顯示〜 10係位於第三位置(顯示模組10之顯示面朝-Y方向、級 詳細的說,墊片203於徑向上具有一第一邊肋心及1〜。 ,邊203d。在第3A圖中,第一連接件201之第一凸〜篥 ❿ 係鄰近第二連接件204之第二凸塊2042並牴觸墊片2〇12 之第一邊203c。 2〇3 接著,如第3A、3B圖所示,當使用者順時針 示模組10由第三位置轉動至第四位置(顯示模組動_ 示面朝+Y方向),第一連接件201也由第一位置 欠· 動至第二位置(第一平板2011之凹口 2011b朝上斜轉 向)。在第一連接件2〇1轉動的過程中,第一凸 方 第一連接件201轉動,而第二凸塊2〇42維持不20丨2隨 凸塊2012遠離第二凸塊2〇42,直到抵觸於墊片如。苐〜 9 200949122 二邊 203d。 其中,墊片203之第 一缺口 2031,缺口 2rm〆 畀乐透2〇3d係形成 缺口麗係為⑽度於糊度。在本實施例中, 之活動範圍則被限制於缺^^ 2012及第—凸塊2042 口 2〇31係為⑽度,所m3心由於本實施例之缺 極限為180度。連帶地 接件2〇1順時針旋轉之 亦為⑽度。 1 員示模組Μ順時針旋轉之極限 參The present invention relates to a rotating mechanism and a display using the same, which utilizes the design of the first connector, the second connector and the spacer to allow the display module to be easily rotated in various angular ranges. The embodiment of the present month proposes a rotating mechanism. The rotating mechanism is disposed between the first object and a second object. The rotating mechanism comprises a holding shaft, a = direction member, and is sleeved on the pivot shaft and arranged - the first: the side joint 6 200949122 a position or a second position and includes a first bump. The first bump is rotatably contacting the first or second side of the spacer. The second connector is disposed on the second side of the spacer and includes a second bump. The second bump is the first side or the second side of the spacer. Wherein, when the first connecting member is placed in the first position, the first bump is adjacent to the second bump and touches the first side or the second side of the spacer. Another embodiment of the present invention provides a display. The display includes a display module, a rotating mechanism and a support base. The rotating mechanism is configured to drive the display module to be rotatably disposed in a third position or a fourth position. The rotating mechanism includes a pivot, a pad, a first connecting member and a second connecting member. The pad is sleeved on the pivot and has a first side and a second side in the radial direction. The first connecting member is sleeved on the pivoting wheel and disposed on a first side of the spacer. The first connector is pivotable to a first position or a second position and includes a first bump. The first bump rotatably contacts the first side or the second side of the spacer. The second connector is disposed on the second side of one of the spacers and includes a second bump. The first bump contacts the first or second side of the shim. The support base is used to support the display module and the rotating mechanism. Wherein, when the first connector is placed in the first position, the display module is placed in the third position. The first bump is adjacent to the second bump and touches the first side or the second side of the spacer. In order to make the above description of the present invention more comprehensible, a detailed description of the preferred embodiment of the present invention will be described in detail below with reference to the accompanying drawings: [Embodiment] Please refer to FIG. 1 and FIG. 2 simultaneously. 1 is a combination view of a display of a preferred embodiment of the present invention, and FIG. 2 is an exploded view of a rotating mechanism of a preferred embodiment 7 200949122 of the present invention. As shown in the figure, the display unit includes a display module 10, a rotating mechanism 2〇, a support base 3〇, and a tilting hinge 4〇. The tilting hinge 40 is connected to the display module 10 and the rotating mechanism 2'' to adjust the tilting angle of the display module 10 with respect to one of the support bases 30. The support base 30 includes a support frame 301 and a base 3〇2. In this embodiment, the rotating mechanism 2 and the base 302 are respectively coupled to both ends of the support frame 301. As shown in FIG. 2, the rotating mechanism 20 includes a first connecting member 2, a pivot 202, a spacer 203, and a second connecting member 204. The first connecting member 201 includes a first flat plate 2〇11 and a first protruding block 2〇12 (the first protruding block 2012 is formed by stamping the first flat plate 2〇11 and protruding toward the spacer 203. 2 is viewed from the upper side, and the recessed portion of the first bump 2 〇 11 is stamped on the first flat plate 2011. The second connecting member 2 〇 4 includes a first plate, a second plate 2041 and a second protrusion. Block 2042. The second bump 2042 also protrudes toward the spacer 203. In this embodiment, the first connecting member is disposed on the first side 2〇3a of the spacer 203 (upper side; + Ζ direction), and the second connecting member 2〇4 is disposed on the second side of the cymbal 2〇3 203b (lower side; -z direction). In this embodiment, the through hole 2011a of the first plate 2011 of the first connecting member 2〇1 of the pivot 202, the spacer 2〇3, and the through hole 2041a of the second plate 2041 of the second connecting member 2〇4 are fixed. On the second connecting member 2〇4, the first connecting member 2011 is rotatable about the pivot 2〇2. Referring to FIGS. 1 and 2 simultaneously, the first end 3〇1a of the support frame 301 is connected to the second connecting member 2〇4 of the rotating mechanism 20. The base 2〇3 is connected to the second end 3〇lb of the support frame 301. That is, the display module 1〇, the tilting hinge 40, and the first connecting member 2〇1 are connected to each other, and the pivot 2〇2, the second connected 8200949122 connector 204, the support frame 301, and the base 3〇2 are mutually connected. connection. Therefore, when the user rotates the display module 1 ,, the first connecting member 2 〇丨 also rotates around the pivot 202 ′ while the pivot 202 , the support frame 3 〇 1 and the base 302 do not rotate. During the rotation of the display module 1 by the user, the effect of the rotation of the display module 10 is controlled by the spacer 203 disposed between the first connecting member 201 and the second connecting member 204. In order to clarify the effect of the cymbal = to how to control the range of rotation of the display module 10, the following paragraphs 3A to 3E are illustrated as follows, and FIGS. 3A to 3E are diagrams showing the rotation of the second embodiment. First, as shown in FIG. 3A, the first connecting member 2〇1 is located at the position (the notch 2011b of the first flat plate 2011 is in the -Y direction), and the display 10 is located at the third position (the display module 10) The display surface faces the -Y direction, and the level of the spacer 203 has a first side rib center and a side 203d in the radial direction. In the 3A view, the first protrusion of the first connecting member 201 is 〜篥❿ is adjacent to the second protrusion 2042 of the second connecting member 204 and touches the first side 203c of the spacer 2〇12. 2〇3 Next, as shown in FIGS. 3A and 3B, when the user shows the mode clockwise The group 10 is rotated from the third position to the fourth position (the display module moves toward the +Y direction), and the first connecting member 201 is also moved from the first position to the second position (the notch of the first plate 2011) 2011b is turned upwards obliquely.) During the rotation of the first connecting member 2〇1, the first convex first connecting member 201 rotates, and the second convex portion 2〇42 maintains not 20丨2 with the protruding block 2012 away from the first Two bumps 2〇42, until they interfere with the gasket such as 苐~9 200949122 two sides 203d. Among them, the first notch 2031 of the spacer 203, the notch 2rm 〆畀 Lotto 2〇3d The formation of the notch is (10) degrees to the paste. In the present embodiment, the range of motion is limited to the absence of the ^^2012 and the first bump 2042, the port 2, 31 is (10) degrees, the m3 heart is due to this embodiment The missing limit is 180 degrees. The grounding joint 2〇1 is also rotated clockwise by (10) degrees. 1 The limit parameter of the module Μ clockwise rotation
然後,如第3Β、3C圖所示,當使用者 動顯示模組H)由第四位置回至第三位置時m轉 2〇1也由第二位置逆時針轉動回至第-位置。d 件2〇1轉動的過程中,第—凸塊隨第—連接件^ 轉動,而第二凸塊2042則維持不動。第-凸塊2012靠近 第二凸塊難,直到與第二凸塊2042-起抵觸於塾片罪2〇3 之第一邊203c。 此外如第3C、3D圖所示,當使用者逆時針轉動顯 不模組ίο由第二位置轉動至第四位置時,第一連接件2〇ι 也由第一位置逆時針轉動至第二位置。在第一連接件2〇1 轉動的過程中,第一凸塊2〇12隨第一連接件201轉動, 而第一凸塊2042則維持不動。第一凸塊2〇12推動塾片203 之第一邊203c、使墊片203逆時針旋轉,第一凸塊2〇12 遠離第二凸塊2042,直到墊片203之第二邊203d抵觸第 二凸塊2042。此時,第一凸塊2012遠離於第二凸塊2042, 並且第一凸塊20Id及第二凸塊2042分別抵觸於墊片203 200949122 之第一邊203c及第二邊203d。 接著’如第3D、3E圖所示,當使用者再以順時針轉 動顯示模組10由第四位置轉動回至第三位置時,第一連 接件201也由第二位置順時針轉動回至第一位置。在第一 連接件201轉動的過程中,第一凸塊2〇12隨第一連接件 201轉動,而第二凸塊204則維持不動。第一凸塊2〇12靠 近第二凸塊2042,直到與第二凸塊2〇12 —起抵觸於墊片 203之第二邊2〇3d。 如此一來’使用者可依其習慣順時針或以逆時針轉動 顯示模組,而達到大角度旋轉的效果。 請再參照第1圖,雖然上述實施例係將旋轉機構2〇 設置於傾仰鉸鍊40及支撐架3〇1之間,然而旋轉機構2〇 之設置位置並不侷限於上述實施例。設計者係可依據實際 需求’考量哪些物件需要相對旋轉而將旋轉機構2〇設置 於該等物件間。例如,旋轉機構2〇亦可設置於支撐架3〇1 及底座302之間。即,支撐架3〇1之第一端3〇la連接顯 示模組10’支撐架301之第二端3〇lb連接旋轉機構2〇‘之 第-連接件201 ’旋轉機構2G之第二連接件2()4則與底座 203連接,使得顯示模組10在相對底座2〇3旋轉時,支撐 架301也隨顯示模組1〇轉動。 雖然上述實施例之塾片2G3之缺口蠢係以18〇度 為例做說明’然而墊片2G3之缺σ 2Q31的角度並不偈限 於上述實施例之18G度。舉例來說,請參照第4圖其緣 示本發明中t*片之另-實施例。如第4圖所示,墊片· 200949122 之缺口 2031的角度係為225度。所以,第一凸塊2012及 第二凸塊2042可以移動之範圍由180度增加到225度, 將使得顯示模組10可以被順時針轉動225度,亦可被逆 時針轉動225度。墊片203之缺口 2031小於360度均有 可能實施,設計者係可依據實際需求來做應用。 本發明上述實施例所揭露之旋轉機構及應用其之顯 示器,係利用第一連接件、第二連接件及墊片之設計使得 顯示模組可以輕易的轉動於各種角度範圍内。 ❹ 綜上所述,雖然本發明已以一較佳實施例揭露如上, 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。Then, as shown in Figures 3 and 3C, when the user moves the display module H) from the fourth position to the third position, the m rotation 2〇1 is also rotated counterclockwise from the second position to the first position. During the rotation of the d member 2〇1, the first bump rotates with the first connecting member ^, and the second bump 2042 remains stationary. The first bump 92 is difficult to approach the second bump until it interferes with the second bump 2042- against the first side 203c of the smear 2〇3. In addition, as shown in FIGS. 3C and 3D, when the user rotates the display module counterclockwise to rotate from the second position to the fourth position, the first connecting member 2〇1 is also rotated counterclockwise from the first position to the second position. position. During the rotation of the first connecting member 2〇1, the first bump 2〇12 rotates with the first connecting member 201, and the first bump 2042 remains stationary. The first bump 2 〇 12 pushes the first side 203 c of the cymbal 203 to rotate the pad 203 counterclockwise, and the first bump 2 〇 12 is away from the second bump 2042 until the second side 203 d of the spacer 203 is in contact with the first Two bumps 2042. At this time, the first bumps 2012 are away from the second bumps 2042, and the first bumps 20Id and the second bumps 2042 respectively abut the first side 203c and the second side 203d of the spacer 203 200949122. Then, as shown in FIGS. 3D and 3E, when the user rotates the display module 10 clockwise back to the third position by clockwise, the first connecting member 201 is also rotated clockwise from the second position to First position. During the rotation of the first connecting member 201, the first projection 2〇12 rotates with the first connecting member 201, and the second projection 204 remains stationary. The first bump 2 〇 12 is adjacent to the second bump 2042 until it abuts the second bump 2 〇 12 against the second side 2 〇 3d of the spacer 203. In this way, the user can rotate the display module clockwise or counterclockwise according to his or her habits, and achieve the effect of rotating at a large angle. Referring to Fig. 1, in the above embodiment, the rotating mechanism 2 is disposed between the reclining hinge 40 and the support frame 3〇1. However, the position of the rotating mechanism 2 is not limited to the above embodiment. The designer can set the rotating mechanism 2 to be placed between the objects according to actual needs. For example, the rotating mechanism 2〇 may also be disposed between the support frame 3〇1 and the base 302. That is, the first end 3〇1a of the support frame 3〇1 is connected to the second end 3〇1b of the support frame 301 of the support frame 301, and the second connection of the first connection piece 201' the rotation mechanism 2G of the rotation mechanism 2〇' The piece 2() 4 is connected to the base 203, so that when the display module 10 rotates relative to the base 2〇3, the support frame 301 also rotates with the display module 1〇. Although the notch of the cymbal 2G3 of the above embodiment is exemplified by 18 degrees as an example, the angle of the sigma 2Q31 of the spacer 2G3 is not limited to the 18G degree of the above embodiment. For example, please refer to Fig. 4, which illustrates another embodiment of the t* film of the present invention. As shown in Fig. 4, the angle of the notch 2031 of the spacer·200949122 is 225 degrees. Therefore, the range in which the first bumps 2012 and the second bumps 2042 can be moved from 180 degrees to 225 degrees will cause the display module 10 to be rotated 225 degrees clockwise or 225 degrees counterclockwise. The notch 2031 of the gasket 203 is less than 360 degrees, and the designer can apply it according to actual needs. The rotating mechanism and the display of the same disclosed in the above embodiments of the present invention utilize the design of the first connecting member, the second connecting member and the spacer so that the display module can be easily rotated in various angular ranges. In the above, the present invention has been disclosed in a preferred embodiment, and is not intended to limit the present 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.
12 200949122 【圖式簡單說明】 第1圖繪示本發明較佳實施例之顯示器之組合圖; 第2圖繪示本發明較佳實施例之旋轉機構的分解圖; 第3A〜3E圖繪示第1圖之顯示器之轉動示意圖;以 及 第4圖繪示本發明中墊片之另一實施例。 【主要元件符號說明】 203c :墊片之第一邊 203d :墊片之第二邊 204 :第二連接件 2041 :第二平板 2041a:第二平板之貫穿孔 2042 :第二凸塊 30 :支撐座 301 :支撐架 301a :第一端 301b :第二端 302 :底座 40 :傾仰鉸鍊 _ 1 :顯示器 1 〇 :顯示模組 20 :旋轉機構 201 :第一連接件 2011 :第一平板 2011a :第一平板之貫穿孔 2011b :第一平板之凹口 2012 :第一凸塊 ® 202 :樞軸 203 :墊片 2031 :缺口 203a :墊片之第一側 203b :墊片之第二側 1312 200949122 [Brief Description of the Drawings] FIG. 1 is a combination view of a display according to a preferred embodiment of the present invention; FIG. 2 is an exploded view of a rotating mechanism according to a preferred embodiment of the present invention; FIGS. 3A to 3E are diagrams A schematic view of the rotation of the display of Fig. 1; and Fig. 4 illustrates another embodiment of the spacer of the present invention. [Main component symbol description] 203c: first side 203d of the spacer: second side 204 of the spacer: second connecting member 2041: second flat plate 2041a: through hole 2042 of the second flat plate: second bump 30: support Seat 301: support frame 301a: first end 301b: second end 302: base 40: tilting hinge _ 1 : display 1 〇: display module 20: rotating mechanism 201: first connecting piece 2011: first flat plate 2011a: First plate through hole 2011b: first plate notch 2012: first bump® 202: pivot 203: spacer 2031: notch 203a: first side 203b of the spacer: second side of the spacer 13