200817766 九、發明說明: 【發明所屬之技術領域】 本發明係種資訊處理周邊狀支撐支架,且特 別是有關於一種具定位與緩衝作用之支持支架。 【先前技術】 由於資訊處理周邊裝置不斷朝向尺寸小、操作多元的 趨勢發展’所讀讀理裝置或周邊組件製造者努力減少 安裝系統的尺相及增加操轉性。例如砂顯示器,陰 ,射線管’)顯示器’它通常具有較大的佔據面積與重 里,經常疋固疋的保持在永久不變的位置上,因此在桌上 移動CRT顯tfII是不切實際的。為了減少安裝資訊處理系 統之佔據©積,現在多以平面顯示器咖⑽㈣卿)來 取代CRT顯7FH,-般平面齡歸又崎晶顯示器⑽) 或電漿晝素為主。 因此,與CRT顯示器相較’平面顯示器具有較小的深 度與重量。由於平面顯示器較小的體積與重量,使資訊處 理周邊裝置使用者可以更輕易_麵示ϋ在桌面的位 置。此外’平面顯示器通常安裝在—個可以垂直或水平調 整顯不螢幕的鱗找上。支持核通常彻彈簧或線圈 等機構來㈣顯,柄高度位置,*且上鄉箬或線圈 等機構可以用來抵消顯示器的重量。因此,當支架連接顯 不益放置在如桌面時,顯示器可以被ϋ定在-定的高度位 6 200817766 她2 1賴2所示,為習知平面顯示11支持支架之摔 乍動作圖。習知支持支架包含基座u =: ==與按㈣她觸的定位機二= 支架12藉=接枝㈣移動。内 咖12軸細構(瞻 ^ 並支持顯不恭18之高度位置。當内支架12下 之=隨1時’岐架12之網部22讀定位機構17 23鎖疋。當按壓按鈕18時,觸動定位機構17脫離 倒勾部22,同時需將内支架12向下壓,内支架12才得以 脫離定位機構14並可垂直地位移。 換。之,消費者在調整顯示器18時,需要一隻手繞到 卜支架10後面按壓按鈕16,另一隻手還需要再按壓顯示器 18 ’才可以釋放並調整顯示器18的高低。顯而易見地,這 樣的操作方式顯得非f不便且補人性化。此外,目前並 未有發明人察覺或提$任何有瞻無按姐之支持支架。 【發明内容】 本發明之主要目的在於提供一種支持支架,沒有驅動元 件(按紐)之支持支架。 本發明之另一目的在於提供一種利用時間差,以降低定 位或嵌合速度的支持支架。 7 200817766 本發明之另一目的在於提供一種支持支架,可減少零組 件的設置,而使成本降低。 本發明之另一目的在於提供一種支持支架,更具人性化 之操作方式。 本發明之另一目的在於提供一種可應用於各種電子裝 置之支持支架。 本發明之一種支持支架包含外支架、内支架、定位機 構、至少一緩衝元件及彈性元件。内支架係可沿第一方向 移動地結合於外錢’蚊架設有餘。定賴構係可沿 第二方向鶴地設置於外支針,且定位機構可於第一位 置與第二位置财動。當定位機構錄第―位置時,定位 機構供與底針合;當定位機構婦至第二位置時,定位 機鋪放底座。_元件設置射卜妓並與定位機構之一 側抵觸。彈性元件分顺定位機構-端助支架之内壁抿 觸。其中,蚊位機構位於第二錄時,雅元件驅動定 位機構朝向第-位置移動,緩衝元件減緩定位機構之第二 方向位移速度。 車乂佳實%例巾,N趣較佳係沿垂直方向結合於外支 架,而雜機構較麵沿水平方向移祕設置於外支年 上。然而在其簡實㈣种,岐料定賴構㈣ 傾斜或其它方向設置於外古如 ° 少-卡榫及第-傾斜面,1。此外,底座較佳包含至 部、第二傾斜面及摩棒面H機構較佳包含至少一倒勾 卡榫與倒勾部得以彼此卡合, 200817766 第傾斜面與第二傾斜面相對應設置。 機構之一側面並與外支架内壁面相對應 摩擦面係位於定位 當内外支架彼此產生相對位移時,第—傾斜 二傾斜面’彈性元件受壓迫並使定位 =内支架之卡摔會脫離定位機構之倒勾位 B田彈性件驅動定位機構回復至第—位置時,因緩 ==面摩擦’而内支架之卡榫得以脫離定位機構 之限制而朝第一方向運動。 【實施方式】 本發明係提供-種讓使用者輕高低位置且符合人性 化操作的支敎架。_是,本發明省略了習知以按紐控 制支持支架之相關元件,但依然能達到相同效果並增加其 匕功效的發明。以較佳實施例而言,本發明之支持支架較 佳係應用於平賴示II之續核巾。細在其它不同的 實施例巾,亦可在驗ϋ材、照明設備或其它電子產品之 支持支架巾制。在此所說之可冑侧鶴構,係以彈菁、 線圈或氣壓缸等升降機構來實現。以下即進一步說明本發 明之較佳實施例所附圖式及步驟·· 如圖3a、圖3b及圖4所示,本發明之支持支架包含外 支架100、内支架200、定位機構3〇〇、至少一緩衝元件4〇〇 及彈性元件270。外支架1〇〇更包含至少一凹槽π〇,凹槽 110供緩衝元件400設置。内支架200係可沿第一方向移動 200817766 地結合於外支架100。内支架200進一步設有定位座21〇、 升降機構280及連接支持支架支座500。在如圖3a、圖北 及圖4所示之實施例中,定位座21〇較佳係設於内支架2〇〇 底端,且内支架200較佳係沿第一方向結合於外支架' 1〇〇 中。此處所言之第一方向較佳係為内支架2〇〇之一延伸方 向。然而在其它不同的實補巾,定健21()亦可設置於 内支架200之其它位置。内支架2〇〇亦可以斜向或水平移 動地與外支架_結合。此外,定位機構獅係可沿第二 方向移動地設置於外妓⑽巾,且定位機構_可於第 一位置與第二位置間移動。在此所述之第二方向即定位機 構300之-延伸方向,且第一位置及第二位置即定位機構 300分別位於卡合狀態及非卡合狀態之位置。在如圖如、 圖3b及圖4所示之實施例中,定位機構3〇〇較佳係可沪水 平方向移動地設置於外支架議上。内支架2⑽較^位 於外支架100之下’然而在其它不同之實施例中内支架 200亦可在外支架100之上。 ’、 圖4所示之實施例中,係設置有成對之緩衝元件400, 質較佳如絨布、導€布、娜或其它具適當雜力之200817766 IX. Description of the Invention: [Technical Field] The present invention relates to an information processing peripheral support bracket, and in particular to a support bracket having a positioning and cushioning function. [Prior Art] Since the information processing peripheral device is constantly moving toward a small size and a diversified operation, the readers of the reading device or peripheral components strive to reduce the scale of the mounting system and increase the maneuverability. For example, sand monitors, cathodes, and ray tubes ') displays 'which usually have a large footprint and weight, and are often kept in a permanent position, so moving the CRT on the table is unrealistic. . In order to reduce the occupation of the installed information processing system, it is now replaced by the flat-panel display coffee (10) (four) Qing) to replace the CRT 7FH, the general-level color is also the crystal display (10) or plasma. Therefore, the flat panel display has a smaller depth and weight than the CRT display. Due to the small size and weight of the flat panel display, the information processing peripheral device user can more easily display the position on the desktop. In addition, flat-panel displays are usually mounted on a scale that can be adjusted vertically or horizontally. Supporting the core is usually carried out by mechanisms such as springs or coils. (4) Display, handle height position, * and the mechanism such as Shangxiang or coil can be used to offset the weight of the display. Therefore, when the bracket connection is undesirably placed on a tabletop, the display can be set at a fixed height position. 6 200817766 She 2 2 depends on 2, which is a wrestling action diagram for the conventional flat display 11 support bracket. The conventional support bracket contains a pedestal u =: == with a press of (four) her touch positioner = bracket 12 borrowing = grafting (four) movement. The inner 12-axis is fine-tuned (viewing and supporting the height position of the display 18. When the inner bracket 12 is down = 1), the net portion 22 of the truss 12 reads the positioning mechanism 17 23 lock. When the button 18 is pressed The touch positioning mechanism 17 is disengaged from the hook portion 22, and the inner bracket 12 needs to be pressed downwards, and the inner bracket 12 can be disengaged from the positioning mechanism 14 and can be vertically displaced. In other words, the consumer needs to adjust the display 18 when needed. Only the hand is pressed around the back of the bracket 10 to press the button 16, and the other hand needs to press the display 18' again to release and adjust the height of the display 18. Obviously, such an operation is not inconvenient and cumbersome. At present, there is no inventor who perceives or mentions any support brackets that are not supported by the sister. SUMMARY OF THE INVENTION The main object of the present invention is to provide a support bracket without a driving member (button). Another object is to provide a support bracket that utilizes a time difference to reduce the positioning or fitting speed. 7 200817766 Another object of the present invention is to provide a support bracket that can reduce the setting of components, and Another object of the present invention is to provide a support bracket that is more user-friendly. Another object of the present invention is to provide a support bracket that can be applied to various electronic devices. A support bracket of the present invention includes The outer bracket, the inner bracket, the positioning mechanism, the at least one cushioning component and the elastic component. The inner bracket is movably coupled to the outer money 'mosquito frame in the first direction. The fixed structure can be disposed outside the crane in the second direction. The positioning pin is movable in the first position and the second position. When the positioning mechanism records the first position, the positioning mechanism is engaged with the bottom needle; when the positioning mechanism is in the second position, the positioning machine lays the base The component is placed on the side of the positioning mechanism and is in contact with one side of the positioning mechanism. The elastic component is divided into the positioning mechanism - the inner wall of the end support bracket is touched. Among them, the mosquito position mechanism is located at the second recording time, and the component driving mechanism is oriented toward the first - Position movement, the cushioning element slows down the displacement speed of the positioning mechanism in the second direction. The car 乂佳实% towel, N fun is preferably combined in the vertical direction to the outer bracket, and miscellaneous The structure is moved horizontally to the outer branch year. However, in its simple (four) species, the material is determined to be tilted or otherwise oriented in the outer world such as the less-card and the first-inclined surface. In addition, the base preferably includes a toe portion, a second inclined surface, and a mooring surface H mechanism. Preferably, the at least one barb and the hook portion are engaged with each other, and the inclined surface of the 200817766 is disposed corresponding to the second inclined surface. One side and the friction surface corresponding to the inner wall surface of the outer bracket is located when the inner and outer brackets are relatively displaced from each other, the first tilting two inclined surface 'the elastic element is pressed and the positioning = the inner bracket's card is disengaged from the positioning mechanism When the hook B field elastic member drives the positioning mechanism to return to the first position, the inner bracket can be moved in the first direction due to the restriction of the positioning mechanism due to the slowness of the surface friction. [Embodiment] The present invention provides a support frame that allows the user to operate in a light and low position and in accordance with humanized operation. That is, the present invention omits the conventional invention of controlling the support member of the support by the button, but still achieves the same effect and increases its efficiency. In the preferred embodiment, the support bracket of the present invention is preferably applied to the continuation of the lining of the II. It can be used in other different embodiments of the towel, or in the support of coffins, lighting equipment or other electronic products. The reclining crane structure mentioned here is realized by a lifting mechanism such as an elastic crystal, a coil or a pneumatic cylinder. The following is a further description of the preferred embodiment of the present invention and the steps of the present invention. As shown in Figures 3a, 3b and 4, the support bracket of the present invention comprises an outer bracket 100, an inner bracket 200, and a positioning mechanism 3 At least one cushioning element 4〇〇 and an elastic element 270. The outer bracket 1 further includes at least one groove π, and the groove 110 is provided for the cushioning member 400. The inner bracket 200 is coupled to the outer bracket 100 in a first direction of movement 200817766. The inner bracket 200 is further provided with a positioning seat 21A, a lifting mechanism 280, and a connection support bracket holder 500. In the embodiment shown in FIG. 3a, FIG. 4 and FIG. 4, the positioning seat 21 is preferably attached to the bottom end of the inner bracket 2, and the inner bracket 200 is preferably coupled to the outer bracket in the first direction. 1 〇〇. The first direction referred to herein is preferably one of the extending directions of the inner bracket 2''. However, in other different real patches, the setting 21 () can also be placed at other positions of the inner bracket 200. The inner bracket 2 can also be combined with the outer bracket _ obliquely or horizontally. Further, the positioning mechanism lion can be movably disposed in the second direction to the outer (10) towel, and the positioning mechanism _ can be moved between the first position and the second position. The second direction described herein is the extending direction of the positioning mechanism 300, and the first position and the second position, that is, the positioning mechanism 300 are located at the positions of the engaged state and the non-engaged state, respectively. In the embodiment shown in Fig. 3, Fig. 3b and Fig. 4, the positioning mechanism 3 is preferably disposed on the outer bracket in a horizontally movable manner. The inner bracket 2 (10) is positioned below the outer bracket 100. However, in other different embodiments the inner bracket 200 can also be above the outer bracket 100. In the embodiment shown in FIG. 4, a pair of cushioning elements 400 are provided, and the quality is preferably such as flannel cloth, cloth, or other suitable force.
π丹疋诅機構300之一端及内支架2〇〇 彈性元件270在未受力時,係分 i内支架200之内壁抵觸。定位 200817766 座210進一步包含至少一^^榫220及第一傾斜面230。其 中,第一傾斜面230係成形於卡榫220之下方。定位機構 300則包含凸出部310、至少一倒勾部320、第二傾斜面34〇 及摩擦面350(如圖4所示)。其中,摩擦面350係位於定位 機構300之底面上並與外支架100内壁面相對應設置。凸 出部310係與第二傾斜面340相連接並供套設彈性元件 270。在如圖5所示之實施例中,係包含對稱設置之兩個卡 榫220與兩個倒勾部320,並使卡榫220與倒勾部320得以 彼此卡合。此外,第-傾斜面230與第二傾斜面34〇較佳 係相對應設置。 如圖6所不,當内支架2〇〇與外支架1〇〇彼此產生相對 位移時,第一傾斜面咖會推擠第二傾斜面340,使彈性元 件=70又壓迫並使疋位機構_移動至第二位置叹如虛線 。此時内支架細之卡榫220(參圖7所示)會脫離定 二、構300之倒勾部32〇之限制,以使内支架細得以於 方向運動。在祕的操作過財,使时係垂直向下 =内支_,定位座_之第一傾斜面聊即會推動定 動4二傾斜面340 ’迫使定位機構300向左移 2此=離倒勾部320之曙如圖7所示)。 :='者是,當彈性元件270之回彈力使得定位 擦面350心/置八(即向右)移動時,緩衝元件棚與摩 ^。因此^ ^觸及摩擦減緩了定位機構300之回復速 度因此,内支架200得以利用倒勾部32〇與卡榫22〇回 200817766 復卡合前之時間差並配合升降機構調整其高低位置。 同理,當欲定位内支架200時,内支架觸與外支架 100會產生相對位移。此時,彈性元件270已驅使定位機構 300回復至第-位置A。在較佳之操作過程中,使用者 内支架垂直向下移動,使定位座21〇之卡摔22〇抵觸 定位機構300之倒勾部32〇,直至滑移至倒勾部32〇之内側 壁’以形成卡合,如圖7所示。其中需強調的是,定位内 支架2GG之力量需克服彈性元件之彈性力,才得以與定位 機構300之倒勾部32〇卡合。在如圖5、圖6及圖7輯之 實施例中,即係本發明較佳之操作流程示意圖。 如圖8所示,為本發明以電子裝置為較佳實施例之使 用狀態圖。支持支架與電子裝置本體6〇〇連接。外支架1〇〇 係連接或與基座120 —體成形設置,供支撐整個電子裝置 700之重量。在如圖8所示之實施例中,電子裝置7〇〇較佳 為平板顯示器。電子裝置7〇〇較佳係藉由支持支架支座 與内支架200相連。當調整或操控内支架2〇〇時,等於調 整或控制平板顯示器之高低升降位置。在此所述之平板顯 不器包含液晶顯示器及電漿顯示器。然而相關操控方式及 支持支架之相關結構同上所陳,在此不另贅述。 本發明已由上述相關實施例加以描述,然而上述實施 例僅為實施本發明之範例。必需指出的是,已揭露之實施 例並未限制本發明之範圍。相反地,包含於申請專利範圍 之精神及範圍之修改及均等設置均包含於本發明之範圍 12 200817766 内。 【圖式簡單說明】 圖1為習知平面顯示器支持支架之動作圖; 圖2為習知平面顯示器支持支架之另一動作圖; 圖3a為本發明之支持支架部分立體示意圖; 圖3b為本發明之支持支架另一角度之部分局部放大圖; 圖4為圖3a之分解示意圖; 圖5為本發明之支持支架之部分剖視圖; 圖6為本發明支持支架底座驅動定位機構朝第二方向移 動之一剖視放大圖; 圖7為本發明之支持支架底座與定位機構卡合之另一剖 視放大圖;以及 圖8為本發明支持支架以平板顯示器為較佳實施例之使 用狀態圖。 【主要元件符號說明】 100外支架 110凹槽 120基座 200内支架 210底座 220卡榫 230第一傾斜面 200817766 270彈性元件 280升降機構 300定位機構 310凸出部 320倒勾部 340第二傾斜面 350摩擦面 400緩衝元件 500支持支架支座 600電子裝置本體 700電子裝置One end of the π-tank mechanism 300 and the inner bracket 2 〇〇 the elastic member 270 is in contact with the inner wall of the bracket 200 when the force is not applied. Positioning 200817766 The seat 210 further includes at least one of the 220 and the first inclined surface 230. The first inclined surface 230 is formed below the cassette 220. The positioning mechanism 300 includes a projection 310, at least one undercut portion 320, a second inclined surface 34A, and a friction surface 350 (shown in FIG. 4). The friction surface 350 is located on the bottom surface of the positioning mechanism 300 and is disposed corresponding to the inner wall surface of the outer bracket 100. The projection 310 is coupled to the second inclined surface 340 and is provided with a resilient member 270. In the embodiment shown in Fig. 5, the two latches 220 and the two undercut portions 320 are symmetrically disposed, and the latch 220 and the hook portion 320 are engaged with each other. Further, the first inclined surface 230 and the second inclined surface 34 are preferably disposed correspondingly. As shown in FIG. 6, when the inner bracket 2〇〇 and the outer bracket 1〇〇 are displaced relative to each other, the first inclined surface will push the second inclined surface 340, so that the elastic element=70 is pressed and the clamping mechanism is pressed. _ Move to the second position and sigh like a dotted line. At this time, the inner bracket thin buckle 220 (shown in Fig. 7) will be deviated from the limit of the barb portion 32 of the fixed structure 300, so that the inner bracket can be moved in the direction. In the secret operation, the time is vertical downward = inner branch _, the first inclined surface of the positioning seat _ will push the fixed 4 second inclined surface 340 'force the positioning mechanism 300 to the left 2 this = fall The hook of the hook 320 is shown in Fig. 7). The ==' is that when the resilient force of the elastic member 270 causes the positioning wiper 350 to move/set eight (i.e., to the right), the cushioning member is shackled. Therefore, the contact friction slows down the recovery speed of the positioning mechanism 300. Therefore, the inner bracket 200 can adjust the time difference between the hook portion 32 and the click portion 22 before returning to the 200817766 and adjust the height position with the lifting mechanism. Similarly, when the inner bracket 200 is to be positioned, the inner bracket touches the outer bracket 100 to cause relative displacement. At this time, the elastic member 270 has urged the positioning mechanism 300 to return to the first position A. During the preferred operation, the inner bracket of the user moves vertically downwards, so that the card of the positioning seat 21 is broken 22 against the barb portion 32 of the positioning mechanism 300 until it slides to the inner side wall of the inverted hook portion 32' To form a snap, as shown in Figure 7. It should be emphasized that the force of positioning the inner bracket 2GG needs to overcome the elastic force of the elastic member to be engaged with the barb portion 32 of the positioning mechanism 300. In the embodiment shown in Figures 5, 6 and 7, it is a schematic diagram of a preferred operational flow of the present invention. As shown in Fig. 8, a state diagram of an electronic device as a preferred embodiment of the present invention is shown. The support bracket is connected to the electronic device body 6〇〇. The outer bracket 1 is tethered or integrally formed with the base 120 for supporting the weight of the entire electronic device 700. In the embodiment shown in Fig. 8, the electronic device 7 is preferably a flat panel display. Preferably, the electronic device 7 is coupled to the inner support 200 by a support bracket support. When adjusting or manipulating the inner bracket 2〇〇, it is equivalent to adjusting or controlling the height of the flat panel display. The flat panel display described herein includes a liquid crystal display and a plasma display. However, the relevant control methods and related structures of the support brackets are the same as above, and will not be further described herein. The present invention has been described by the above-described related embodiments, but the above embodiments are merely examples for implementing the present invention. It must be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, modifications and equivalents of the spirit and scope of the invention are included in the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an operation diagram of a conventional flat panel display support bracket; FIG. 2 is another operation diagram of a conventional flat panel display support bracket; FIG. 3a is a perspective view of a support bracket portion of the present invention; FIG. 4 is an exploded perspective view of FIG. 3a; FIG. 5 is a partial cross-sectional view of the support bracket of the present invention; FIG. 6 is a second embodiment of the support bracket base driving positioning mechanism of the present invention. FIG. 7 is another enlarged cross-sectional view showing the support bracket base and the positioning mechanism of the present invention; and FIG. 8 is a view showing the use state of the support bracket with the flat panel display as a preferred embodiment. [Main component symbol description] 100 outer bracket 110 recess 120 base 200 inner bracket 210 base 220 cassette 230 first inclined surface 200817766 270 elastic element 280 lifting mechanism 300 positioning mechanism 310 projection 320 reverse hook portion 340 second tilt Face 350 friction surface 400 cushioning element 500 support bracket support 600 electronic device body 700 electronic device