201004547 九、發明說明: 【發明所屬之技術領域】 襞置,尤指一種 ,使動作單元可 垂直向轉動之三 本發明係關於一種三軸向調整之承载 可利用框架、調整單元及固接單元之配合 於框架上進行垂直向移動、水平向轉動及 轴向調整者。 【先前技術】 按 般習用 ^ 口 之電腦機殼中於設置風扇、燈具或相關 所而之物0口時1通常係以所需之框架及固定元件之配合進 行組裝;藉以邊z, 雙到固設於電腦機殼中進行所需之使用動作。 雖然上述 用之風扇、燈具或相關之物品可利用框架 及口疋元件固毁於電腦機殼中進行使用;但是由於該風 扇^ 或相關之物品於設置之後,其相關之位置及角度201004547 IX. Description of the invention: [Technical field to which the invention pertains] The invention, in particular, a mechanism for causing an action unit to be vertically rotatable. The invention relates to a three-axially adjustable load-bearing frame, an adjustment unit and a fastening unit. It is matched with the frame for vertical movement, horizontal rotation and axial adjustment. [Prior Art] When the fan, the luminaire or the related object is installed in the computer case of the conventional computer, it is usually assembled with the required frame and fixing components; It is fixed in the computer case for the required use action. Although the fan, luminaire or related article used above can be used in a computer case by using a frame and a port element, the position and angle of the fan or related article are set after the setting.
白呈固疋之狀態,因此,當該電腦機殼中欲增加其他設備, 或疋風扇\楼戽或相關之物品需進行相關位置之調整時’ 則必須要將風屬、燈具或相關之物品於框架上進行拆卸, 待相關設置之饮置確定之後再進行組裝,進而造成使用上 之不便’况且’由於該風扇、燈具S相關之物②係為固定 之位置及角度,而無法進行調整,因此,在實除運用上較 不符合電腦,制者之所需。 【發明内容】 因此本發明之主要目的係在於,可利用雜架、調整 5 201004547 單元及固接單元之配合,使動作單元可於框架上進行垂直 向移動、水平向轉動及垂直向轉動之三軸向調整之功效。 為達上述之目的,本發明之一種三軸向調整之承載裝 置,包含一框架,其具有一滑槽;一調整單元,其與該框 架活動結合,該調整單元具有活動設於該滑槽且一端具有 一支撐板之一桿體、套設於該桿體且對應該滑槽一面之一 頂推件,及活動設於該桿體另一端且對應該滑槽另一面之 一撥桿;一固接單元,其與該調整單元活動結合,該固接 單元之一面具有與該頂推件抵靠之一鋸齒部,該鋸齒部設 有供該桿體穿設之一長孔,該固接單元之另一面與該桿體 之該支撐板抵靠;以及一動作單元,其設於該固接單元。 【實施方式】 請參閱『第一圖及第二圖』所示,係分別為本發明之 立體分解示意圖及立體外觀示意圖。如圖所示··本發明之 一種三軸向調整之承載裝置,其至少係由一框架1、一調 整單元2、一固接單元3以及一動作單元4所構成。 上述所提之框架1具有一滑槽11。 該調整單元2係與框架1活動結合,其具有一活動設 置於滑槽1 1中且一端具有支撐板2 1 1之桿體2 1、一 套設於桿體2 1上且對應滑槽1 1一面之頂推件2 2、一 活動設於桿體2 1另一端且對應滑槽1 1另一面之撥桿2 3,其中該桿體2 1之另一端係具有一軸孔2 1 2,且該 撥桿2 3上係具有與該軸孔2 1 2對應之偏心孔2 3 1, 201004547 而該偏心孔2 3 1與軸孔2 1 2中係穿設有一梢件2 4, 使該桿體2 1與撥桿2 3活動結合,而該頂推件2 2之一 面上係具干涉面2 2 1。 該固接單元3係與調整單元2活動結合且呈曲弧狀, 該固接單元3之一面上係具有一與頂推件2 2上所設干涉 面2 2 1抵靠之鋸齒部3 1,該鋸齒部3 1於中央處係設 有供桿體2 1穿設之一長孔32,且該固接單元3之另一 面係與桿體21—端之支撐板211抵靠。 該動作單元4係設置於固接單元3上,該動作單元4 係可為風扇。如是,藉由上述之結構構成一全新之三轴向 調整之承載裝置。 請參閱『第三圖至第八圖』所示,係分別為本發明之 使用狀態示意圖、垂直向移動狀態示意圖、固定狀態示意 圖、水平向轉動狀態不意圖、固定狀態不意圖及垂直向轉 動狀態示意圖。如圖所示:當使用時,係可將該框架1設 置於一電腦機殼5中,或其他電子設備上,此時,則可依 據該動作單元4欲裝設之位置進行相關之調整動作。 當動作單元4進行垂直向之高度調整時(請同時參閱 第一圖及第四圖所示),係先行逆時針扳動該調整單元2之 撥桿2 3,利用該撥桿2 3之偏心孔2 3 1配合梢件2 4,使該桿體2 1略往動作單元4之方向移動,此時,該 固接單元3則離開頂推件2 2不再緊靠,讓撥桿2 3及頂 推件2 2於框架1之二面產生間距,如此,即可施以垂直 向之外力於動作單元4上,使桿體2 1於框架1之滑槽1 7 201004547 2 向移動’待調整至預定之位置時,再將該撥桿2 3順日请扳動,使該撥桿2 3拉引桿體2丄,讓桿體2工 一端之支撐板2 i !抵靠於該固接單w之另—面,同時 讓固接單元3之鑛齒部3 1與頂推件2 2之干涉面2 2工 嚷合,使該撥桿2 3及頂推件2 2夾持於框架丄上,而固 定動作單元4調整後之位置。 當動作單704進行水平向角度調整時(請同時參閱第 I圖、第五圖及第六圖騎),係先行向上(垂直紙面)板 ^該調整單元2之撥桿2 3,利用該撥桿2 3之偏心孔2 1配合梢件24,使該桿體2 1略往動作單元4之方向 移動’此時’該固接單元3則離開頂推件2 2不再緊靠, 讓撥桿2 3及頂推件2 2於框架工之二面產生間距,如 即可施以水平向外力於動作單元4上,使動作單元4 帶動固接單元3水平向轉動,讓固接單元3以其長孔^ 2 於桿體2 1上進行轉動調整,待調整至預定之角度時,再 =該撥桿2 3向下(垂直紙面)扳動,使該撥桿23拉引 ^體21讓;^體21 —端之支擇板2丄丄抵靠於該固接 單元3之另一面’同時讓固接單元3之鋸齒部3丄與頂推 件2 2之干涉面2 2 I1®合’使該撥桿2 3及頂推件2 2 夾持於框架1上’而固定動作單元4調整後之位置。 田+動作單凡4進行垂直向角度調整時(請同時參閱第 圖、第七圖及第人圖所示),係先行向上扳動該調整單元 2之撥桿2 3,利用該撥桿2 3之偏心孔2 3 i配合梢件 2 4使々干體2 1略往動作單S 4之方向移動,此時, 201004547 該固接單元3則離開頂推件2 2不再緊靠,讓撥桿2 3及 頂推件2 2於框架1之二面產生間距,如此,即可施以垂 直向外力於動作單元4上,使動作單元4帶動固接單元 3,讓固接單元3以其長孔3 2於桿體2 1上進行轉動調 整,待調整至預定角度後,再將該撥桿2 3向下扳動,使 該撥桿2 3拉引桿體2 1,讓桿體2 1—端之支撐板2 1 1抵靠於該固接單元3之另一面,同時讓固接單元3之鋸 齒部3 1與頂推件2 2之干涉面2 2 1嚅合,使該撥桿2 3及頂推件2 2夾持於框架1上,而固定動作單元4調整 後之位置。 如此,即可利用框架1、調整單元2及固接單元3之 配合,使動作單元4可於框架1上進行垂直向移動、水平 向轉動及垂直向轉動之三軸向調整之功效。 請參閱『第九圖』所示,係本發明動作單元之另一實 施例示意圖。如圖所示:本發明之動作單元除可為上述所 提之風扇外,當實際運用時該動作單元4a亦可為燈具, 或其他相關之物體,藉以使本創作更能符合實際使用時之 所需。 綜上所述,本發明三軸向調整之承載裝置可有效改善 習用之種種缺點,可利用框架、調整單元及固接單元之配 合,使動作單元可於框架上進行垂直向移動、水平向轉動 及垂直向轉動之三轴向調整之功效,進而使本發明之產生 能更進步、更實用、更符合使用者之所需,確已符合發明 專利申請之要件,爰依法提出專利申請。 9 201004547 惟以上所述者,僅為本發明之較佳實施例而已,當不 能以此限定本發明實施之範圍;故,凡依本發明申請專利 範圍及發明說明書内容所作之簡單的等效變化與修飾,皆 應仍屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 第一圖,係本發明之立體分解示意圖。 第二圖,係本發明之立體外觀示意圖。 第三圖,係本發明之使用狀態示意圖。 第四圖,係本發明之垂直向移動狀態示意圖。 第五圖,係本發明之固定狀態示意圖。 第六圖,係本發明之水平向轉動狀態示意圖。 第七圖,係本發明之固定狀態示意圖。 第八圖,係本發明之垂直向轉動狀態示意圖。 第九圖,係本發明動作單元之另一實施例示意圖。 【主要元件符號說明】 框架1 滑槽1 1 調整單元2 桿體2 1 支撐板2 1 1 軸孔2 1 2 10 201004547 頂推件2 2 干涉面2 2 1 撥桿2 3 偏心孔2 3 1 梢件2 4 固接單元3 鋸齒部3 1 長孔3 2 動作單元4 動作單元4 a 電腦機殼5White is in a state of solidity. Therefore, when other equipment is to be added to the computer casing, or when the fan/building or related items need to be adjusted, the wind, lamps or related items must be added. Disassemble on the frame, and then assemble after the relevant settings are determined, which may cause inconvenience in use. [Because the fan and the lamp S are related to the fixed position and angle, the adjustment cannot be performed. Therefore, it is less suitable for the computer and the manufacturer in the actual use. SUMMARY OF THE INVENTION Therefore, the main object of the present invention is to make use of the miscellaneous frame, the adjustment 5 201004547 unit and the fixing unit, so that the action unit can perform vertical movement, horizontal rotation and vertical rotation on the frame. The effect of axial adjustment. In order to achieve the above object, a three-axis adjustment carrying device of the present invention comprises a frame having a sliding slot; an adjusting unit coupled to the frame, the adjusting unit having an activity disposed on the sliding slot and One end has a rod body of one supporting plate, a pushing member disposed on the rod body and corresponding to one side of the sliding groove, and a movable rod disposed at the other end of the rod body and corresponding to one of the other sides of the sliding groove; a fixing unit, which is combined with the adjusting unit, the one surface of the fixing unit has a serration portion abutting against the pushing member, and the serration portion is provided with an elongated hole for the rod body to be inserted, the fixing The other side of the unit abuts the support plate of the rod body; and an action unit is disposed on the fixing unit. [Embodiment] Please refer to the first and second figures, which are respectively a perspective exploded view and a schematic perspective view of the present invention. As shown in the drawings, a three-axis adjustment carrying device of the present invention comprises at least a frame 1, an adjusting unit 2, a fixing unit 3 and an action unit 4. The frame 1 mentioned above has a chute 11. The adjusting unit 2 is movably coupled to the frame 1 and has a rod body 2 1 which is disposed in the sliding slot 1 1 and has a supporting plate 2 1 1 at one end, and a set is disposed on the rod body 2 1 and corresponding to the chute 1 1 a top pushing member 2 2, a movable rod is disposed at the other end of the rod body 2 1 and corresponding to the other side of the sliding groove 1 1 , wherein the other end of the rod body 2 1 has a shaft hole 2 1 2, And the lever 2 3 has an eccentric hole 2 3 1, 201004547 corresponding to the shaft hole 2 1 2 , and the eccentric hole 2 3 1 and the shaft hole 2 1 2 are provided with a tip piece 2 4 The rod body 2 1 is movably coupled to the lever rod 2 3, and one surface of the pushing member 2 2 is provided with an interference surface 2 2 1 . The fixing unit 3 is movably combined with the adjusting unit 2, and has a zigzag portion 3 1 on one side of the fixing unit 3 opposite to the interference surface 2 2 1 provided on the pushing member 2 2 . The serration portion 31 is provided at the center with one long hole 32 for the rod body 21 to pass through, and the other surface of the fixing unit 3 abuts against the support plate 211 of the rod body 21 end. The action unit 4 is disposed on the fastening unit 3, and the action unit 4 can be a fan. If so, a new three-axis adjustment carrier is constructed by the above structure. Please refer to the "third to eighth" diagrams, which are respectively a schematic diagram of the state of use of the present invention, a schematic diagram of a vertical movement state, a schematic diagram of a fixed state, a non-intentional state of a horizontal rotation, a non-intentional state of a fixed state, and a state of vertical rotation. schematic diagram. As shown in the figure, when used, the frame 1 can be placed in a computer case 5 or other electronic device. In this case, the relevant adjustment action can be performed according to the position to be installed by the action unit 4. . When the action unit 4 performs the vertical height adjustment (please refer to the first figure and the fourth figure at the same time), the lever 2 3 of the adjustment unit 2 is firstly turned counterclockwise, and the eccentricity of the lever 2 3 is utilized. The hole 2 3 1 is matched with the tip piece 2 4 to move the rod body 2 1 slightly in the direction of the action unit 4, at this time, the fixing unit 3 is away from the pushing member 2 2 and is no longer abutting, so that the lever 2 3 And the pushing member 2 2 creates a spacing on the two sides of the frame 1, so that the vertical force can be applied to the action unit 4, so that the rod body 21 moves toward the chute 1 7 201004547 2 of the frame 1 When adjusting to the predetermined position, please move the lever 2 3 so that the lever 2 3 pulls the rod body 2 丄, so that the support plate 2 i ! at the working end of the rod body 2 abuts against the solid The other side of the order w, while the mineral tooth portion 3 1 of the fixing unit 3 and the interference surface 2 2 of the pushing member 2 2 are engaged, so that the lever 2 3 and the pushing member 2 2 are clamped The frame is squatted and the fixed action unit 4 is adjusted to the position. When the action sheet 704 is adjusted horizontally (please refer to FIG. 1 , FIG. 5 and FIG. 6 at the same time), it is first to go up (vertical paper) board ^ the lever 2 3 of the adjustment unit 2, and use the dial The eccentric hole 2 1 of the rod 2 3 is engaged with the tip piece 24, so that the rod body 2 1 is slightly moved in the direction of the action unit 4. At this time, the fixing unit 3 is separated from the pushing member 2 2 and is no longer abutted. The rod 2 3 and the pushing member 2 2 are spaced apart on the two sides of the frame work, for example, a horizontal outward force is applied to the action unit 4, so that the action unit 4 drives the fixed unit 3 to rotate horizontally, so that the fixing unit 3 is The long hole 2 is rotated and adjusted on the rod body 2, and when it is adjusted to a predetermined angle, the lever 2 3 is pulled downward (vertical paper surface), so that the lever 23 pulls the body 21 Let the support plate 2 of the body 21 end against the other side of the fixing unit 3 while allowing the interference surface of the zigzag portion 3 of the fixing unit 3 and the pushing member 2 2 2 I1® The position of the fixed action unit 4 is fixed by holding the lever 2 3 and the pusher 2 2 on the frame 1 '. When the vertical direction adjustment is performed (see also the figure, the seventh figure and the figure of the person), the lever 2 3 of the adjustment unit 2 is pulled up first, and the lever 2 is used. The eccentric hole 2 3 i of the 3 is matched with the tip piece 2 4 to move the body 2 1 slightly in the direction of the action sheet S 4 , at this time, 201004547, the fixing unit 3 is away from the pushing member 2 2 and is no longer abutting, let The lever 2 3 and the pushing member 2 2 are spaced apart from each other on the two sides of the frame 1. Thus, the vertical outward force is applied to the action unit 4, so that the action unit 4 drives the fixing unit 3, so that the fixing unit 3 The long hole 3 2 is rotated and adjusted on the rod body 2 1 , and after being adjusted to a predetermined angle, the lever 2 3 is pulled downward, so that the lever 2 3 pulls the rod body 2 1 to make the rod body 2 1 - the support plate 2 1 1 abuts against the other side of the fixing unit 3, and at the same time, the serration portion 3 1 of the fixing unit 3 and the interference surface 2 2 1 of the pushing member 2 2 are coupled to each other. The lever 2 3 and the pushing member 2 2 are clamped to the frame 1 and the fixed action unit 4 is adjusted to the rear position. In this way, the cooperation of the frame 1, the adjusting unit 2 and the fixing unit 3 can be utilized, so that the action unit 4 can perform the three-axis adjustment of the vertical movement, the horizontal rotation and the vertical rotation on the frame 1. Please refer to the "figure 9" for a schematic view of another embodiment of the action unit of the present invention. As shown in the figure: in addition to the above mentioned fan, the action unit 4a can also be a lamp or other related object when actually used, so that the creation can be more suitable for actual use. Required. In summary, the three-axis adjustment bearing device of the present invention can effectively improve various disadvantages of the conventional use, and can cooperate with the frame, the adjusting unit and the fixing unit to enable the action unit to perform vertical movement and horizontal rotation on the frame. And the effect of the three-axis adjustment of the vertical rotation, thereby making the invention more progressive, more practical, and more in line with the needs of the user, has indeed met the requirements of the invention patent application, and filed a patent application according to law. 9 201004547 The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; therefore, the simple equivalent changes made in accordance with the scope of the present invention and the contents of the description of the invention And modifications are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective exploded view of the present invention. The second figure is a schematic view of the stereoscopic appearance of the present invention. The third figure is a schematic diagram of the state of use of the present invention. The fourth figure is a schematic diagram of the vertical movement state of the present invention. The fifth drawing is a schematic view of the fixed state of the present invention. Fig. 6 is a schematic view showing the horizontal rotation state of the present invention. The seventh figure is a schematic view of the fixed state of the present invention. The eighth figure is a schematic view of the vertical rotation state of the present invention. Figure 9 is a schematic view showing another embodiment of the action unit of the present invention. [Description of main component symbols] Frame 1 Chute 1 1 Adjustment unit 2 Rod 2 1 Support plate 2 1 1 Shaft hole 2 1 2 10 201004547 Pusher 2 2 Interference surface 2 2 1 Lever 2 3 Eccentric hole 2 3 1 Tip 2 4 fixing unit 3 serration 3 1 long hole 3 2 action unit 4 action unit 4 a computer case 5