200902900 九、發明說明: 【發明所屬之技術領域】 本發明係爲-種攝影機穩定架,藉由穩定架構件 之多種組合難賊_,__ 操作攝影機之目的。 【先前技術】 由於現今市麵售之攝影機有 的趨勢,越小越不_岭者 化方便攜市 良攝影用雲台長托板本發_改 三腳架專用之萬_台,_ 即—般照相機 里新結構組合後,I利用翹 翹板平衡的,便ΰ俊並利用鄕 的。 達到穩疋攝影機拍攝畫面之目 【發明內容】 本體本:形==狀^ 機操作便利與=:備本的發整, 態時,哪·機之部 份攝影機重量可藉由另一垂直 有邰 作攝影機的手來支撐,如此—來^敕:腳轉由非操 量與支撐點便分散到肩膀與雙影設備的重 撐。 、义宁,形成穩定的三角支 以 當基板結合萬向雲台時,便利用翹翹板原理, 200902900 萬向雲台爲支點’藉由兩滑塊(即兩結合構件)與配重 (即手把)調整支點位置與力臂長度,讓各種形狀不 同、重心不同的攝影機均可處於多方向的動態平衡狀 態,達到攝影者在運動狀態下還能穩定攝影機之目 的。並另可藉由調整兩滑塊(即兩結合構件)之間的距 離,改變局部力臂的長短’來調整動態平衡的敏感 度;攝影機(結合構件)與支點(即萬向雲台)的力臂越 長’整體穩定性的敏感度越高,攝影機(結合構件)與 支點(即萬向雲台)的力臂愈短,整體穩定性的敏感度 越低。 【實施方式】 (一)肩托手持操作模式: 如第一圖所示,本發明至少設置一基板(ίο)附有 一架腳轉向座(13)’並將兩支架腳(20)以螺栓(14)安裝 於轉向座(13)上,架腳(20)下端各結合一手把螺桿 (30) ’當其中一架腳(20)轉向呈水平狀態時,旋轉調 整配重握把(31)位置至最適當之肩托處,或移動攝影 機結合滑塊(11)在基板(10)上之位置(見第七圖),讓攝 影者眼睛與攝影機(50)之監視器保持最舒適之操作距 離’而另一架腳(20)可轉向垂直或其他角度,方便非 操作攝影機(50)的手之握持,此時攝影機(50)的重量 6 200902900 分別由肩膀與非操作攝影機(50)的手來支撐穩定,並 抵銷操作攝影機(50)按鍵時產生之力道,以避免影響 攝影畫面之穩定。 (二)運動手持操作模式 如第一圖所示,本發明設置一基板(10)含架腳轉 向座(I3)、兩支架腳(20)與兩支手把(3〇與31)再結合 一萬向雲台(40),以萬向雲台(4〇)爲支點,分別調整 左右兩配重握把(31)在螺桿(30)上之位置,或分別改 變兩架腳(20)各自之轉向角度,讓攝影機(5〇)與本發 明保持左右平衡;調整攝影機(50)與萬向雲台(4〇)之 間的距離,或同時改變架腳(20)轉向角度,可保持攝 影機(50)與本發明之前後平衡。 由於市售攝影機(50)有不同的外形、重量與固定 螺孔位置’裝設於本發明時會影響整體之平衡重心, 均可藉由上述之調整方式解決,因此適用於各廠牌之 攝影機種。 當攝影者改變姿勢或移(運;)動時,藉由本發明之 配重與力臂提供慣性,保持攝影機(50)與本發明之間 多方向的動態平衡,以緩和攝影機(50)隨著攝影者晃 動,導致攝影畫面劇烈震動所產生視覺上之不適感。 上述爲本發明之各種操作模式之實施方式,本發 200902900 明之詳細結構與組合實施方式說明如下: 如第二圖所示,基板(ίο)爲一長形高剛性構件, 經加工彎摺成Μ形截面之長形板件,用以承載固定 攝影機。基板(10)頂面設一梯形截面之長形凹槽,中 軸線上穿設一長形導軌,導軌寬度小於滑槽寬度。攝 影機結合滑塊(11)及萬向雲台結合構件(12)均爲一梯 形截面之滑塊,配適於基板(10)之梯形滑槽內◊基板 (10)—端之左右下緣各延伸一側板,並以適當角度向 外展開,兩側板各設一穿通圓孔,其內側各設一螺母 (15),作爲架腳轉向座(13),用以結合架腳(20)以及提 供架腳(20)轉向之軸心。 攝影機結合組件由一梯形截面之滑塊(11)及一固 定螺栓(14)所組合而成,滑塊(11)中心設有一穿通圓 ?L ’固定螺栓(14)穿過基板(10)之長形導軌及滑塊(11) 圓孔,螺接攝影機(50)底盤,當螺栓(14)旋緊時,可 將攝影機(50)固定於基板(10)上,當固定螺栓(14)旋鬆 時,滑塊(11)可協助攝影機(50)在基板(10)上滑動,以 利調整攝影機(50)至最適當之固定位置。 萬向雲台結合構件(12)爲一梯形截面之滑塊 (12),滑塊(12)中心穿設一有內螺牙之圓孔,內螺牙 爲一般攝影設備之通用尺寸,用以螺結萬向雲台 200902900 (40),當雲台(40)上之螺桿穿過基板(10)之長形穿通導 軌,螺接滑塊(12)之內螺牙時’鎖緊則固定雲台(40) 於基板(10)上,旋鬆則可讓雲台(40)及滑塊(12)滑行於 凹槽內,以調整雲台(4〇)位於基板(10)上之位置。 架腳(20)爲一長形门形截面剛性構件,上端設置 一穿通圓孔,以一螺栓(14)穿過架腳(20)與轉向座(13) 之穿通圓孔,螺接螺母(15)即可結合架腳(20)與轉向 C 座(13),架腳(20)以螺栓(14)爲軸心旋轉,可自由轉向 各種不同的角度;架腳(20)上端之固定螺栓(14)旋鬆 時,架腳(20)可以自由轉向;當旋緊固定螺栓(14)時, 則可固定架腳(20)之轉向角度。架腳(20)下端兩側板 穿設一圓孔,用以結合手把(13)。 手把爲一圓柱形組件,由一手把螺桿(30)螺接一 配重握把(31)所組成,配重握把(31)之重量具有調節 Ο 整體平衡之功能。手把螺桿(30)上端設一橫向套管用 以樞接架腳(20),以一固定螺栓(14)穿過架腳下端側 板及螺桿(30)之橫向套管,螺接一螺母(15),旋鬆螺 栓(14)可調整手把至適當之持握角度,旋緊螺栓則可 固定手把。旋轉配重握把(31)改變手把之長度,用以 調節整體左右平衡之重心。配重握把(31)外側徑向螺 設一抵及螺桿(30)之固定螺栓(14),栓緊則固定握把 200902900 (Μ),旋鬆則可旋動握把(31)。握把(;31)外緣可包覆軟 性材料’以利雙手持握或肩托之舒適性。 萬向雲台(40)可使用各種市售攝影用雲台(包含 油壓雲台)裝置於基板(10),市售雲台(4〇)上端均設有 標準螺栓用以螺接雲台結合構件(12)或攝影機(50)底 盤’下端可透過各種轉接設備,接合各類的固定機座 或手把,例如車用固定架、三角架、攝影用馬甲…等。 Γ 【圖示簡單說明】 (一) 圖示部分 第一圖係本發明結合攝影機與所有構件之立體示意圖 第二圖係本發明各構件立體分解示意圖 第三圖係本發明肩托手持操作實施方法示意圖 第四圖係本發明運動手持操作實施方法示意圖 第五圖係本發明各構件調整平衡重心實施方法示意圖 ( 第六圖係本發明架腳轉向與固定角度實施方法示意圖 第七圖係本發明調整攝影機最適位置實施方法示意圖 (二) 元件代表符號 (10) 基板 (11) 攝影機結合滑塊 (12) 萬向雲台結合構件 (13) 架腳轉向座 200902900 (14) 固定螺栓 (15) 螺母 (20)架腳 (30) 手把螺桿 (31) 配重握把 (40)萬向雲台 (50)攝影機200902900 IX. Description of the Invention: [Technical Field] The present invention is a kind of camera stabilizer, which is operated by a plurality of combinations of stable frame members, __. [Prior Art] Due to the trend of the cameras sold in the market today, the smaller the less, the less the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ After the new structure is combined, I balances with the seesaw, and then I use it. The goal of achieving a stable camera shooting picture [Invention] The body: shape == shape ^ machine operation is convenient and =: the preparation of the book, when the state, which part of the camera weight can be used by another vertical The hand of the camera is supported, so that the foot is transferred from the non-manipulating and supporting points to the shoulder and the double-shadow device. , Yi Ning, the formation of a stable triangular branch to facilitate the use of the seesaw principle when the substrate is combined with the universal gimbal, 200902900 Wan Xiangyuntai as the fulcrum 'by two sliders (ie two joint members) and counterweight (ie The handle adjusts the position of the fulcrum and the length of the arm, so that cameras of different shapes and different centers of gravity can be in a multi-directional dynamic balance state, so that the photographer can stabilize the camera while in motion. And the sensitivity of the dynamic balance can be adjusted by adjusting the distance between the two sliders (ie, the two coupling members) and changing the length of the local force arm; the camera (combined member) and the fulcrum (ie, the universal head) The longer the arm is, the higher the sensitivity of the overall stability, the shorter the arm of the camera (combined member) and the fulcrum (ie, the gimbal), and the lower the sensitivity of the overall stability. [Embodiment] (1) Shoulder Handheld Operation Mode: As shown in the first figure, the present invention at least provides a substrate (ίο) with a foot steering seat (13)' and two bracket feet (20) as bolts ( 14) Mounted on the steering seat (13), the lower end of the frame foot (20) is combined with a hand screw (30) 'When one of the legs (20) is turned horizontally, the position of the weight adjustment grip (31) is rotated. To the most appropriate shoulder rest, or the position of the mobile camera combined with the slider (11) on the substrate (10) (see Figure 7), to keep the photographer's eyes and the monitor of the camera (50) the most comfortable operating distance 'The other foot (20) can be turned to vertical or other angles to facilitate the hand holding of the non-operating camera (50), at this time the weight of the camera (50) 6 200902900 by the shoulder and the non-operating camera (50) The hand supports the stability and offsets the force generated when the camera (50) is pressed to avoid affecting the stability of the photographic picture. (2) Sports Hand-held Operation Mode As shown in the first figure, the present invention provides a substrate (10) including a leg-turning seat (I3), two bracket legs (20) and two handles (3〇 and 31). Ten thousand to the Yuntai (40), with the Wanxiang PTZ (4〇) as the fulcrum, adjust the position of the left and right weights grips (31) on the screw (30), or change the two legs (20) respectively. The respective steering angles allow the camera (5〇) to maintain balance with the present invention; adjust the distance between the camera (50) and the universal head (4〇), or simultaneously change the steering angle of the foot (20) to maintain The camera (50) is balanced before and after the present invention. Since the commercially available camera (50) has different shapes, weights, and fixed screw hole positions, it will affect the overall balance center of gravity when it is installed in the present invention, and can be solved by the above adjustment method, so it is suitable for cameras of various brands. Kind. When the photographer changes his posture or moves, the inertia of the present invention is used to provide inertia, maintaining the dynamic balance between the camera (50) and the present invention in multiple directions to alleviate the camera (50). The photographer shakes, causing visual discomfort caused by the violent vibration of the photographic picture. The above detailed description of the various modes of operation of the present invention, the detailed structure and the combined embodiment of the present invention are as follows: As shown in the second figure, the substrate (ίο) is an elongated high-rigidity member which is bent into a file by processing. An elongated plate of shaped cross-section for carrying a fixed camera. The top surface of the substrate (10) is provided with an elongated groove having a trapezoidal cross section, and an elongated guide rail is disposed on the central axis, and the width of the guide rail is smaller than the width of the sliding groove. The camera combined with the slider (11) and the universal gimbal coupling member (12) are a trapezoidal cross-section slider, and are adapted to the trapezoidal chute inner substrate (10) of the substrate (10) - the left and right lower edges of the end Extending one side plate and expanding outward at an appropriate angle, each side plate is provided with a through hole, and a nut (15) is arranged on the inner side thereof as a foot steering seat (13) for combining the foot (20) and providing The shaft (20) is turned to the axis. The camera assembly assembly is composed of a trapezoidal section slider (11) and a fixing bolt (14). The center of the slider (11) is provided with a through-circle L' fixing bolt (14) passing through the substrate (10). Long guide rail and slider (11) Round hole, screw the camera (50) chassis, when the bolt (14) is tightened, the camera (50) can be fixed on the base plate (10), when the fixing bolt (14) is rotated When loose, the slider (11) assists the camera (50) to slide on the substrate (10) to facilitate adjustment of the camera (50) to the most appropriate fixed position. The universal joint head (12) is a trapezoidal cross section slider (12), and the center of the slider (12) is provided with a circular hole having an internal thread, and the internal thread is a general size of a general photographic apparatus for Spiral Wanxiang PTZ 200902900 (40), when the screw on the gimbal (40) passes through the long through-way guide of the substrate (10), when the screw is screwed into the slider (12), the lock is fixed to fix the cloud. The table (40) is on the substrate (10), and the loosening allows the pan/tilt (40) and the slider (12) to slide in the groove to adjust the position of the pan/tilt (4〇) on the substrate (10). The leg (20) is an elongated door-section rigid member, and a through hole is arranged at the upper end, and a bolt (14) passes through the through hole of the leg (20) and the steering seat (13), and the nut is screwed ( 15) It can be combined with the frame foot (20) and the steering C seat (13). The frame foot (20) rotates with the bolt (14) as the axis, and can be freely turned to various angles; the fixing bolt at the upper end of the frame foot (20) (14) When loosening, the legs (20) can be freely turned; when the fixing bolts (14) are tightened, the steering angle of the legs (20) can be fixed. The two sides of the lower end of the leg (20) are provided with a circular hole for engaging the handle (13). The handlebar is a cylindrical component which is screwed by a hand with a screw (30) and a counterweight gripper (31). The weight of the counterweight gripper (31) has the function of adjusting the overall balance. A horizontal sleeve is arranged on the upper end of the handle screw (30) for pivoting the frame leg (20), and a fixing bolt (14) is passed through the lower end plate of the leg and the transverse sleeve of the screw (30), and a nut is screwed (15). ), loosen the bolt (14) to adjust the handle to the proper grip angle, and tighten the bolt to fix the handle. The rotating weight grip (31) changes the length of the handle to adjust the center of gravity of the overall left and right balance. The outer side of the counterweight grip (31) is screwed radially to the fixing bolt (14) of the screw (30). When the bolt is tightened, the grip is fixed 200902900 (Μ), and when loosened, the grip (31) can be rotated. The outer edge of the grip (;31) can be covered with a soft material to facilitate the comfort of the two-handed or shoulder rest. Wanxiang Yuntai (40) can use various commercially available camera heads (including oil pressure heads) on the base plate (10), and the upper end of the commercially available head (4〇) is equipped with standard bolts for screwing the head. The lower end of the coupling member (12) or the camera (50) chassis can be connected to various types of fixed bases or handles through various transfer devices, such as a vehicle mount, a tripod, a photographic vest, and the like. BRIEF DESCRIPTION OF THE DRAWINGS (1) The first part of the drawing is a perspective view of the present invention in combination with a camera and all the components. The second drawing is a three-dimensional exploded view of the components of the present invention. The fourth diagram is a schematic diagram of a method for implementing a mobile handheld operation according to the present invention. The fifth diagram is a schematic diagram of a method for adjusting a balance center of gravity of each component of the present invention. (Sixth diagram is a schematic diagram of a method for implementing the steering and fixed angle of the present invention. Schematic diagram of the optimal position of the camera (2) Component symbol (10) Substrate (11) Camera combined slider (12) Universal head coupling unit (13) Leg steering seat 200902900 (14) Fixing bolt (15) Nut ( 20) Stand foot (30) Handle screw (31) Counterweight grip (40) Universal head (50) camera