201100901 六、發明說明: * 【發明所屬之技術領域】 本發明提供一種小型相機裝置,特別是利用線圈和馬達磁 片來實現鏡頭的上下及水平方向的移動,從而調節被拍攝物的 焦點’補正手顫的小型相機裝置。 u 【先前技術】 圖一顯示了以往技術的小型相機裝置分解立體圖,圖二顯 示了圖一 A部的擴大分解立體圖。 . 如圖一和圖二所示,以往技術的小型相機裝置包括:外殼 (20);安裝在上述外殼(2〇)上,可沿水平方向移動的第二葉片 (30) ,包括安裝在上述第二葉片(3〇)内部,可上下移動的鏡 〇 頭的第—葉片⑽;安裝在上述第-葉片⑽外側的第-線圈 兀件(41);安裝在上述第二葉片(3〇)外侧的第二線圈元件 (31) ;安裝在上述外殼(2〇)侧面的馬達磁片(5〇);使其一端與 m 上述馬達磁片(50)相接,另一端與上述第一線圈元件(41)鄰接 的磁軛元件(60) ^ 4 201100901 因上述馬達磁片(50)產生並由上述磁麵元件⑽引導的磁 .場與因上述第一綫圈元件(41)通電后而產生的磁場相互作用, .使上述第一葉片⑽與鏡頭-起上下移動,從而調節所攝物體 的焦點。 因一端安裝在上述外殼⑽上,其他端安裝在上述第二葉 》片⑽上的上述第二彈簣元件⑽,上述第二葉片⑽被彈 性支撐,並維持水平方向。 此外,因上述馬達磁片⑽產生並由上述磁麵元件(6〇)引 導的磁場與因上述第二綫圈元件⑽通電后而產生的磁場相 互作用,使上述第二葉片(30)與鏡頭一起上下移動,從而調節 所攝物體的焦點。 多如上所述,爲了使上述第一葉片(40)與上述第二葉片(3〇) 可移動’須在上述第一綫圈元件(41)與上述第二綫圈元件(31) 上,各自通電。 但是上述第一線圈元件(41)和上述第二線圈元件(μ)分別 安裝在上述第一葉片(40)和上述第二葉片(3〇)上,因其一起移 動而使連接電源較難。即使能連接上電源,連接的方式也會妨 5 201100901 礙上述第-葉片⑽和上述第二葉片(3〇)的移動,因此會導敎 不能順利運作等問題的發生。 【發明内容】 本發明正是為了解決上述以往技術的問題點而提出的,目 的在於根據在葉片移動時向線圈傳達電_電源連接方式而 最大程度地減小阻力,從而提供一種能使葉片順利移動的小型 〇 相機裝置。 為實現上述目的,本發明的小型相機裝置包括:鏡筒;安 .裝在上述鏡筒内部,因馬達磁片和第二線圈元件而沿水平方^ 移動的第二葉片;安裝在上述第二葉片内部,因上述馬達磁片 和上述第-線圈元件而上下移動的第一葉片。此外,還包括: D外側裝在上述第二葉片上,内側裝在上述第一葉片上,上下彈 性支撐上述第-葉;ί的第三彈簧元件;絲在上述鏡筒的上 方向上述第-線圈元件和上述第二線圈元件供電的電源連接 元件。 上述第-線圈元件與上述第三彈簧元件通電,在上述第三 育元件上向上述電源連接元件方向突出,一端與上述第三彈 耳轉口為-體’其他端與上述電源連接元件結合并固定在一 6 201100901 起’在上述第二葉片左右移動時,緩解向左右方向收縮的連接 凸片’上述連接凸片和上述電源連接元件通電,把上述電源連 接元件的電源傳至上述第一線圈元件。 . Λ述第三彈簧元件包括:安裝在上述第-葉片-侧的第一 ^ 彈簧;安襄在上述第一葉片其他側的第二彈性。上述連接凸片 括·女裝在上述第—彈性的邊角部的第—連接凸片;安裝在 上述第二彈性邊角部,并與上述第一連接凸片沿對角線方向對 稱的第二連接凸片。 • 纟上述第二葉片的邊角部有迴避槽,在上述迴避槽里,上 述連接凸片和上述第二葉片偏離開安裝。 此外還包括·-端安裝在上述第二葉片上,其他端安裝在 〇上述鏡筒上,在水平方向上彈性支樓上述第二葉片的第二彈筹 元件。上述連接凸片的厚度比上述第二彈菁元件的厚度要小, 因此在上述第二葉片左右移動時,可降低上述連接凸片的彈性 阻力。 在上述第-彈簧和上述第二彈簧上,各有兩個上述第一連 接凸片和上述第二連接凸片,上述兩個第一連接凸片中的一個 7 201100901 第-連接凸片和上述_第二連接凸片中的—個第二連接凸 片與上述電源連接元件通電。 此外還包括:外侧裝在上述第二葉片上,内側裝在上述第 一葉片上’上下方向彈性支撐上述第—葉片的第-彈簣元件。 上述第一彈簧元件安裝在第二葉片的上侧,上述第三彈簧元件201100901 VI. Description of the Invention: * Technical Field of the Invention The present invention provides a compact camera device, in particular, using a coil and a motor magnetic piece to move the lens up and down and horizontally, thereby adjusting the focus of the subject's correction Small camera device with hand tremor. u [Prior Art] Fig. 1 shows an exploded perspective view of a compact camera device of the prior art, and Fig. 2 shows an enlarged exploded perspective view of a portion A of Fig. 1. As shown in FIG. 1 and FIG. 2, the prior art compact camera device includes: a casing (20); and a second blade (30) mounted on the casing (2〇) and movable in a horizontal direction, including the above a second blade (3〇), a first blade (10) of the mirror head movable upward and downward; a first coil member (41) mounted outside the first blade (10); and a second blade (3) mounted on the second blade (3) a second coil component (31) on the outer side; a motor magnet piece (5〇) mounted on a side surface of the outer casing (2〇); one end thereof is connected to the motor magnet piece (50), and the other end is connected to the first coil The yoke element (60) adjacent to the element (41) ^ 4 201100901 The magnetic field generated by the motor magnetic piece (50) and guided by the magnetic surface element (10) is generated by energization of the first coil element (41) The magnetic field interacts to move the first blade (10) and the lens up and down to adjust the focus of the object. Since the one end is attached to the outer casing (10) and the other end is attached to the second magazine element (10) on the second leaf piece (10), the second blade (10) is elastically supported and maintained in the horizontal direction. Further, the magnetic field generated by the motor magnetic piece (10) and guided by the magnetic surface element (6〇) interacts with a magnetic field generated by the energization of the second coil element (10), so that the second blade (30) together with the lens Move up and down to adjust the focus of the subject. As described above, in order to move the first blade (40) and the second blade (3), the first coil element (41) and the second coil element (31) are energized. However, the first coil element (41) and the second coil element (μ) are attached to the first vane (40) and the second vane (3), respectively, and it is difficult to connect the power source because they move together. Even if the power supply can be connected, the connection method may be affected. 5 201100901 The movement of the first blade (10) and the second blade (3〇) is hindered, so that problems such as the inability to operate smoothly may occur. SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and aims to provide a smoothing of the blade by minimizing the resistance by transmitting an electric power connection to the coil when the blade moves. A small, compact camera device that moves. In order to achieve the above object, a compact camera device of the present invention includes: a lens barrel; a second blade mounted inside the lens barrel and moving horizontally by a motor magnet piece and a second coil element; Inside the blade, the first blade that moves up and down by the motor magnet piece and the first coil element. In addition, the D outer side is mounted on the second blade, the inner side is mounted on the first blade, and the third leaf element elastically supports the first leaf; the third spring element; the wire is in the upper direction of the lens barrel - the first A coil element and a power connection element for supplying power to the second coil element. The first coil element and the third spring element are energized, and the third element is protruded toward the power connection element, and one end is connected to the third spring port and the other end is coupled to the power connection element and fixed. When the first and second blades are moved to the left and right, the connecting tabs that are contracted in the right and left direction are energized, and the power supply connecting member is energized to transmit the power of the power connecting component to the first coil component. . The third spring element includes: a first ^ spring mounted on the first blade-side; and a second elasticity mounted on the other side of the first blade. The connecting tab includes: a first connecting tab at the first elastic corner portion; and a second connecting elastic portion at the second elastic corner portion and symmetrical with the first connecting tab in a diagonal direction Two connecting tabs. • The corner portion of the second blade has a avoidance groove, and the connection tab and the second blade are offset from each other in the avoidance groove. Further, the second end of the second blade is mounted on the second blade, and the other end is mounted on the lens barrel to elastically support the second projecting element of the second blade. Since the thickness of the connecting tab is smaller than the thickness of the second elastic crystal element, the elastic resistance of the connecting tab can be reduced when the second blade moves left and right. On the first spring and the second spring, each of the two first connecting tabs and the second connecting tab, one of the two first connecting tabs 7 201100901 first connecting tab and the above One of the second connection tabs of the second connection tab is energized with the power connection element. Further, the outer elastic member is mounted on the second blade, and the inner side is mounted on the first blade to elastically support the first elastic member of the first blade. The first spring element is mounted on an upper side of the second blade, the third spring element
〇 安裝在上述第二葉片的下侧,上述連接凸片從上述第二苹片的 下側穿過上述第-彈簧元件,從而貫通上述鏡筒,與上述電綠 連接元件的連接。 如上說明,本發_小型相機裝置有如下效果。 和上述電源連接元件通電的上述連接凸片的一端和上述第 二彈簧7C件連成-體,其他端和上述電源連接元件結合,在上 述第二葉片左右軸時,緩解左右方向的彈性收縮,從而實現 最大程度地減少上述第-埜 疋弟一葉片左右移動時,上述連接凸片的阪 力,進而使上述第二葉片順利地進行左右移動。 上述第一連接凸片和上述第二連接凸片分別與上述第一彈 簧述第彈簧按對角線的方向對稱安裝,使上 移動時,目上述第弟一葉片 連接凸片和上述第二連接凸片而產生的 8 201100901 彈性阻力均等地作用於上述第二葉片,麵防止上述第二葉片 傾斜的作用。 在上述第二葉片的邊角部,上述連接凸片和上述第二葉片 偏離安裝,形成迴避槽,從而使上述第二葉片在左右移動時, 上述連接凸>{可以在迴避槽内軸,有助於自由收縮。 上述連接凸片的厚度比上述第二彈簧元件的厚度小,在上 述第二葉片左右移树,上述連接凸片的彈性阻力小於上述第 彈簧70件的彈性阻力,因此能夠㈣降低上述連接凸片的彈 性阻力的效果。 在上述第-彈簣和上述第二彈簧上,各安裝有兩個上述第 連接凸片和上述第二連接凸片,兩個上述第—連接凸片中的 :個與兩個上述第二連接凸片中的一個各自與上述電源連接 通電從机加切上述第二葉片的上述第—連接凸片和 上述第二連接凸片的切力,使在上述第—連接凸片 和上述第 連接凸片上的彈性阻力均―,從而使上述第二葉片更加平穩 地操作。 上述第三彈簧元件安裝在上述第二葉片下侧,上述連接凸 片從上述第二葉片下侧到上述第—彈簧元件及上述鏡筒閒通 9 201100901 過,連接上述電源連接元件,使上述連接凸片的上下長度實現 最大化,從而減少在上述第二葉片移動時上述連接凸片的彈性 阻力。 【實施方式】 以下參照附圖對本發明最佳實施方式進行詳細說明。 圖三顯示了本發明實施例的小型相機裝置的立體圖,圖四 〇 顯示了本發明實施例的小型相機裝置的分解立體圖,圖五顯示 了本發明實關的第三彈簧元件的立體0,圖六顯示了本發明 . 實施例的鏡筒和第三彈簧元件的結合狀態圖,圖七至圖九顯示 • 了本發明實施例的小型相機裝置運轉狀態圖。 如圖三至圖九所示,本發明實施例的小型相機裝置包括: 鏡筒(100),馬達磁片(200),磁軛元件(300),電源連接元件 Ο (600),第二葉片(700),第二線圈元件(750),第二彈簧元件 (800),第一葉片(400),第一線圈元件(450),第一彈簧元件 (500)及第三彈簧元件(550)。 上述鏡筒(1〇〇)爲六方形,上下開放,侧面安裴上述馬達磁 片(200)。 201100901 上述馬達磁片(_為四方形,由多個構成,每兩個上下相 對安裝,中間分別配有上述磁軛元件(300)。 上述兩個馬達磁片⑽)以上述_元件⑽〇)為中心,磁 極上下對稱安裝。 上述磁輛元件(300)是四方形,上下兩面分別與上述馬達磁 片(200)相接’有把上述馬達磁片(2〇〇)的磁場向一定方向引導 的上述磁性引導凸片(31〇)。 如後面所述,上述磁性引導凸片(31〇)貫通上述第二線圈元 ' 件⑽)和上述第二葉片⑽),並向上述第-線圈元件(450) 方向導出。 以下有關上述鏡筒(100)、上述馬達磁片⑽)及上述磁輕 〇 元件(300)的說明,在本發明申請人申請號碼為 10-2009-0023718中有詳細記載,在此省略詳細說明。 上述電源連接元件(600)為FPCB( Flexible Printed〇 is attached to the lower side of the second blade, and the connecting tab passes through the first spring element from the lower side of the second piece to penetrate the lens barrel and is connected to the electric green connecting element. As described above, the present invention has the following effects. One end of the connecting tab that is energized with the power connection element and the second spring 7C are connected to each other, and the other end is coupled with the power connection element, and the elastic contraction of the left and right direction is relieved when the left and right shafts of the second blade are Therefore, it is possible to minimize the stagnation force of the connecting tab when the blade moves to the left and right, and the second blade smoothly moves to the left and right. The first connecting tab and the second connecting tab are respectively symmetrically mounted in a diagonal direction of the first spring, so that when the upper moving is performed, the first blade connecting tab and the second connecting are The elastic resistance of 8 201100901 generated by the tab acts equally on the second vane, and the surface prevents the tilting of the second vane. In the corner portion of the second blade, the connecting tab and the second blade are offset from each other to form an avoidance groove, and when the second blade is moved to the left and right, the connecting protrusion can be in the inner axis of the avoiding groove. Helps to shrink freely. The thickness of the connecting tab is smaller than the thickness of the second spring element, and the second blade moves to the left and right, and the elastic resistance of the connecting tab is smaller than the elastic resistance of the first spring 70, so that the connecting tab can be lowered (4) The effect of the elastic resistance. Two of the first connecting tabs and the second connecting tabs are mounted on the first magazine and the second spring, and one of the two first connecting tabs and the two second connecting ends One of the tabs is electrically connected to the power source, and the cutting force of the first connecting tab and the second connecting tab of the second blade are cut to make the first connecting tab and the first connecting convex The elastic resistance on the sheet is - so that the second blade described above operates more smoothly. The third spring element is mounted on the lower side of the second blade, and the connecting tab passes from the lower side of the second blade to the first spring element and the lens tube idle 9 201100901, and connects the power connection element to make the connection The upper and lower lengths of the tabs are maximized to reduce the elastic resistance of the connecting tabs when the second vane is moved. [Embodiment] Hereinafter, the best mode for carrying out the invention will be described in detail with reference to the accompanying drawings. 3 is a perspective view showing a compact camera device according to an embodiment of the present invention, FIG. 4 is an exploded perspective view showing a compact camera device according to an embodiment of the present invention, and FIG. 5 is a perspective view showing a third spring member of the third spring member of the present invention. Fig. 6 shows a state of the combination of the lens barrel and the third spring element of the embodiment, and Figs. 7 to 9 show the operation state diagram of the small camera unit of the embodiment of the present invention. As shown in FIG. 3 to FIG. 9, the compact camera device of the embodiment of the present invention includes: a lens barrel (100), a motor magnetic piece (200), a yoke element (300), a power connection element 600 (600), and a second blade. (700), a second coil element (750), a second spring element (800), a first blade (400), a first coil element (450), a first spring element (500) and a third spring element (550) . The lens barrel (1〇〇) is hexagonal, open and closed, and the motor magnet (200) is mounted on the side. 201100901 The above-mentioned motor magnetic piece (_ is square, is composed of a plurality of parts, and each of the two is mounted upside down, and the yoke element (300) is respectively disposed in the middle. The two motor magnetic pieces (10) are the above-mentioned _ element (10)) Centered, the poles are mounted symmetrically up and down. The magnetic vehicle component (300) is square, and the upper and lower surfaces are respectively in contact with the motor magnetic piece (200). The magnetic guiding tab (31 for guiding the magnetic field of the motor magnetic piece (2〇〇) in a certain direction is provided. 〇). As will be described later, the magnetic guiding tab (31) passes through the second coil element (10) and the second blade (10), and is led out in the direction of the first coil element (450). The following description of the lens barrel (100), the motor magnetic sheet (10), and the magnetic tweezer element (300) is described in detail in the applicant's application number 10-2009-0023718, and detailed description is omitted here. . The above power connection component (600) is FPCB (Flexible Printed)
Circuit Board ) ’以四方形薄片的形態,安裝在上述鏡筒(1〇〇) • 的上方。 上述電源連接元件(600) —端向上述鏡筒(1〇〇)侧面彎曲, 與外部的電源連接。 11 201100901 上述電源連接元件(600)與上述第二彈簧元件⑽〇)和上述 第三彈簧元件⑽)通電,分別向上述第二線圈元件⑽)和上 述第一線圈元件(450)供電。 上述電源連接元件⑽G)的上方安裝著遮蓋上述電源連接 元件(600)和上述鏡筒(1〇〇)側面的上述外殼(15〇)。 〇 丨述外殼⑽)是薄板,上方安裝在上述電源連接元件⑽〇) 的上方,侧面分別向上述鏡筒(100)側面方向彎曲,與上述鏡 筒(100)結合。 上述第二葉片⑽)為中空六方形,内部有可上下移動的上 述第一葉片(4〇〇)。 上述第二葉片(7〇〇)的外側安裝有上述第二線圈元件 〇 (750)。 如後所述,上述第二線圈元件(750)使用内部通電的電線, 並沿上述第一線圈元件(450)圈捲方向直交的方向圈捲,在上 述第一葉片(700)的側面各有一個’共四個。 上述第二線圈元件(750)通電時所產生的磁場與通過上述 磁性引導凸以副)引導的上述馬達磁的磁場相互作 用,從而使上述第二葉片(7〇〇)沿水平方向移動。 12 201100901 在上述第二葉片(700)上配有上述第二彈菁元件(刪),彈 性支樓上述第二葉片(700)沿上述鏡筒(1〇〇)保持水平方向。 _L述第二彈簧it件⑽〇)由細電線構成,—端裝在上述第二 葉片(7GG)的下側,另-端裝在上述鏡筒(刚)的上方,彈性支 撐上述第二葉片(7〇〇)保持水平方向。 _L述第二彈簧元件⑽〇)為導電材料,—端與上述第二線圈 〇 元件(75G)通電,另—端與上述電源連接it件⑽G)通電,把上 述電源連接元件⑽G)的電源傳至上述第二線圈元件⑽)。 上述第二彈簧元件⑽)共四個,與上述第二葉片⑽)成 對角線方向對稱安裝。 上述第二葉片(7〇〇)的邊角部有迴避槽(Η。)。 〇 上棘避槽(710)沿上述第二葉片⑽)外側的邊角部,按 上下方向安裝’在上述第二葉片(700)的對角線方向對稱安襄, 共有兩個。 另外上述第-葉片(4GG)為六方体,上下側開放,内部插入 鏡頭。 上述第-葉片(_的外側上配有上述第一線圈元件 (450)。 13 201100901 上述第一線圈元件(450)為内部通電的細電線,以上述第一 葉片(400)的外侧面為中心圈捲。 上述第一線圈元件(450)與上述磁軛元件(3〇〇)的上述磁性 引導凸片(310)鄰接。 上述第一線圈元件(450)通電時所產生的磁場與通過上述 磁性引導凸片(310)引導的上述馬達磁片(2〇〇)的磁場相互作 用,從而使上述第一葉片(4〇〇)沿水平方向移動。 上述第-葉片(棚)的上方配有上述第_彈簧元件(5〇〇), 下侧配有上述第三彈簧元件(55〇)。 上述第-彈簧元件(500)是為四方形薄板,外側固定安震在 上述第二葉片⑽)的上方,内_定安裝在上述第一葉片 (400)的上方。 上述第一彈簧 元件⑽)的_和外側之間形成之字形的 彈性部分, 緩解内侧向外侧沿上下方向的收縮。Circuit Board ) is mounted above the lens barrel (1〇〇) in the form of a square sheet. The power connection element (600) is bent to the side of the lens barrel (1) and connected to an external power source. 11 201100901 The power connection element (600) is energized with the second spring element (10) and the third spring element (10), respectively, and supplies power to the second coil element (10) and the first coil element (450), respectively. Above the power supply connecting member (10) G), the outer casing (15 遮) covering the power supply connecting member (600) and the side surface of the lens barrel (1 。) is attached.外壳 The outer casing (10) is a thin plate that is mounted above the power connection element (10) 〇), and the side faces are bent toward the side surface of the lens barrel (100) to be coupled to the lens barrel (100). The second vane (10) is a hollow hexagonal shape, and has the first vane (4 turns) movable up and down. The second coil element 〇 (750) is attached to the outer side of the second vane (7〇〇). As will be described later, the second coil element (750) is internally wound with electric wires and wound in a direction orthogonal to the winding direction of the first coil element (450), and has a side surface on the first vane (700). One 'four in total. The magnetic field generated when the second coil element (750) is energized interacts with the magnetic field of the motor magnet guided by the magnetic guiding protrusion to move the second vane (7〇〇) in the horizontal direction. 12 201100901 The second blade (700) is provided with the second elastic crystal element (deleted), and the second blade (700) of the elastic branch is maintained in the horizontal direction along the lens barrel (1). The second spring member (10) is composed of a thin wire, the end is mounted on the lower side of the second blade (7GG), and the other end is mounted above the lens barrel (rigid) to elastically support the second blade. (7〇〇) Keep the horizontal direction. The second spring element (10) is electrically conductive, the end is energized with the second coil unit (75G), and the other end is energized with the power connection unit (10) G) to transmit the power of the power connection element (10) G). To the second coil element (10)). A total of four of the second spring elements (10) are mounted symmetrically in a diagonal direction to the second vane (10). The corner portion of the second blade (7〇〇) has an avoidance groove (Η.).上 The upper spur groove (710) is mounted symmetrically along the diagonal direction of the second blade (700) along the corner portion of the outer side of the second blade (10). Further, the first blade (4GG) is a hexagonal body, and the upper and lower sides are open, and the lens is inserted inside. The first coil element (450) is disposed on the outer side of the first blade (_). 13 201100901 The first coil element (450) is a thin electric wire that is internally energized, centering on the outer side surface of the first blade (400). The first coil element (450) is adjacent to the magnetic guiding tab (310) of the yoke element (3). The magnetic field generated when the first coil element (450) is energized and the magnetic force The magnetic field of the motor magnetic piece (2〇〇) guided by the guiding piece (310) interacts to move the first blade (4〇〇) in the horizontal direction. The above-mentioned first blade (shed) is provided with the above The first spring element (5〇〇) is provided with the third spring element (55〇) on the lower side. The first spring element (500) is a square thin plate, and the outer side is fixed to the second blade (10). Above, the inside is fixed above the first blade (400). The zigzag elastic portion formed between the _ and the outer side of the first spring member (10) relieves the contraction of the inner side to the outer side in the up and down direction.
一葉片(400)。 。上述第一彈簧 彈性支撐上述第 201100901 上述第二彈簧4(550)為薄板,由上述第一葉片(4⑹的 一侧安裝的上述第一彈簧咖)和上述第-葉片(_另一侧 安裝的上述第二彈簧(552)分開形成。 上述第-彈簧(551)和上述第二彈簧(552)的外侧分別固定 在上述第二葉片(700)下側,内侧分別固定在上述第一葉片 (400)的下側。 ❹ 上述第-彈簧(551)和上述第二彈簧(552)與上述第一彈菁 疋件⑽)-樣’在内侧和外側之間形成之字狀的彈性部位, 緩解上述第-葉片⑽)上下移動時上下方向的收縮,彈性支 撐上述第一葉片(4〇〇)。 上述第一彈簧(551)和上述第二彈簧(552)為導電材料,與 0 上述第一線圈元件(450)通電。 上述第一彈簧(551)和上述第二彈簧(552)以上述第一葉片 (400)為中心對稱安裝’互相不通電。 在上述第-彈簧(551)和上述第二彈簧(552)上,分別與上 述第一線圈元件(450)的一端和另一端通電。 此時上述第一線圈元件(45〇)的一端和另一端分別結合固 疋在上述第-彈簧(551)的内側和上述第二彈簧(552)内側。 15 201100901 〃在由上述第-彈簧⑽)和上述第二彈簧(552)構成的上述 第三彈簧元件⑽)上,有沿上述電源連接元件(6⑹方向導出 的上述連接凸片(560)。 上述連接凸片⑽)沿上下方向為直線,—端與上述第三彈 簧元件(_連接成―體,另—端結合固定在上述電源連接元 〇件_)上。根據情況的不同,上述連接凸片(56〇)可為之字形、 螺旋形和圓形等多種形狀。 上述連接凸片⑽)由上述第—彈簧(551)上的上述第一連 接凸片咖)和上述第二彈簧⑽)上的上述第二連接凸片 (562)構成。 如圖五所示,上述第-連接凸片(561)為長方形的薄板,沿 〇上述第-彈簧⑽)的外側邊角部向上方導出形成。如圖五所 不’上述第二連接凸片(562)為長方形的薄板,沿上述第二彈 簧(552)的外侧邊角部向上方導出形成。 上述第-連接凸片⑽)和上述第二連接凸片(卿沿對角 線方向相互對稱安裝. 如上所述,上述第-連接凸片(561)和上述第二連接凸片 (562)分別與上述第—彈簧⑽)和上述第二彈簧(卿沿對角 201100901 線方向對稱安裝’上述第二葉片⑽)移動時,因上述第一連 接凸片(561)和上述第二連接凸片(562)的彈性阻力可均等地 作用於上述第—葉片(7QQ),從而起到防止傾斜的效果。 如圖六所示’上述第-連接凸片⑽)和上述第二連接凸片 (562)在上述第二葉片()的上述迴職(?⑻内分開安裝。 P上述第連接凸片(561)和上述第二連接凸片⑽)分別 安裝在上述迴避槽⑽)中的上述第二葉片(则侧面。 因此在上述迴避槽(71〇),上述第一連接凸片(561)和上 述第二連接凸片⑽)分開安裝,在上述第二葉片(彻)左右移 動時’上述第-連接凸片(561)和上述第二連接凸片⑽)可使 上述迴避槽(71〇)來回移動,緩解收縮。 上述第一連接凸片(561)和上述第二連接凸片(562)的厚度 比上述第二彈簧元件(800)的厚度小。 因上述第一連接凸片(561)和上述第二連接凸片(562)的厚 度比上述第二彈簧元件⑽G)的厚度小,使上述第二葉片(7〇〇) 右移動時’因上述第—連接凸片⑼1)和上述第二連接凸 片(562)的阻力小於上述第二彈簧元件侧)的彈性阻力, 17 201100901 從而降低因上述第一連接凸片(561)和上述第二連接凸片(5犯) 而產生的彈性阻力。 • 在其他實施例中,上述第一連接凸片(561)和上述第二連接 凸片(562)分別在上述第一彈簧(551)和上述第二彈簧(552) 上各有兩個,共有四個。 ❹ #上述第-連接凸片(561)和上述第二連接凸片(5⑵在上 述第彈耳(551)和上述第二彈簧(552)的外侧兩端邊緣各有 一個,共有四個。 _ ’上述兩個第一連接凸片⑽)中的一個和上述兩個第 -連接凸片(562)巾的-個都與上述電源連接元件(_)通電, 其餘兩個則不通電。 ) #上所述’上述第一彈簣(551)和上述第二彈簧(552)上各 有兩個上述第-連接凸片(561)和上述第二連接凸片⑽),兩 個中的一個和另外兩個中的一個與上述電源連接元件(600)通 電’從而增加支樓上述第二葉片(7⑽)的上述第—連接凸片 (561)和上述第二連接凸片(562)的支擇力,使上述第一連接凸 片⑽)和上述第二連接凸片⑽)的彈性阻力均一,起到使上 述第一葉片(700)更加穩定的效果。 201100901 上述第一連接凸片(561)和上述第二連接凸片(562)從上述 第二葉片(7GG)的下侧經過上述第—彈簣元件⑽Q),貫通鏡筒 (100),與上述電源連接元件(6〇〇)連接。 如上所述,上述第三彈簧元件(55〇)安裝在上述第二葉片 ⑽)的下側,上述第-連接凸片(561)和上述第二連接凸片 ❹ (562)從上述第二葉片()的下側貫通上述第—彈酱元件 (5GG)和上述鏡筒(1〇〇),再與上述電源連接元件(刪)連接, 最大程度地實現上述第一連接凸片⑽)和上述第二連接凸片 (562)的上下長度’從而減少上述第二葉片⑽)移動時發生的 彈性阻力。 現對如上構成的本發明的小型相機裝置的運轉狀態進行說 〇 明。 ()’圖人(a)及圖九(a)是根據圖三的A-A顯示的截 面圖’圖七⑹,圖八⑹及圖九⑹是根據圖三的Β_β顯示的 截面圖。 如圖七(a)及圖七(b)所示 述第二線圈元件(750)的通電 ,在上述第一線圈元件(450)和上 之前,上述第一彈簧元件(500) 19 201100901 和上述第三彈簧元件(550)水平安裝,上述第二彈簧元件(8〇〇) 和上述連接凸片(560)上下豎直安裝。 如圖八(a)及圖八(b)所示’通過上述第三彈簧元件(55〇) 向上述第一線圈元件(450)輸入電源,從上述第一線圈元件 (450)產生的磁場和由上述磁性引導凸片(“ο)引導的上述馬 達磁片( 200)所產生的磁場相互作用,從而使上述第—葉 f% (400)上升。 上述第一葉片(4〇〇)上升時,上述第一葉片(4〇〇)的上下側 安裝的上述第一彈簧元件(500)的内側和上述第三彈簧元件 (550)的内側分別與上述第一葉片(4〇〇)一起上升。 此時上述第二葉片(700)不移動,上述連接凸片(56〇)維持 〇 豎直狀態,向上述第三彈簧元件(550)傳達電源。 如圖九(a)及圖九(b)所示,如向上述第二線圈元件(75〇) 輸入電源,由上述第二線圈元件(75〇)產生的磁場和由上述磁 • 性引導凸片(310)引導的上述馬達磁片(200)產生的磁場相互 - 作用,從而使上述第二葉片(700)向右侧水平移動。上述第二 葉片(700)移動時’上述第一葉片(4〇〇)也和上述第二葉片(川〇) 一起向同一方向移動。 20 201100901 此時,上述第二彈簧元件(800)和上述連接凸片(560)安裝 在上述第二葉片(700)的一端,以固定在上述鏡筒(100)上的另 -端為中心向右侧移動^上述連接凸片⑽)向右侧緩衝,插 入上述迴避槽(710)。 若向上述第二線圈元件(75〇)輸入的電源相反,上述第二葉 片(7〇〇)則向左側移動,上述第二彈簧元件(800)的一端和上述 連接凸片(560)的一端向左側移動緩衝。 如上所述,和上述電源連接元件(6〇〇)通電的上述連接凸片 (560)的一端和上述第三彈簧元件(55〇)連成一體,另外一端 固定結合在上述電源連接元件(6〇〇)上,緩解上述第二葉片 (700)左右移動時向左右方向的收縮,從而最大程度地減少上 〇 述第二葉片(雇)左右移動時上述連接凸片(56Q)的彈性阻力, 從而使上述第二葉片(700)順利地移動。 本發明小型相機裝置不僅僅局限在前面敘述的實施例,在 本發明的技術思想許可的範圍内,可以進行各種變形實施。 【圖式簡單說明】 21 201100901 本說明書中下列附圖是本發明最佳的實施方 八,與所閣述 ._明料細_ 一麟本發明技術上轉徵起到重要作用, • _僅限於記載本發明内容,並非對其它的解釋。 圖一以往技術的小型相機裝置的分解立體圖; 圖一圖一A部的擴大分解立體圖; 圖三本發明實施例的小型相機裝置立體圖;One blade (400). . The first spring elastically supports the second spring 4 (550) of the above-mentioned 201100901 is a thin plate, and the first blade (the first spring coffee attached to one side of the first blade (4)) and the first blade (the other side is mounted) The second springs (552) are separately formed. The outer sides of the first spring (551) and the second spring (552) are respectively fixed to the lower side of the second blade (700), and the inner side is respectively fixed to the first blade (400). The lower side of the above-mentioned first spring (551) and the above-mentioned second spring (552) and the first elastic crystal piece (10) are formed in a zigzag elastic portion between the inner side and the outer side, alleviating the above The first blade (10) is contracted in the vertical direction when moving up and down, and elastically supports the first blade (4). The first spring (551) and the second spring (552) are electrically conductive materials and are energized with the first coil element (450). The first spring (551) and the second spring (552) are symmetrically mounted about the first blade (400) and are not energized with each other. The first spring and the other end of the first coil element (450) are energized on the first spring (551) and the second spring (552), respectively. At this time, one end and the other end of the first coil element (45A) are respectively fixed to the inner side of the first spring (551) and the inner side of the second spring (552). 15 201100901 The third spring element (10) composed of the first spring (10) and the second spring (552) has the connecting tab (560) led out in the direction of the power connection element (6 (6). The connecting tab (10) is linear in the up and down direction, and the end is connected to the third spring element (_connected to the body, and the other end is fixed to the power connecting unit_). Depending on the case, the above-mentioned connecting tabs (56〇) may have various shapes such as a zigzag shape, a spiral shape, and a circular shape. The connecting tab (10) is composed of the first connecting tab on the first spring (551) and the second connecting tab (562) on the second spring (10). As shown in Fig. 5, the first connecting tab (561) is a rectangular thin plate which is formed to be drawn upward along the outer corner portion of the first spring (10). As shown in Fig. 5, the second connecting tab (562) is a rectangular thin plate which is formed to be drawn upward along the outer corner portion of the second spring (552). The first connecting tab (10) and the second connecting tab are symmetrically mounted in a diagonal direction. As described above, the first connecting tab (561) and the second connecting tab (562) respectively When the first spring (10) and the second spring (the second blade (10) are symmetrically mounted along the diagonal direction of the line 201100901), the first connecting tab (561) and the second connecting tab (the second connecting tab) The elastic resistance of 562) can equally act on the above-mentioned first blade (7QQ), thereby preventing the inclination. The above-mentioned first connecting tab (10) and the second connecting tab (562) are separately mounted in the above-mentioned returning position (? (8) of the second blade () as shown in Fig. 6. The above-mentioned connecting tab (561) And the second connecting tab (10)) is respectively mounted on the second blade (the side surface) in the avoidance groove (10). Therefore, in the avoidance groove (71〇), the first connecting tab (561) and the above The two connecting tabs (10) are separately mounted, and the above-mentioned first connecting tab (561) and the second connecting tab (10) can move the backing groove (71〇) back and forth when the second blade is moved to the left and right. , relieve contraction. The thickness of the first connecting tab (561) and the second connecting tab (562) is smaller than the thickness of the second spring member (800). Since the thickness of the first connecting tab (561) and the second connecting tab (562) is smaller than the thickness of the second spring element (10) G), when the second blade (7〇〇) is moved to the right, The first connecting tab (9) and the second connecting tab (562) have a lower resistance than the second connecting member (the second spring element side) The elastic resistance produced by the tabs (5 commits). In other embodiments, the first connecting tab (561) and the second connecting tab (562) are respectively provided on the first spring (551) and the second spring (552), respectively. Four. ❹ # The first connecting tab (561) and the second connecting tab (5 (2) are respectively provided at one of the outer two end edges of the first and second springs (551) and the second spring (552), and there are four. One of the two first connecting tabs (10) and the two of the two first connecting tabs (562) are energized with the power connection element (_), and the other two are not energized. #上上'The first magazine (551) and the second spring (552) have two of the first connecting tabs (561) and the second connecting tabs (10), respectively. One of the other and the other two are energized with the power connection element (600) to increase the above-mentioned first connection tab (561) and the second connection tab (562) of the second blade (7 (10)) of the branch The selective force is such that the first connecting tab (10) and the second connecting tab (10) have uniform elastic resistance, and the first blade (700) is more stable. 201100901 The first connecting tab (561) and the second connecting tab (562) pass through the first elastic element (10) Q) from the lower side of the second blade (7GG), and penetrate the lens barrel (100). The power connection component (6〇〇) is connected. As described above, the third spring member (55〇) is mounted on the lower side of the second blade (10), and the first connecting tab (561) and the second connecting tab 562 (562) are from the second blade. a lower side of the () grooving member (5GG) and the lens barrel (1), and connected to the power connection element (deletion) to maximize the first connecting tab (10) and the above The upper and lower lengths of the second connecting tabs (562) thereby reduce the elastic resistance that occurs when the second blade (10) is moved. The operation state of the compact camera device of the present invention constructed as above will now be described. ()' Figure (a) and Fig. 9(a) are cross-sectional views shown in A-A of Fig. 3, Fig. 7 (6), and Fig. 8 (6) and Fig. 9 (6) are cross-sectional views shown by Β_β of Fig. 3. The second coil element (750) is energized as shown in FIG. 7(a) and FIG. 7(b), before the first coil element (450) and above, the first spring element (500) 19 201100901 and the above The third spring element (550) is horizontally mounted, and the second spring element (8〇〇) and the connecting tab (560) are vertically mounted up and down. As shown in FIGS. 8(a) and 8(b), 'the third coil element (55') is supplied with power to the first coil element (450), and the magnetic field generated from the first coil element (450) is The magnetic field generated by the motor magnet piece (200) guided by the magnetic guiding tab ("o" interacts to raise the first leaf f% (400). When the first blade (4〇〇) rises The inner side of the first spring element (500) and the inner side of the third spring element (550) attached to the upper and lower sides of the first blade (4〇〇) are raised together with the first blade (4〇〇). At this time, the second blade (700) does not move, and the connecting tab (56〇) maintains the vertical state, and transmits power to the third spring element (550). As shown in Fig. 9(a) and Fig. 9(b) As shown, a power source is input to the second coil element (75A), a magnetic field generated by the second coil element (75A), and the motor magnetic sheet (200) guided by the magnetic guiding tab (310). The generated magnetic fields interact with each other so that the second blade (700) is horizontally directed to the right When the second blade (700) moves, the first blade (4〇〇) moves in the same direction as the second blade (the same). 20 201100901 At this time, the second spring element (800) And the connecting tab (560) is mounted on one end of the second blade (700), and moves to the right side of the other end of the lens barrel (100) to the right side to the right side (the connecting piece (10)) to the right side Buffering, inserting into the avoidance groove (710). If the power input to the second coil element (75A) is reversed, the second blade (7〇〇) moves to the left side, and one end of the second spring element (800) And one end of the connecting tab (560) is moved to the left side of the buffer. As described above, one end of the connecting tab (560) energized with the power connection element (6〇〇) and the third spring element (55〇) The first end is fixedly coupled to the power connection element (6〇〇) to relieve the contraction of the second blade (700) in the left-right direction when moving left and right, thereby minimizing the second blade (employed) ) The above connection when moving left and right The second blade (700) is smoothly moved by the elastic resistance of the tab (56Q). The compact camera device of the present invention is not limited to the above-described embodiment, and may be within the scope of the technical idea of the present invention. Various variants are implemented. [Simple description of the drawings] 21 201100901 The following drawings in the present specification are the best implementations of the present invention, and are indispensable for the technical conversion of the invention. Fig. 1 is an exploded perspective view of a compact camera device of the prior art; an enlarged exploded perspective view of a portion A of Fig. 1; Fig. 3 is a small camera device of an embodiment of the present invention. Stereogram
D 圖四本發明實施例的小型相機裝置的分解立體圖; 圖五本發明實施例的第三彈簧元件立體圖; 圖六本發明實施例的鏡筒和第三彈簧元件的結合狀態圖 圖七本發明實施例的小型相機裝置的運轉狀態圖; 圖八本發明實施例的小型相機裝置的運轉狀態圖;4 is an exploded perspective view of a compact camera device according to an embodiment of the present invention; FIG. 5 is a perspective view of a third spring member according to an embodiment of the present invention; FIG. 6 is a view showing a state of combination of a lens barrel and a third spring member according to an embodiment of the present invention. An operational state diagram of a compact camera device of an embodiment; FIG. 8 is an operational state diagram of a compact camera device according to an embodiment of the present invention;
圖九本發明實施例的小型相機裝置的運轉狀態圖。 3〇第二葉片 32第二彈簧元件 41第一綫圈元件 60磁軛元件 【主要元件符號說明】 20外殼 31第二綫圈元件 40第一葉片 50馬達磁片 100鏡筒 11〇鏡頭 22 201100901 150外殼 200馬達磁片 300磁軛元件 310磁性引導凸片 400第一葉片 450第一綫圈元件 5〇〇第一彈簧元件 550第三彈簧元件 551第一彈簧 552第二彈簧 560連接凸片 561第一連接凸片 562第二連接凸片 600電源連接元件 700第二葉片 710迴避槽 750第二綫圈元件 800第二彈簧元件 23Fig. 9 is a view showing an operational state of a compact camera device according to an embodiment of the present invention. 3〇 second blade 32 second spring element 41 first coil element 60 yoke element [main element symbol description] 20 outer casing 31 second coil element 40 first blade 50 motor magnetic sheet 100 lens barrel 11 lens 22 201100901 150 outer casing 200 motor magnetic sheet 300 yoke element 310 magnetic guiding tab 400 first blade 450 first coil element 5 〇〇 first spring element 550 third spring element 551 first spring 552 second spring 560 connecting tab 561 first connection Tab 562 second connecting tab 600 power connection element 700 second blade 710 avoidance slot 750 second coil element 800 second spring element 23