200525569 九、發明說明: 【發明所屬之技術領域】 本發明關於-種裝載在例如攜帶型電話機或攜帶型音響 設備等上、能進行旋轉操作和麼入操作的多方向輸入i 置,特別關於-種不會降低操作性而能小型化的多方向輸 【先前技術】 以往,在攜帶型電話等中,已知一種多方向輸入裝置, 即.作爲旋轉操作型電部件的旋轉開關和作爲壓入操作型 電部件的觸覺開關相互#近且分別配置,根據從旋轉開關 輸出的第1電信號,例如移動游標而能從液晶顯示部所顯示 的多個電話號財料地選擇教㈣話號碼,根據從旋 轉開關輸出的第2電信號’例如較呼叫模式而對上述選擇 的電話號碼進行自動撥號。 另外’在以下專利文㈣,公佈了一種多方向輸入裝 置,通過操作體的擺動動作及向與其擺動軌跡交叉的半徑 方向的移動而切換開關裝置。 專利文獻1所述的裝置,如圖8所示,具有圓弧狀操作端 部咖的操作體120’以支點軸15〇爲支點,以圖8所示的中 立位置爲起點,沿順時針方向及逆時針方向自由旋轉,另 外’通過操作體m在支點轴15〇上滑動,從而,能以上述 中立位置爲起點,向半徑方向(圖示Υ2方向)移動。另外: 又扭螺旋彈餐14G的纏繞部i4Ga由操作體12()保持,受扭螺 旋彈簧!4〇的臂部140b、140c由基座部支撐,上述操作體⑵ 96749.doc 200525569 始終向令立位置施力。 操作體120上,公用可動接點128a和可動接點127a相互導 通设置。基座部,設有上述公用可動接點128a始終滑動接 觸的公用固定接點113和3個切換固定接點丨i 〇、1丨丨、丨i 2。 右操作體120沿順時針轉動,則可動接點12乃與切換固定 接點11〇接觸,該切換固定接點,經由可動接點127&及公用 可動接點128a與公用固定接點113導通。另外,若操作體12〇 逆時針轉動,則可動接點127a與固定接點^丨接觸,固定 接點ill與公用固定接點113導通。另外,若操作體120向半 徑方向(圖示下方向)移動,則可動接點127a與固定接點112 接觸,該固定接點112與公用固定接點113導通。 專利文獻1 ·特開平9-274830號公報 在圖8所示的輸入裝置1〇1中,若上述操作端部i2〇a的轉 動半徑R過小,則用手指保持操作端部12〇a使之擺動時的轉 動靶圍狹小,操作性降低。由此,必須將轉動半徑r設定爲 一定程度長。 不過,上述輸入裝置101,在操作體12〇的轉動中心〇(支 點軸15G的中心)的周圍設置有作爲重定裝置而作用的受扭 螺旋彈簧140的纏繞部丨他,上述受扭螺旋彈簧⑽的纏繞 部140a,施行以大致上述轉動中心〇爲中心的扭轉變形。 因此,該輸入裝置101中,在比通過轉動中心〇橫向延伸 的假想線P-P更向圖示Y2 一侧(與操作端部12〇a的設置側相 反的一側),需要設置將纏繞部14〇3的下半部分定位的尺寸 H1的區域。此外,可動接點127a及各固定接點u〇、^、 96749.doc 200525569 112配置在比上述操作體i2〇的圖示下端更向下側,因此, 在上述H1的區域的下面還需要用於配置接點的尺寸似的 區域。 爲此,上述輸入裝置101的圖示γ方向的整體尺寸Η,需 要是在上述轉動半徑R上至少加上上述纏繞部14〇a的下半 部分尺寸H1和用於設置上述固定接點n0〜U2的尺寸H2 的尺寸以上(Η - R + Η1 + H2),因此,存在很難使輸入裝置 1〇1的整體尺寸Η小型化的問題。 【發明内容】 本發明即是爲了解決上述現有的問題而産生者,其目的 在於提供一種不會降低操作性,即能維持作爲必要的操作 端部的轉動半徑的尺寸且能小型化的多方向輸入裝置。 本發明,其特徵在於··具有:基座部;操作體,具有操 作端邛並被支撐在上述基座部上,通過操作該操作端部從 而月b以中立位置爲起點向擺動方向及以上述中立位置爲起 點向與擺動執跡交叉的半徑方向移動;受扭螺旋彈簧,具 有纏繞部及一對臂部、使上述操作體向上述中立位置重 疋,開關裝置,上述操作體向上述擺動方向及上述半徑方 向移動時切換接點; 上述受扭螺旋彈簧的上述纏繞部係設置在上述擺動軌跡 的曲率中心和上述操作端部之間。 本發明中,能使裝置整體的尺寸小型化,同時,能將作 爲必要的操作端部的轉動半徑尺設定爲某一程度長,因此, 不會降低作爲多方向輪入裝置的操作性。 96749.doc 200525569 其至少於上述操作 向的任一方向擺動 進行上述開關裝置 另外’能提供一種多方向輪入穿置 體從上述中立位置向順時針或逆時針方 時’並且在向上述半徑方向移動時,能 狀態的切換。 點可向順時針或逆時 ’上述開關裝置的設 上述操作體能以上述中立位置爲起 針雙方擺動,在操作體向雙方擺動時 定被切換。 上述裝置,對應於向繞順時針及植 丁 T及繞逆時針方向的操作, 能進行開關裝置的切換。 此時,上述開關裝置,較佳為 … 口又直在上述擺動軌跡的曲 率中心與上述操作端部之間。 上述裝置中’可以將開關裝置配置在上述擺動軌跡的曲 ^中心與上述操作端部之間,就不配置在除此之外的部分 這一點而言,能促進多方向輸入裝置整體的尺寸的小型化。 另外,上述開關裝置,可構成爲具有設置在上述操作體 的可動接點及設置在上述基座部的固定接點者。 此外,上述受扭螺旋彈簧係被保持在上述操作體上,各 個臂部與基座部卡合。 上述操作體的具體構成,係經由位於上述曲率中心的支 撐部,而可自由擺動地支撐在上述基座上,且上述支撐部 可向上述半徑方向自由移動。 本發明,在操作體的操作端部和支撐部之間設置受扭螺 旋彈簧’同時’在其間設置全部的開關裝置而構成,因此, 月b減少上述支撐部和殼體邊緣部之間的尺寸,因此,能使 96749.doc -10- 200525569 多方向輸入裝置小型化。 【實施方式】 H 係表示作爲本發明的實施方式的多方向輸人裝置的 外觀斜視圖,圖2係多方向輸入裝置的從一方向表示的分解 斜視圖’圖3係多方向輸入裝置的從其他方向表示的分解斜 視圖,圖4〜圖6表示多方向輸入裝置的動作,圖4A係表示 操作體位於中立狀態的俯視圖,圖4B係圖从的仰視圖,圖 5A係表示操作體的壓入狀態的俯視圖,圖5b係表示操作體 ㈣入狀態的仰視圖,圖从係表示操作體的擺動操作狀態 的俯視圖,圖6B係表示順時針方向擺動操作體時的仰視 圖,圖6C係表示逆時針擺動操作體時的仰視圖,圖7係圖i 的a-a線剖視圖。再有’圖4A、圖5A及圖6a中表示拆除上 部殼體的狀態。 本發明的多方向輸入裝置,被設置在例如攜帶型電話 機、數碼相機或攝像機等相機類、或MD唱機和Mp3唱機等 攜帶型音響設備等上。 如圖1〜圖3所示,本發明的多方向輸入裝置丨,具有下部 殼體2和上部殼體3。上述下部殼體2係由合成樹脂等成形的 絕緣材料,在圖示Z2側設有基座部(底部)2A。在上述基座 部2A的周圍設有壁δ2Β,尤其,圖示γι側形成的前面2c 比上述壁面2B低一層且形成圓弧形狀。在上述前面2C的圖 示X方向的中間部形成有沿圖示γ方向貫通的導向槽2a。另 外,在圖示Y2方向的端部形成有從上述基座部2A呈倒U字 形狀突出形成的軸承部2b。另外,在圖示X1及χ2側的壁面 96749.doc • 11 - 200525569 2B设有與上述基座部2A連結的凹部2D、2D,在上述凹部 2D、2D的上端形成對後述受扭螺旋彈簧6的兩臂部6b、6c 進行卡合的卡合凸部2e、2e。 如圖2、圖4A、圖4B等所示,在上述基座部2人的表面, 没有採用銅等金屬材料形成的旋轉檢測用的固定接點丨ι、 12、向圖示Y2方向的移動檢測用的固定接點丨3及公用固定 接點14。 上述旋轉檢測用的固定接點丨丨、12和上述移動檢測用的 固定接點13的一方端部lla、12a&13a,從三方夾隔上述基 座部2A内所設置的小空間2A1而對置。另外,上述旋轉檢 測用的固定接點丨丨、12和上述移動檢測用的固定接點丨3的 另方端部1 lb、12b及13b,延伸到位於圖示γ2側的上述壁 面2B的外部,露出於上述下部殼體2的底面。另外,公用固 定接點14設置在上述旋轉檢測用的固定接點12與上述移動 才双成1用的固疋接點1 3之間,其端部14b也延伸到位於圖示γ2 側的上述壁面2B的外部,露出於上述下部殼體2的底面。 上述上部殼體3由金屬板形成。如圖丨〜圖3及圖7所示, 在上述上部殼體3的向圖示Y2方向的位置,由衝壓加工形成 向上述下部殼體2的方向(Z2方向)突出的凸部3a。再有,在 上述上部殼體3的周圍,形成與上述下部殼體2所設置的多 個被卡合槽2d相對應的多個卡合片3b。通過上述上部殼體3 的各卡合片3b與被卡合槽2d卡合,從而將上部殼體3固定在 上述下部殼體2的上端。 上述操作體4,由合成樹脂等一體形成基部々A和形成圓弧 96749.doc 200525569 形狀的操作端部4B等,整體上里大致錫形狀。在上述基部 4A的圖不Z2側的面且圖示以則的端部,形成呈大致圓弧形 狀犬出的支撐部(擺動軌跡的曲率中心)4a。上述圓弧形狀的 操作端部4B’按照以上述支撐部物爲中心的規定半徑(支撐 部和操作體之間的長度)R的尺寸形成,不過,上述半徑R 是在操作者操作上述操作端部4B時不會降低操作性的規定 尺寸。這樣,本申請發明中,確保操作端部4B的半徑R爲 不會降低操作體4的操作性的規定尺寸。 再有,在上述操作端部4B的内周側的中間部,形成向圖 不Y2方向突出的突起4B1。另外,在操作端部仙的表面, 形成用以防止操作者手指和支撐部乜之間打滑的凹凸,在 其中間部形成表示中間位置的凸部4B2。 如圖2及圖3所示,在上述操作體4的基部4八的22側的面 上,固定有形成可動接點的滑動片5。上述滑動片5由銅等 導電性金屬板形成,在基部5A和上述基部5Α&χι&χ2側具 有呈大致L字形狀形成的滑動臂5a、5b。上述滑動臂5a具有 向Y1方向延伸的上臂部5al和向XI方向延伸的翼部5a2,上 述翼部5a2向接近上述下部殼體2的基座部2A的方向(Z2)彎 折。同樣地,上述滑動臂5b具有向Y1方向延伸的上臂部5Μ 和向X2方向延伸的翼部5b2,上述翼部5b2向接近上述下部 殼體2的基座部2A的方向(Z2)彎折。上述翼部5a2、5b2具有 彈性,在它們的前端形成向圖示Z2方向突出的可動接點 5a3、5b3。再有,上述滑動臂5b的上臂部5bl的長度,比上 述滑動臂5a的上臂部5al的長度形成得長,上述翼部5b2設 96749.doc •13- 200525569 置在離開基部5A的位置,上述翼部5a2配置在上述基部5A 與上述翼部5b2之間。 如圖2、圖4 A等所示,上述操作體4的基部4 A的Z1側的面 的中心,形成比上述基部4A向Z2方向下降一層的凹陷部 4b,在上述凹陷部4b的中心設置有呈筒狀形成的突出部 4c。在上述凹陷部4b的圖示XI及X2方向的兩側,分別形成 從基部4A呈大致圓弧形狀延伸的第1框部4d、4d。且,在第 1框部4d、4d的中心,設置有向上述突出部4C呈凸狀突出的 _ 卡扣部4e。另外,在上述凹陷部4b的圖示Y2側,形成由向 圖示X方向延伸的壁面構成的第2框部4f。上述第2框部竹的 X1及X2側的兩側和上述第1框部、4d的端部設有貫通槽 4g、4g。另外,上在述第2框部朴的幻及幻側的兩側,形成 由剖面L字形狀構成的、向上述貫通槽4g、4g方向突出的卡 扣邛4h、4h。此外,在上述第丨框部4d、4d的表面,形成向 圖示Z1方向呈半球狀突出的抵接部4i、如。 如圖4A等所示,在上述操作體4的基部4八的21側的面上 籲 °又置有作爲中立重定裝置而作用的受扭螺旋彈簧6。上述受 扭螺旋彈簧6具有設在中心側的纏繞部6a和從上述纏繞部 &兩端相互反方向延伸的一對臂部6b、6c。上述受扭螺旋 彈! 6爲自然狀態時,從上述纏繞部6a的幾乎相同位置反方 向L伸的一對臂部6b、6。其設定是相互平行且幾乎形成I · 線(/部6b和臂部6c之間的夾角0幾乎爲18〇度)。若從這種 〜刀別使方臂部6b繞逆時針方向轉動、使另一方臂部 堯1員時針方向轉動,則上述夾角Θ設定爲180度以下的v 96749.doc 14 200525569 字形狀,能向使上述纏繞部6a直徑收縮的方向變形,另外, 右使上述一對臂部6b、6c分別向上述反方向轉動,上述夾 角0设疋爲1 80度以上,則能向使上述纏繞部以直徑膨脹的 方向變形。 上述爻扭螺旋彈簧6設置在上述凹陷部4b内。在此,受扭 螺%彈貫6的安裝,在上述一對臂部仳和臂部&之間的夾角 0設定爲180度以下的狀態進行。此狀態,是上述纏繞部6a 的直徑向中心方向收縮變形的狀態,能容易地將上述纏繞鲁 部6a中的與上述一對臂部6b和臂部^伸出側相反的一側的 部分卡扣在上述凹陷部仆和卡扣部牦之間,還能將上述一 對臂部6b和臂部6c安裝在上述貫通槽乜、々内。而且,安 裝後使上述夾角0恢復爲18〇度,則上述纏繞部6a的直徑向 外周方向膨脹,上述一對臂部讣和臂部心分別卡扣在上述 卡扣部4h、4h中。在此狀態,上述一對臂部6b和臂部6c的 刖端經由上述貫通槽4g、4g幾乎呈直線地延伸到基部4A的 卜邛上述又扭螺疑彈簧6爲自然的狀態或有稍微收縮的狀 參 態。 上述操作體4’在-相示ZH_面上安裝有受扭螺旋 彈=、且另一方(圖示Z2側)的面上固定有滑動片5的狀態 下,。又置在上述下部殼體2和上部殼體3之間。在此狀態下, 置在上述操作體4上的支撑部4a插入上述下部殼體2的基 座部2Aj形成的轴承部_。另外,操作·的基部⑽ 於上述前面2C和上部殼體3内側的面之間形成的間隙中。此 外’上述操作端部4B的内周側的面與上述下部殼體2的前面 96749.doc -15- 200525569 2C相對置。因此,上述操作體4成爲能以上述支撐部4a爲中 心向繞順時針(cw)方向及繞逆時針(ccw)方向擺動自由的 狀態。也就是說,上述操作體4以繞順時針(cw)方向及繞逆 時針(ccw)方向作爲擺動軌跡,上述支撐部4a擔當上述擺 動執跡的曲率中心。 另一方面,經由上述操作體4的貫通槽4§、4g向基部4a 外部突出的上述一對臂部6b、臂部6c的前端,插入上述下 部殼體2的凹部2D、2D中,被上述卡合凸部2e、2e卡合。 而且,在圖4A所示的上述操作體4安裝於下部殼體2内的狀 態下,受扭螺旋彈簧6的一對臂部6b、6〇向又方向幾乎呈直 線(夾角0与180度)地延伸。因此,上述受扭螺旋彈簧6,在 此狀態也處於自然的狀態或稍微收縮的狀態,在上述凹陷 部4b内處於不會晃動的狀態。 下面’對多方向輸入裝置1的動作進行說明。 (中立狀態) 圖4A、圖4B表示上述操作體4處於中立位置的狀態。在 此中立狀態,上述操作端部48的設在内周側中間部的突起 4B1’在從形成在前面几中間的導向槽向外周方向離開的 位置與該導向槽2a對置,上述操作端部46處於不會偏向左 右任一方向的均衡的狀態。 另外,受扭螺旋彈簧6的上述一對臂部讣、&形成直線並 相對於X軸平行。而且,設在操作體4上的上述支撐部4a, 是與2置在下部殼體2上的呈上述倒U字形狀形成的軸承部 2b的靠向圖示Y1側的圓弧部分内面接觸的狀態。 96749.doc -16- 200525569 在上述中立狀態,設置在上述滑動片5的另一方滑動臂5b 側上的可動接點5b3與公用固定接點14接觸,而設置在一方 π動# 5a側上的可動接點5a3位於上述小空間2a 1中。因 此,上述旋轉檢測用的固定接點丨丨和公用固定接點“之 間、上述旋轉檢測用的固定接點12和公用固定接點“之 間、及移動檢測用的固定接點13和公用固定接點14之間任 意一個都設定爲OFF狀態(高阻抗狀態)。 再有,如圖7所示,上述滑動片5的可動接點5&3彈性壓接 在小空間2A1處,可動接點5b3彈性壓接公用固定接點丨々(圖 7中沒有圖示)。因此,上述操作體4推向圖示以方向,形成 在操作體4的第1框部4d、4d表面的抵接部4i、4i對上述上部 殼體3内面(Z2側的面)施壓。且,如圖7的實線所示,在上 述中立狀態,上述形成受扭螺旋彈簧6的纏繞部以的圖示ζι 側的最上部6al,相對於上述上部殼體3所設置的凸部“在 圖示Y1側的位置對置。 (壓入操作) 如圖5A、圖5B所示,若操作者施以壓入力η、將上述操 作端部4B向圖示丫2方向壓人,則上述支撺部仏在軸承部汕 内向圖示Y2方向的端部移動,且上述突起進行上述導 向槽2a内,上述操作體4向圖示¥2方向滑動移動。 此時,如圖5B所示,上述滑動片5的另一方滑動臂北的可 動接點5b3在公用固定接點14上滑動,而一方滑動臂化的可 動接點5a3從形成上述小空間2A1的基座部2A上移動到檢 測用的岐接點13上。由此,可以經由滑動片5將上述移動 96749.doc 200525569 檢測用的固定接點13和公用 態(低阻抗狀態)。 固定接點14之間切換成ON狀 另外,此時,如圖5A所示,受扭螺旋彈以也和上述操作 體4-起向圖示似向移動,而上述一對臂部讣士的前端 由上述卡合凸We、2e卡合,因此,一對臂部的士彈性 變形爲大致v字形狀。也就是說,在圖5a所示的狀態,在200525569 IX. Description of the invention: [Technical field to which the invention belongs] The present invention relates to a multi-directional input device that is mounted on, for example, a portable telephone or a portable audio device, and can be rotated and inserted, and particularly relates to- Multi-direction input capable of miniaturization without lowering operability [Prior Art] Conventionally, in a mobile phone or the like, a multi-direction input device is known, that is, a rotary switch as a rotary operation type electric component and a push-in The tactile switches of the operation type electric parts are arranged close to each other and are separately arranged. According to the first electric signal output from the rotary switch, for example, a cursor is moved, a dialectical number can be selected from a plurality of telephone numbers displayed on the liquid crystal display section. The selected telephone number is automatically dialed based on the second electric signal 'output from the rotary switch, for example, the call mode. In addition, in the following patent document, a multi-directional input device is disclosed, in which a switch device is switched by a swing motion of an operating body and a movement in a radial direction crossing its swing locus. As shown in FIG. 8, the device described in Patent Document 1 includes an operating body 120 ′ having an arc-shaped operating end coffee. The fulcrum axis 150 is used as a fulcrum, and the neutral position shown in FIG. 8 is used as a starting point in a clockwise direction. It can rotate freely in the counterclockwise direction, and by sliding the operating body m on the fulcrum axis 15o, it can move in the radial direction (the direction shown in Fig. 2) from the neutral position as a starting point. In addition: The twisted portion of the spiral spring meal 14G i4Ga is held by the operating body 12 (), and the torsion coil springs! The arms 140b and 140c of the 40 are supported by the base portion. The above-mentioned operating body ⑵ 96749.doc 200525569 always orders Apply force in the upright position. On the operating body 120, the common movable contact 128a and the movable contact 127a are electrically connected to each other. The base part is provided with the above-mentioned common fixed contact 113 which is always in sliding contact with the common fixed contact 113 and three switching fixed contacts 丨 i 〇, 1 丨 丨, 丨 i 2. When the right operating body 120 is rotated clockwise, the movable contact 12 is in contact with the switching fixed contact 110, and the switching fixed contact is conducted to the public fixed contact 113 via the movable contact 127 & and the common movable contact 128a. In addition, when the operating body 12 is rotated counterclockwise, the movable contact 127a contacts the fixed contact ^ 丨, and the fixed contact ill and the common fixed contact 113 are conducted. In addition, when the operating body 120 moves in the radial direction (downward direction shown in the figure), the movable contact 127a comes into contact with the fixed contact 112, and the fixed contact 112 and the common fixed contact 113 are conducted. Patent Document 1 · Japanese Patent Application Laid-Open No. 9-274830 In the input device 101 shown in FIG. 8, if the turning radius R of the operation end portion i20a is too small, the operation end portion 12a is held with a finger to make it. The turning target has a narrow circumference during swinging, which reduces the operability. Therefore, it is necessary to set the turning radius r to a certain length. However, the input device 101 is provided with a winding portion of the torsion coil spring 140 serving as a resetting device around the rotation center 0 (the center of the fulcrum shaft 15G) of the operating body 120. The torsion coil spring ⑽ The twisted portion 140a is subjected to torsional deformation around the rotation center 0 as a center. Therefore, in this input device 101, the winding portion 14 needs to be provided on the Y2 side (the side opposite to the installation side of the operation end portion 12a) than the imaginary line PP extending laterally through the rotation center 0. 〇3 The lower half locates the area of size H1. In addition, the movable contact 127a and each fixed contact u0, ^, 96749.doc 200525569 112 are arranged further downward than the lower end of the illustration of the above-mentioned operating body i2〇. Therefore, it is necessary to use it below the area of H1. The area is similar to the size of the contact. For this reason, the overall size 方向 in the γ direction of the input device 101 shown in the figure needs to be at least the size of the lower half H1 of the winding portion 14a and the fixed contact n0 ~ added to the rotation radius R. The size of U2 is larger than the size of H2 (Η-R + Η1 + H2). Therefore, it is difficult to miniaturize the entire size Η of the input device 101. SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned conventional problems, and an object thereof is to provide a multi-direction that can be downsized without reducing operability, that is, while maintaining a size of a turning radius as a necessary operation end portion. Input device. The present invention is characterized by having: a base portion; an operating body having an operation end 邛 and supported on the base portion; and by operating the operation end portion, the moon b starts to swing in a neutral position and starts from a neutral position. The neutral position is a starting point and moves in a radial direction intersecting with the swing track. The torsion coil spring has a winding portion and a pair of arm portions to reposition the operating body to the neutral position. The switching device and the operating body swing toward the above. The contact is switched when moving in the direction and the radial direction; the winding portion of the torsion coil spring is disposed between the center of curvature of the swing locus and the operation end portion. In the present invention, the overall size of the device can be miniaturized, and the turning radius rule as a necessary operation end can be set to a certain length. Therefore, the operability as a multidirectional wheel-in device is not reduced. 96749.doc 200525569 It swings at least in any of the above directions to perform the above-mentioned switching device. In addition, it can 'provide a multi-directional wheel-entering body from the neutral position to the clockwise or counterclockwise direction' and in the radial direction. When moving, the state can be switched. The point can be clockwise or counterclockwise. 'The above-mentioned switch device is set. The above-mentioned operating body can swing both sides with the neutral position as the starting point, and it can be switched when the operating body swings to both sides. The above-mentioned device can switch the switch device corresponding to the operation in the clockwise direction and the planting direction T and in the counterclockwise direction. At this time, it is preferable that the opening and closing port of the switch device is straight between the center of curvature of the swing locus and the operation end portion. In the above device, the switch device may be disposed between the center of the curve of the swing trajectory and the operation end portion. As far as it is not disposed in other parts, it can promote the overall size of the multidirectional input device. miniaturization. The switch device may be configured to have a movable contact provided on the operation body and a fixed contact provided on the base portion. The torsion coil spring is held by the operation body, and each arm portion is engaged with the base portion. The specific structure of the operating body is supported on the base so as to be swingable via a supporting portion located at the center of the curvature, and the supporting portion is free to move in the radial direction. According to the present invention, the torsion coil spring is provided between the operation end portion of the operating body and the support portion, and all the switch devices are provided at the same time. Therefore, the size between the support portion and the edge portion of the housing is reduced. Therefore, it is possible to miniaturize 96749.doc -10- 200525569 multi-directional input device. [Embodiment] H is a perspective view showing the appearance of a multi-directional input device as an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing the multi-directional input device from one direction. An exploded perspective view shown in other directions, FIG. 4 to FIG. 6 show the operation of the multi-directional input device, FIG. 4A is a top view showing the operating body in a neutral state, FIG. 4B is a bottom view from FIG. 5A is a pressure view of the operating body FIG. 5b is a bottom view of the operating body in a state of being inserted, FIG. 5b is a top view of the operating state of the swinging operation of the operating body, FIG. 6B is a bottom view when the operating body is swung clockwise, and FIG. 6C is a view showing FIG. 7 is a sectional view taken along the line aa of FIG. I when the operating body is swung counterclockwise. 4A, 5A, and 6a show a state in which the upper case is removed. The multi-directional input device of the present invention is provided in, for example, a portable telephone, a camera such as a digital camera or a video camera, or a portable audio device such as an MD player or an Mp3 player. As shown in Figs. 1 to 3, the multi-directional input device of the present invention includes a lower case 2 and an upper case 3. The lower case 2 is an insulating material formed of synthetic resin or the like, and a base portion (bottom) 2A is provided on the Z2 side in the figure. A wall δ2B is provided around the base portion 2A. In particular, the front surface 2c formed on the γm side in the figure is one level lower than the wall surface 2B and has an arc shape. A guide groove 2a penetrating in the γ direction shown in the figure is formed in the middle portion of the front face 2C in the X direction shown in the figure. In addition, a bearing portion 2b is formed at an end portion in the Y2 direction in the figure so as to protrude from the base portion 2A in an inverted U-shape. In addition, recessed portions 2D and 2D connected to the base portion 2A are provided on the wall surfaces of the X1 and χ2 sides 96749.doc • 11-200525569 2B, and a torsion coil spring 6 to be described later is formed on the upper ends of the recessed portions 2D and 2D. The engagement projections 2e, 2e of the two arm portions 6b, 6c that are engaged with each other. As shown in Figs. 2, 4A, 4B, etc., the surface of the two persons of the base part has no fixed contact for rotation detection made of a metal material such as copper. 12. Movement in the Y2 direction shown in the figure. Detection of fixed contacts 丨 3 and common fixed contacts 14. One end portions 11a, 12a & 13a of the fixed contact points 丨, 12 for the rotation detection and the fixed contact point 13 for the movement detection are sandwiched by a small space 2A1 provided in the base portion 2A from three sides. Home. In addition, the other end portions 1 lb, 12b, and 13b of the fixed contacts 丨, 12 for the rotation detection, and the fixed contacts 丨 3 for the movement detection extend to the outside of the wall surface 2B located on the γ2 side in the figure. , Exposed on the bottom surface of the lower case 2. In addition, the common fixed contact 14 is provided between the fixed contact 12 for rotation detection and the fixed contact 13 for the double movement, and the end portion 14b also extends to the above-mentioned γ2 side. The outside of the wall surface 2B is exposed on the bottom surface of the lower case 2. The upper case 3 is formed of a metal plate. As shown in FIGS. 1 to 3 and 7, at the position of the upper case 3 in the Y2 direction shown in the figure, a convex portion 3 a protruding in the direction of the lower case 2 (Z2 direction) is formed by press working. Further, a plurality of engaging pieces 3b corresponding to the plurality of engaged grooves 2d provided in the lower case 2 are formed around the upper case 3. The upper case 3 is fixed to the upper end of the lower case 2 by engaging the engaging pieces 3b of the upper case 3 with the engaged grooves 2d. The operation body 4 is formed of a synthetic resin or the like to form a base 々A and an arc-shaped operation end portion 4B or the like 96749.doc 200525569. The entire operation body 4 has a substantially tin shape. A support portion (curvature center of curvature) 4a having a substantially arcuate shape is formed on the end portion of the base portion 4A on the Z2 side of the figure and shown in the figure. The arc-shaped operation end portion 4B ′ is formed in a size of a predetermined radius (the length between the support portion and the operation body) R centered on the support portion, but the radius R is when the operator operates the operation end. The predetermined size of the portion 4B does not reduce operability. In this way, in the present invention, it is ensured that the radius R of the operation end portion 4B is a predetermined size that does not reduce the operability of the operation body 4. Further, a projection 4B1 protruding in a direction Y2 in the figure is formed in an intermediate portion on the inner peripheral side of the operation end portion 4B. In addition, unevenness is formed on the surface of the operating end part to prevent slippage between the operator's finger and the support part 乜, and a convex part 4B2 representing an intermediate position is formed in the intermediate part. As shown in Figs. 2 and 3, a sliding piece 5 forming a movable contact is fixed to a surface on the 22 side of the base portion 48 of the operation body 4 described above. The sliding sheet 5 is formed of a conductive metal plate such as copper, and has sliding arms 5a and 5b formed in a substantially L-shape on the base 5A and the base 5A & x 2 & x 2 side. The sliding arm 5a has an upper arm portion 5a1 extending in the Y1 direction and a wing portion 5a2 extending in the XI direction. The wing portion 5a2 is bent in a direction (Z2) close to the base portion 2A of the lower case 2. Similarly, the sliding arm 5b has an upper arm portion 5M extending in the Y1 direction and a wing portion 5b2 extending in the X2 direction. The wing portion 5b2 is bent in a direction (Z2) close to the base portion 2A of the lower case 2. The wing portions 5a2 and 5b2 have elasticity, and movable contacts 5a3 and 5b3 are formed at the front ends of the wings 5a2 and 5b2. The length of the upper arm portion 5bl of the sliding arm 5b is longer than the length of the upper arm portion 5al of the sliding arm 5a. The wing portion 5b2 is set to 96749.doc • 13- 200525569 at a position away from the base portion 5A. The wing part 5a2 is arrange | positioned between the said base part 5A and the said wing part 5b2. As shown in FIG. 2 and FIG. 4A, the center of the surface on the Z1 side of the base 4A of the operating body 4 is formed with a recessed portion 4b that is one level lower than the base 4A in the Z2 direction, and is provided at the center of the recessed portion 4b. There is a protruding portion 4c formed in a cylindrical shape. First and second frame portions 4d and 4d extending from the base portion 4A in a substantially circular arc shape are formed on both sides of the recessed portion 4b in the directions XI and X2 in the figure. Further, at the center of the first frame portions 4d and 4d, a _locking portion 4e protruding in a convex shape toward the protruding portion 4C is provided. Further, on the Y2 side of the recessed portion 4b shown in the figure, a second frame portion 4f composed of a wall surface extending in the X direction of the figure is formed. Both sides of the X1 and X2 sides of the second frame portion bamboo and end portions of the first frame portion and 4d are provided with through grooves 4g and 4g. In addition, on both sides of the magic and magic side of the second frame portion, latches 4h and 4h each formed in an L-shaped cross-section and protruding in the direction of the through grooves 4g and 4g are formed. In addition, on the surfaces of the first frame portions 4d and 4d, abutment portions 4i protruding in a hemispherical shape in the direction of Z1 in the figure are formed, for example. As shown in FIG. 4A and the like, a torsion coil spring 6 that functions as a neutral resetting device is provided on the surface on the 21 side of the base portion 48 of the operation body 4. The torsion coil spring 6 includes a winding portion 6a provided on the center side, and a pair of arm portions 6b, 6c extending from opposite ends of the winding portion & The twisted spiral above! In the natural state, a pair of arm portions 6b, 6 extending in the opposite direction L from almost the same position of the winding portion 6a. It is set so as to be parallel to each other and almost form an I-line (the included angle 0 between the / portion 6b and the arm portion 6c is almost 180 degrees). If the square arm portion 6b is rotated counterclockwise from this position, and the other arm portion is rotated counterclockwise, the included angle Θ is set to 180 degrees or less. V 96749.doc 14 200525569 Deformation in the direction of shrinking the diameter of the winding portion 6a, and turning the pair of arm portions 6b, 6c to the opposite direction respectively to the right, and the included angle 0 is set to 180 degrees or more. The direction of diameter expansion is deformed. The torsion coil spring 6 is provided in the recessed portion 4b. Here, the installation of the twisted screw% spring 6 is performed in a state where the angle 0 between the pair of arm portions 仳 and the arm & is set to 180 degrees or less. This state is a state in which the diameter of the winding portion 6a is contracted and deformed toward the center, and a portion of the winding lug portion 6a opposite to the pair of arm portions 6b and the protruding side of the arm portion ^ can be easily caught. The pair of arm portions 6b and 6c can be attached to the recessed grooves 々 and by buckling between the recessed portions and the locking portions 牦. After the installation, the included angle 0 is restored to 180 °, and the diameter of the winding portion 6a is expanded in the outer circumferential direction, and the pair of arm portions 讣 and the arm center are locked in the locking portions 4h and 4h, respectively. In this state, the butt ends of the pair of arm portions 6b and 6c extend almost linearly to the base portion 4A through the through grooves 4g and 4g. The torsion spiral spring 6 is in a natural state or slightly contracted. Status of state. The above-mentioned operating body 4 'is in a state where a torsion coil spring is mounted on the -phase ZH_ surface, and the sliding piece 5 is fixed on the other surface (Z2 side in the figure). It is placed between the lower case 2 and the upper case 3 again. In this state, the support portion 4a placed on the operation body 4 is inserted into the bearing portion _ formed by the base portion 2Aj of the lower case 2 described above. In addition, the base of the operation is placed in a gap formed between the above-mentioned front face 2C and the surface inside the upper case 3. In addition, the surface on the inner peripheral side of the operation end portion 4B is opposed to the front face of the lower case 2 96749.doc -15-200525569 2C. Therefore, the operating body 4 can swing freely around the support portion 4a in a clockwise (cw) direction and a counterclockwise (ccw) direction. That is, the operating body 4 has a clockwise (cw) direction and a counterclockwise (ccw) direction as the swing locus, and the support portion 4a serves as the center of curvature of the swinging locus. On the other hand, the front ends of the pair of arm portions 6b and 6c protruding to the outside of the base portion 4a through the through grooves 4§ and 4g of the operating body 4 are inserted into the recessed portions 2D and 2D of the lower case 2 and are described above. The engagement projections 2e and 2e are engaged. Furthermore, in a state where the operation body 4 shown in FIG. 4A is mounted in the lower case 2, the pair of arm portions 6 b and 60 of the torsion coil spring 6 are almost straight in the direction (angles 0 and 180 degrees). Ground extension. Therefore, the torsion coil spring 6 is also in a natural state or a slightly contracted state in this state, and is in a state where it does not shake in the recessed portion 4b. The operation of the multi-directional input device 1 will be described below. (Neutral State) FIGS. 4A and 4B show a state where the operation body 4 is in a neutral position. In this neutral state, the projection 4B1 'provided on the inner peripheral side middle portion of the operation end portion 48 is opposed to the guide groove 2a at a position separated from the guide groove formed in the middle of the front surface toward the outer peripheral direction. 46 is in a state where it is not biased in either direction. The pair of arm portions 讣, & of the torsion coil spring 6 form a straight line and are parallel to the X axis. The support portion 4a provided on the operating body 4 is in contact with the inner surface of the arc portion facing the Y1 side of the bearing portion 2b formed in the inverted U shape on the lower housing 2 as described above. status. 96749.doc -16- 200525569 In the above-mentioned neutral state, the movable contact 5b3 provided on the other side of the sliding arm 5b of the above-mentioned sliding sheet 5 is in contact with the common fixed contact 14, and the one provided on one side of the # πa moving side The movable contact 5a3 is located in the small space 2a1. Therefore, between the fixed contact for rotation detection and the common fixed contact, between the fixed contact for rotation detection 12 and the common fixed contact, and between the fixed contact for motion detection 13 and the common Each of the fixed contacts 14 is set to the OFF state (high impedance state). In addition, as shown in FIG. 7, the movable contact 5 & 3 of the sliding sheet 5 is elastically crimped at the small space 2A1, and the movable contact 5b3 is elastically crimped to a common fixed contact 丨 々 (not shown in FIG. 7). . Therefore, the operating body 4 is pushed in the direction shown in the figure, and the abutting portions 4i and 4i formed on the surfaces of the first frame portions 4d and 4d of the operating body 4 press the inner surface (the surface on the Z2 side) of the upper case 3. As shown by the solid line in FIG. 7, in the neutral state, the uppermost portion 6 a1 on the zeta side of the winding portion forming the torsion coil spring 6 is opposite to the convex portion provided on the upper case 3. Opposite the position on the Y1 side of the diagram. (Press-in operation) As shown in FIGS. 5A and 5B, if the operator applies a pressing force η and presses the operation end portion 4B in the direction of the figure 2, the above The support part 仏 moves toward the end in the Y2 direction shown in the bearing part, and the protrusions move into the guide groove 2a, and the operating body 4 slides in the direction shown in ¥ 2. At this time, as shown in FIG. 5B, The movable contact point 5b3 on the other side of the sliding arm 5 of the sliding sheet 5 slides on the common fixed contact point 14, and the movable contact point 5a3 as one sliding arm moves from the base portion 2A forming the small space 2A1 to the detection point. The fixed contact 13 can be moved to the common state (low impedance state) by detecting the above-mentioned moving 96749.doc 200525569 via the sliding sheet 5. In addition, the fixed contact 14 is switched to the ON state. At this time, as shown in FIG. 5A, the twisted spiral bomb is also connected with the above-mentioned operating body. 4- The upward movement is shown in the figure, and the tips of the pair of arm portions are engaged by the engaging projections We and 2e. Therefore, the pair of arm portions are elastically deformed into a substantially V shape. , In the state shown in Figure 5a, in
«作體4上向圖^Y1方向作用由受扭螺旋彈菁6產生的 彈性重^力f】。由此,若解除上㈣人力fi,則上述操作 體4利用上述受扭螺旋彈簧6的彈性重定力㈣定到圖从所 的中立位置’因此,能將上述移動檢測用的固定接點13 和公用固定接點14之間再切換成⑽狀態。也就是說,可 動接點5a3和上述移動檢測㈣@定接點13之間,形成切換 開關的ON狀態和〇FF狀態的上述第2開關裝置。«The elastic weight ^ f1 produced by the torsion helical elastic spring 6 acting on the body 4 in the direction of Fig. Y1]. Therefore, when the upper manpower fi is released, the operating body 4 is fixed to the neutral position shown in the figure by using the elastic resetting force of the torsion coil spring 6. Therefore, the fixed contact 13 for movement detection and the fixed contact 13 can be set. The common fixed contacts 14 are switched to the ⑽ state again. In other words, between the movable contact 5a3 and the above-mentioned motion detection ㈣ @ 定 接 13, the above-mentioned second switching device of the ON state and the 0FF state of the switch is formed.
另外,如圖7所示,若上述操作體4向圖示γ2方向移動, 則形成上述受扭螺旋彈簧6的上述纏繞部6a的圖示ζι側的 最上部6al從實線所示的位置到達虛線所示的位置。此時, 上述最上部6al向圖示Y2側越過設置在上述上部殼體3上的 凸部3a ’因此,能對操作者施以卡搭感。 此外,解除上述壓入力!^時,上述操作體4向圖示…方 向移動,而此時,上述最上部6al向圖示¥1側越過上述凸部 3a ’因此,也能對操作者施以卡搭感。 (繞順時針方向的擺動操作) 下面,如圖6A的實線及圖6B所示,若對上述操作部牦施 以繞順時針方向(CW方向)的操作力^^,則能使上述操作體 96749.doc -18- 200525569 4以上述支撐部4a爲中心從上述中立位置向cw方向擺動。 此時,如圖6B所示,上述滑動片5的另一方滑動臂外的可 動接點5b3在公用固定接點14上滑動,而—方滑動臂5&的可 動接點5a3從形成上述小空間2A1的基座部2A上移動到旋 轉檢測用的固定接點11上。由此,可以經由滑動片5將上述 移動檢測用的固定接點丨丨和公用固定接點丨4之間切換成 ON狀態(低阻抗狀態)。 另外,此時,如圖6A所示,在圖示幻侧的一方,上述受 扭螺旋彈簧6的臂部6b維持卡合在上述卡合凸部“上的狀 態,而在圖示X2側的另一方,上述臂部6c由上述操作體4 的卡扣部4h頂起而從上述卡合凸部。離開,因此,上述一 對臂部6b、6c發生彈性變形使上述夾角θ爲18〇度以下。 也就是說,在圖6A所示的狀態下,上述受扭螺旋彈菁6 的兩臂部6b、6c變形成大致v字形狀而收縮,在上述操作體 4的上述X2側的卡扣部仆上向圖示ccw方向作用由上述受 扭螺旋彈簧6産生的彈性重定力f2。由此,若解除上述繞順 時針方向的操作力F2,則上述操作體4利用上述受扭螺旋彈 簧6産生的彈性重定力〇重定到圖4八所示的中立位置。與此 同時,滑動片5的可動接點5b3返回到小空間2A1中,因此, 旎將上述旋轉檢測用的固定接點u和公用接點14之間再切 換成OFF狀態。也就是說,可動接點5a3和上述旋轉檢測用 的固定接點11之間,形成使開關的ON狀態和〇FF狀態進行 切換的上述第1開關裝置。 (繞逆時針方向的擺動操作) 96749.doc -19- 200525569 同樣,若對上述操作部4B施以繞逆時針方向(Ccw方向) 的操作力F3 ’則能使上述操作體4以上述支撐部仏爲中心從 上述中立位置向CCW方向擺動(參照圖6A的虛線、圖6〇。 此時,如圖6C所示,上述滑動片5的另一方滑動臂讣的可 動接點5b3在公用固定接點14上滑動,而一方滑動臂化的可 動接點5a3從形成上述小空間2A1的基座部2A上移動到旋 轉檢測用的固定接點12上。由此,可以經由滑動片5將上述 旋轉檢測用的固定接點12和公用固定接點14之間切換成 ON狀態(低阻抗狀態)。 而且,此時,在上述操作體4的上述χι側的卡扣部仆,向 圖示CW方向作用由上述受扭螺旋彈簧6產生的彈性重定力 f3(沒有圖示)。由此,若解除上述繞逆時針方向的操作力 F3,則能使上述操作體4利用上述受扭螺旋彈簧6的上述彈 性重定力f3重定到圖4A所示的中立位置。同時,滑動片$ 的可動接點5b3返回到小空間2A1*,因此,能將上述旋轉 檢測用的固定接點12和公用接點14之間再切換成〇卯狀 態。也就是說,可動接點5a3和上述旋轉檢測用的固定接點 12之間,形成切換開關的0N狀態和〇FF狀態的上述第^接點 部。 ”’ 另外,在上述多方向輸入裝置}中,如圖4B所示,支撐部 4a和操作端部4B之間的半徑,確保不會降低操作體4的 性的規定尺寸R。而且,受扭螺旋彈簧6和上述開關裝置, 是全部設在比上述支援部4 a更向具有操作體4的一側(圖示 Y1側)的構成。由此,無需在與比上述支撐部4a更向具有操 96749.doc -20- 200525569 作體4的一側相反的一側的區域配置任何部件,而能以用於 形成下部殼體2等的最小限必要尺寸h丨就可足夠。 由此’上述多方向輸入裝置的全體尺寸h可以爲在上述半 徑R上加上必要最小限的尺寸hl的尺寸(h=R+hl),因此, 能使多方向輸入裝置丨整體尺寸(特別是圖示Y方向的尺寸) 小型化。 再有,上述實施方式中,作爲中立重定裝置的一例而對 採用焚扭螺旋彈簧進行了說明,不過,本發明並不限於此, 也可以採用在自然狀態下呈大致V字狀的板簧等。 另外’示出了在操作體4上設置具有可動接點5&3、5133的 ✓月動片5在下部殼體2的基座部2 a設置上固定接點丨1〜工4 的構成,不過,本發明並不限於此,也可以採用在上述基 座部上設置滑動片、在操作體上設置固定接點的構成。 【圖式簡單說明】 圖1係表示作爲本發明的實施方式的多方向輸入裝置的 外觀斜視圖。 圖2係從一方向表示多方向輸入裝置的分解斜視圖。 圖係從其他方向表不多方向輸入裝置的分解斜視圖。 圖4A係表示操作體位於中立狀態時的多方向輸入裝置的 動作的俯視圖。 圖4B係表示操作體位於中立狀態的仰視圖。 圖5A係表示操作體的壓入狀態時的多方向輪入裝置的動 作的俯視圖。 i 圖5B係表示操作體的壓入狀態的仰視圖。 96749.doc -21 - 200525569 圖6A係表示擺動操作操作體時的多方向輸入裝置的動作 的俯視圖。 II 6B係、表示使操作操作體順時針方向擺動時的仰視圖t 圖6C係表示使操作體逆時針擺動操作時的仰視圖。 圖7係圖1的a-a線剖視圖。 圖8係表示專利文獻1所示的輸入裝置的概略的俯視圖。 【主要元件符號說明】 1 多方向輸入裝置 2 下部殼體 2a 導向槽 2b 軸承部 2d 卡合槽 2e 卡合凸部 2A 基座部(底部) 2A1 小空間 2B 壁面 2C 前面 2D 凹部 3 上部殼體 3a 凸部 3b 卡合片 4 操作體 4A 基部 4B 操作端部 96749.doc 5b2 翼部 5b3 可動接點 6 受扭螺旋彈簧 6a 纏繞部 6a 1 上部 6b、6c 臂部 11、12 旋轉檢測用的固定 接點 11a、 端部 12a、 13a lib、 端部 12b、 13b 13 移動檢測用的固定 接點 14 公用固定接點 200525569 4B1 突起 4B2 凸部 4a 支撐部(擺動執跡 的曲率中心) 4b 凹陷部 4c 突出部 4d 第1框部 4e 卡扣部 4f 弟2框部 4g 貫通槽 4h 卡扣部 4i 抵接部 5 滑動片 5A 基部 5a - 5b 滑動臂 5al 上臂部 5a2 翼部 5a3 可動接點 5b 滑動臂 5bl 上臂部 P-P 假想線 R 轉動半徑 14b 端部 101 輸入裝置 no、固定接點 111 、 112 、 113 120 操作體 120a 操作端部 127a 可動接點 128a 可動接點 140 螺旋彈簧 140a 纏繞部 140b、臂部 140c 固定接點In addition, as shown in FIG. 7, when the operation body 4 moves in the direction of the γ2 shown in the figure, the uppermost portion 6 a1 on the zeta side of the illustration of the winding portion 6 a forming the torsion coil spring 6 reaches the dotted line from the position shown by the solid line. Shown location. At this time, the uppermost portion 6a1 passes over the convex portion 3a 'provided on the upper case 3 toward the Y2 side in the figure, and therefore, it can give the operator a click feeling. In addition, release the above-mentioned pressing force! At this time, the operating body 4 moves in the direction shown in the figure, and at this time, the uppermost part 6a1 passes over the convex portion 3a to the ¥ 1 side in the figure, so that the operator can also feel a click. (Clockwise clockwise operation) Next, as shown in the solid line in FIG. 6A and FIG. 6B, if the operation part 牦 is operated in a clockwise direction (CW direction) ^^, the above operation can be performed. Body 96749.doc -18- 200525569 4 swings from the neutral position to the cw direction with the support portion 4a as the center. At this time, as shown in FIG. 6B, the movable contact 5b3 outside the other sliding arm of the sliding piece 5 slides on the common fixed contact 14, and the movable contact 5a3 of the square sliding arm 5 & The base portion 2A of 2A1 is moved to the fixed contact 11 for rotation detection. Thereby, the fixed contact 丨 丨 for motion detection and the common fixed contact 丨 4 can be switched to the ON state (low impedance state) via the slider 5. In addition, at this time, as shown in FIG. 6A, on the magic side, the arm portion 6b of the torsion coil spring 6 is maintained in the state of being engaged with the engagement convex portion, and the X2 side On the other hand, the arm portion 6c is pushed up by the engaging portion 4h of the operation body 4 and is separated from the engaging convex portion. Therefore, the pair of arm portions 6b and 6c are elastically deformed so that the included angle θ is 180 degrees. In other words, in the state shown in FIG. 6A, the two arm portions 6 b and 6 c of the twisted spiral elastic cyan 6 are deformed into a substantially V-shape and contracted, and the buckle on the X2 side of the operation body 4 is contracted. The upper part acts on the elastic resetting force f2 generated by the torsion coil spring 6 in the direction shown in the figure cw. Therefore, when the operating force F2 in the clockwise direction is released, the operating body 4 uses the torsion coil spring 6 The generated elastic resetting force 0 is reset to the neutral position shown in Fig. 4 and 8. At the same time, the movable contact 5b3 of the sliding piece 5 is returned to the small space 2A1. Therefore, 旎 the fixed contact u and The common contact 14 is switched to the OFF state again. That is, the movable contact 5 Between the a3 and the fixed contact 11 for rotation detection, the above-mentioned first switch device for switching the ON state and the OFF state of the switch is formed. (Swing operation in the counterclockwise direction) 96749.doc -19- 200525569 The same If an operating force F3 ′ is applied to the operation portion 4B in a counterclockwise direction (Ccw direction), the operation body 4 can be swung from the neutral position to the CCW direction with the support portion 仏 as a center (see the dotted line in FIG. 6A). At this time, as shown in FIG. 6C, the movable contact 5b3 of the other sliding arm 讣 of the above-mentioned sliding piece 5 slides on the common fixed contact 14, and the movable contact 5a3 of one sliding arm is formed from The base portion 2A of the small space 2A1 is moved to the fixed contact 12 for rotation detection. Thereby, the fixed contact 12 for the rotation detection and the common fixed contact 14 can be switched to the common fixed contact 14 through the sliding sheet 5. ON state (low-impedance state). At this time, the buckling part of the χι side of the operating body 4 acts on the elastic resetting force f3 generated by the torsion coil spring 6 in the CW direction shown in the figure (not shown). (Shown). Therefore, if In addition to the counterclockwise operating force F3, the operating body 4 can be reset to the neutral position shown in FIG. 4A by the elastic resetting force f3 of the torsion coil spring 6. At the same time, the movable contact of the sliding plate $ 5b3 returns to the small space 2A1 *. Therefore, the fixed contact 12 for rotation detection and the common contact 14 can be switched to 0 ° state again. That is, the movable contact 5a3 and the fixed for rotation detection The above-mentioned ^ th contact portion of the ON state and the 0FF state of the switch is formed between the contacts 12. "In addition, in the above-mentioned multi-directional input device}, as shown in Fig. 4B, the support portion 4a and the operation end portion The radius between 4B ensures a predetermined size R that does not reduce the properties of the operating body 4. In addition, the torsion coil spring 6 and the switch device are all configured to be provided on the side (the Y1 side in the drawing) having the operating body 4 than the support portion 4 a. Thereby, it is not necessary to dispose any member in the area opposite to the side having the operating body 9749.doc -20-200525569 as the supporting part 4a, and it can be used for forming the lower case 2 and the like. The minimum required size h suffices. Therefore, 'the overall size h of the above-mentioned multi-directional input device may be a size in which the necessary minimum dimension hl is added to the radius R (h = R + hl). Therefore, the overall size of the multi-directional input device (particularly, (Dimensions are shown in the Y direction.) Miniaturization. It should be noted that in the embodiment described above, the use of a torch coil spring has been described as an example of a neutral resetting device. However, the present invention is not limited to this, and a leaf spring having a substantially V shape in a natural state may be used. . In addition, 'shows a configuration in which a movable contact 5 with movable contacts 5 & 3, 5133 is provided on the operation body 4 and fixed contacts 1-1 to 4 are provided on the base portion 2a of the lower housing 2. However, the present invention is not limited to this, and a configuration in which a slide piece is provided on the base portion and a fixed contact is provided on the operation body may be adopted. [Brief Description of the Drawings] Fig. 1 is a perspective view showing the appearance of a multidirectional input device according to an embodiment of the present invention. FIG. 2 is an exploded perspective view showing the multi-directional input device from one direction. The diagram is an exploded perspective view of a multi-directional input device from other direction tables. Fig. 4A is a plan view showing the operation of the multidirectional input device when the operating body is in a neutral state. FIG. 4B is a bottom view showing the operating body in a neutral state. Fig. 5A is a plan view showing the operation of the multidirectional wheel-in device when the operating body is pressed in. i FIG. 5B is a bottom view showing a pressed state of the operation body. 96749.doc -21-200525569 Fig. 6A is a plan view showing the operation of the multi-directional input device when the operating body is swung. II 6B, a bottom view when the operation body is swung clockwise t. FIG. 6C is a bottom view when the operation body is swung counterclockwise. Fig. 7 is a sectional view taken along the line a-a in Fig. 1. FIG. 8 is a schematic plan view showing an input device shown in Patent Document 1. FIG. [Description of main component symbols] 1 Multi-direction input device 2 Lower housing 2a Guide groove 2b Bearing portion 2d Engagement groove 2e Engagement convex portion 2A Base portion (bottom) 2A1 Small space 2B Wall surface 2C Front 2D recess 3 Upper housing 3a convex part 3b engaging piece 4 operating body 4A base 4B operating end 96749.doc 5b2 wing part 5b3 movable contact 6 torsion coil spring 6a winding part 6a 1 upper part 6b, 6c arm part 11, 12 rotation detection fixing Contact 11a, end 12a, 13a lib, end 12b, 13b 13 fixed contact for motion detection 14 common fixed contact 200525569 4B1 protrusion 4B2 convex part 4a support part (center of curvature of the swing track) 4b recessed part 4c Protruding part 4d 1st frame part 4e Clip part 4f Brother 2 Frame part 4g Through groove 4h Clip part 4i Abutment part 5 Slide 5A Base 5a-5b Sliding arm 5al Upper arm part 5a2 Wing part 5a3 Movable contact 5b Sliding arm 5bl Upper arm PP imaginary line R Turning radius 14b End 101 Input device no, fixed contact 111, 112, 113 120 Operating body 120a Operating end 127a Movable contact 128a Movable contact 140 Coil spring 140a Winding portion 140b, Arm portion 140c Fixed contact
R操作體的半徑(支撐部與 操作端部之間的長度) ccw方向逆時針方 F1壓入力 操作力 操作力 彈性重定力 彈性重定力 整體尺寸 尺寸 F2 F3 f2 f3 Η HI H2 hiR Operating body radius (length between support and operating end) ccw direction counterclockwise F1 press-in force operating force operating force elastic repositioning force elastic repositioning force Overall dimensions Dimensions F2 F3 f2 f3 Η HI H2 hi
最小限必 96749.doc -23-The minimum must be 96749.doc -23-