201113764 六、發明說明: 【發明所屬之技術領域】 本發明涉及一種滑鼠結構,尤其是指一種可根據使 用者的喜好調節點擊力度的滑鼠結構。 【先前技術】 滑鼠和鍵盤,都是電腦不可或缺的輸入工具,而 鼠為控制游標的主要卫作,其—主要的輸人方式即為按 壓的輸入方式,尤其是在AUT0CAD系列、pR⑽系列 ^會圖軟體環境巾’或者是在多媒體軟體操作環境中, :^多^滑鼠執行指標操作及定位點選,並通過點擊 /月鼠的知鍵方式輸入。 有技術的滑鼠,其按鍵的點擊力度多是按 大於或等於之前 又使用者把加的力量必須 故盔法斜科 °又、里,才旎將滑鼠的按鍵按下, 详…/情不同較㈣的喜好而㈣_ @ u 度。同時,隨荖命辜客ΟΛΛ戍 J ”石#力 也越來二= 應用越來越廣,其使用人群 群。夕樣化’老人和小孩亦是滑鼠的—重要使用族 宅人和小孩 Ί三 力量是比妒丨 !主疋女性的力量相對於男性的 對於處若㈣間按壓滑鼠’就會使手腕酸痛, 長發育:亦或是對於重 一身體的生 大力量用於按壓滑氣,亦會;=酸=的使用較 是對於長時間使用滑鼠的白領痛::題;甚至 習慣而需要調整滑鼠的點擊力度。 、也會因個人 201113764 馨^此,本發明提供一種可根據不同使 ,而自行微調滑鼠的按鍵點擊力 六: 的滑鼠實屬必要。 又凋即點擊力度 【發明内容】 本發明所要解決的技術問題 ^广嫌構,使用者可根據自;:::可= 即按壓滑鼠按鍵的力度。 Ί 口女f 15周201113764 VI. Description of the Invention: [Technical Field] The present invention relates to a mouse structure, and more particularly to a mouse structure that can adjust the click strength according to the user's preference. [Prior Art] Both the mouse and the keyboard are indispensable input tools for the computer, and the mouse is the main guard for controlling the cursor. The main input method is the input method of pressing, especially in the AUT0CAD series, pR(10) Series ^ will map the soft environment towel 'or in the multimedia software operating environment, : ^ ^ ^ mouse to perform the indicator operation and positioning point selection, and click on the / mouse mouse button to enter. The technical mouse has more clicks on the buttons than before or after the user has added the force. Different than (four) preferences and (four) _ @ u degrees. At the same time, with the fate of the ΟΛΛ戍 ΟΛΛ戍 力 力 力 力 力 力 力 力 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The strength of the three is the comparison! The power of the female is relative to the male. If the mouse is pressed, the wrist will be sore, long-term development: or for the heavy force of the body to press the slippery , will also; = acid = the use of the white collar pain for long-term use of the mouse:: question; even accustomed to adjust the click strength of the mouse. Also, due to personal 201113764 ^ ^, the present invention provides a According to different reasons, it is necessary to fine-tune the button click force of the mouse: the mouse clicks the strength [invention content] The technical problem to be solved by the invention is widely suspected, the user can be based on self: :: can = the strength of pressing the mouse button. Ί mouth female f 15 weeks
案:為了解決上述技術問題,本發明提出以下技術方 一種可調節點擊力度的滑鼠結構,1包含有. 一殼體,其具有一按鍵部; 一電路板模組’其設置於該殼體内;以及 至^屑即機構,其設於該殼體内,與對應的電路 板模組電性連接,且對應該按鍵部,其包含有: -承載體’其上對應該按鍵部且具有一觸通開關模 一、、且,其可輸出點擊信號傳送至電路板模組; -調節板’其-端連接該承載體,使按鍵部與該觸 通開關模組分別對應該調節板的-自由端相 異位置;及 。周動、,且件’可5周動地組設於該殼體且連動該調節 機構移動,使该調節板的該自由端以不同位置 對應3玄按鍵部,改變該調節板按壓該觸通開關 模經的力度。 …優選的是’該殼體的按鍵部設有相㈣二按鍵,相 對^又有—㈣機構’每—調節機構的觸通開關模組電性 連接在對應的電路板模組。 201113764 優選的是,該觸通開關模組包括一開關部件和一按 鈕觸毛件,戎按鈕觸發件觸壓該開關部件,使得該開關 部件啟動和關閉。 優選的是,該調動組件包括一推塊,及設置於該殼 體上的/月槽,5亥推塊上具有—凸塊,該凸塊穿過該滑 槽’並可沿該滑槽移動。 1貧遲的是 泫设體按鍵部内表面延伸有接觸部 I _Lr— 1 1 / . 接觸部對應該調節板的自由端 優選的是,該殼體上設有一凹槽,而該調動組件設 有-具凸部的基體,使基體上承載該承賴及電路板, :位於相槽上並使凸部位於凹槽内,使該調節機 構可沿該凹槽移動。 本發明與現有技術相比,其具有以下優點. ^結構簡潔:本發明藉由在滑鼠的殼體内增設一調 :機構節機構與該電路板触電性連接,兑巧妙 娜載體的槓桿原理,通過調節該調動組 不機構移動,從而改變該調節板的自由端的 ^應該按鍵部的接觸部,即改^ β g β 關模組的按壓力的力臂……Ρ文又啟動该觸通開 需要⑽改㈣動該觸通開關模組 而要的_力的力矩’使滑鼠達到可微調點擊力度。 運動,容易:調動組件用於推動該調節機構 血該滑塊和一滑槽’該推塊上的凸塊 槽配合’並沿該滑槽移動,從而 :::=:動_機構容易操作,在使 ψ隧時都可以調節滑鼠的點擊力度。 201113764 3.微調設計適用範圍帛:隨著電子產品的應用越來 越廣,其使用人群也越來越多樣化,老人和小孩、女性 亦是滑鼠一重要的使用族君_,若長時間按壓滑氣,常使 手腕酸痛、不適,因此,本發明巧妙地利用調節板對承 載體的槓桿原理’使滑鼠達到可微調點擊力度,更能序 泛適用於這些使用族群,讓滑鼠更符合人體工學。貝 本發明的滑鼠,其不僅可根據使用者的不同需求、 愛好’自由地調節點擊按鍵的力量;且適㈣三鍵In order to solve the above technical problem, the present invention proposes a mouse structure that can adjust the click strength, and includes a housing having a button portion; a circuit board module disposed on the housing And a chip-disposing mechanism disposed in the housing and electrically connected to the corresponding circuit board module, and corresponding to the button portion, comprising: - a carrier body corresponding to the button portion and having a touch-through switch module, and, wherein the output button signal can be output to the circuit board module; - the adjustment board is connected to the carrier body at its end, so that the button portion and the touch-through switch module respectively correspond to the adjustment plate - free ends are different positions; and. Circumfluent, and the piece ' can be set in the casing 5 weeks and interlocked to move the adjustment mechanism, so that the free end of the adjusting plate corresponds to the 3 key button portion at different positions, and the adjusting plate is pressed to press the contact The strength of the switch mode. Preferably, the button portion of the housing is provided with phase (four) two buttons, and the contact switch module of each of the adjustment mechanisms is electrically connected to the corresponding circuit board module. Preferably, the touch-switch module includes a switch member and a button-touch member, and the button trigger member presses the switch member to cause the switch member to be activated and deactivated. Preferably, the transfer assembly includes a push block and a/moon groove disposed on the housing, and the 5th push block has a protrusion, and the protrusion passes through the chute and is movable along the chute . 1 Poor late is that the inner surface of the button portion of the body is extended with a contact portion I_Lr-1 1 / . The contact portion corresponds to the free end of the adjustment plate. Preferably, the housing is provided with a recess, and the transfer assembly is provided a base body having a projection such that the base and the circuit board are carried on the base body: the phase groove is located on the phase groove and the convex portion is located in the groove so that the adjustment mechanism can move along the groove. Compared with the prior art, the invention has the following advantages: ^Simple structure: the invention adds a key in the shell of the mouse: the mechanism node mechanism is electrically connected with the circuit board, and the lever of the smart carrier The principle is that by adjusting the movement of the movement group, the contact portion of the button portion of the free end of the adjustment plate is changed, that is, the force arm of the pressing force of the βββ module is changed... Turning on the need to (10) change (4) the force of the force of the touch switch module to make the mouse reach the fine-tunable click strength. Movement, easy: the mobilization component is used to push the adjustment mechanism blood, the slider and a chute 'the bump groove on the push block cooperates' and moves along the chute, thereby:::=: The moving mechanism is easy to operate, The click strength of the mouse can be adjusted while making the tunnel. 201113764 3. Scope of application of fine-tuning design: With the increasing use of electronic products, the use of people is also increasingly diverse, and the elderly and children, women are also an important use of the mouse _, if long Pressing the slippery air often makes the wrist sore and uncomfortable. Therefore, the present invention skillfully utilizes the lever principle of the adjusting plate to the carrier to make the mouse reach the fine-tunable clicking force, and more orderly applies to these user groups, so that the mouse is more Ergonomic. The mouse of the present invention can not only freely adjust the power of clicking a button according to the different needs and preferences of the user; and the (four) three-key
兩—鍵式樣、光學或滑輪、有線或無線等多種類型的滑鼠。 【實施方式】 立第—圖為本發明可調節點擊力度的滑鼠的結構示 :圖,第二圖為第一圖中A部分的放大圖,第三圖為 弟一圖中的調節機構的剖視圖,同時參見第一至第一 圖。本發明可調節點擊力度的滑鼠,包含有:一殼體ι〇^ 一電路板模組20,以及一調節機構3〇。 其中,在該殼體ίο的外部前端設有—按鍵部1〇3 本實施例以兩相鄰的按鍵部1G3說明,且該電路板模》 20包含有-電路主板21及兩個電路板22,電路板模{ 是位於該殼體10内且位於底部上,該兩電路板22』 與電路主板21電性連接。而該調節機構3〇設置於該秦 體忉内,且與該按鍵部103相對應的位置,並盥 板模組20相對應的電路板22電性連接。本發明夢 節該調節機構3 G在殼體]〇内的位置’使該等按鍵^ i 〇: 對應該調節機構3 〇的不同位置,達到可調節按鍵部⑽ 被按屢進而點擊調節機構3〇所需的力臂,從而該 點擊力的力矩,使得使用者可根據不同喜好而調節滑鼠 201113764 的點擊力度。 繼績參考第二圖及第三圖。該調節機構%包含有. -承载體3(H,-調節板3〇2,以及一調動組件如。该 調節板302與該調動組件3〇3設置於該承载體3〇1上^ 可通過推動該調動組件303以帶動整個調節結構 動0 該承載體301包含有一容納凹槽3〇11及一觸通開關 模組3(Π2。該容納凹槽3〇11設於該承載體3〇ι與該按 鍵部103對應的位置,用於容設該觸通開關模挺如2。 而該觸通開關模組3012包括一開關部件3〇13和一按知 觸發件3〇14,且該按鈕觸發件3〇14設於該開關部件 3013的上方並以自由端凸出於該容納凹槽3〇ιι外,該 按鈕觸發件3014可被按壓而做上升或下壓動作,以^ 制該開關部件3013的開啟和_,又該開關部件3〇1工3 與該電路板模組20電性連接,可將點擊資訊傳輸至 路板模組20。 該調節板302位於該按鍵部103的下方,其一側向 承載體301延伸有一彎曲的延長段3〇2卜並通過該延長 段3021與該承載體301枢接,其枢接點為點〇,使^ 鍵部103與該觸通開關模組3012分別處於該調節板3〇2 ,相異位置,並使該調節板3〇2水平而位於該觸通開關 模組3012的上方。當點擊該按鍵部1〇3後,該調節板 3〇2因受到該按鍵部丨03的壓力後而下壓該按鈕觸發件 3014,進而觸通該開關部件3〇 13呈開啟狀態,並將該 點擊資訊傳送至電路板模組20。 201113764 下面介紹可使該調節機構30移動的調動組件303。 該調動組件303可調動的組設於該殼體1〇内,其可帶 動该§周郎機構30 —起移動,從而改變按鍵部1 對應 至s亥调節機構30的調節板302自由端的不同位置,改 變該調節板302按壓該開關部件3013的力度。該調動 組件303包括一連接該承載體3〇1的推塊3〇31和一設 置於該殼體10上的滑槽104。該滑槽1〇4可設於該殼體 10的上表面、或底面,本實施例優選設置於上表面(如 第四圖所示位在該殼體10的側邊)。該推塊3〇31設於 该承載體301的側邊,推塊3〇31上具有一凸塊3〇33, 該凸塊3033可穿過該滑槽1〇4並部分外露於殼體1〇外 ,,操作調節時,通過推動該凸塊3〇33而帶動整個調 節機構30移動。前述調動組件3〇3的推塊3〇31、凸塊 =33僅為舉例說明,本案不限於此,可因實際情況做出 受化結構設計。 在本發明中,該調動組件3〇3又具有一底部凸設一 =部304的基體305,該調節機構3〇的承載體3〇ι位在 〜電路板22上,該電路板22則位在基體305上方,皆 周整機構3G的移動而移動,該電路板22並分別與 :啟Ϊ件凑3013及電路主板21電性連接。開關部件3013 i二、:s將點擊資訊傳送至該電路板22 ’再將該點擊 傳=電路主板21。該基體3〇5優選 it構^ :_力小_4 ’主要目的是增加調 的耐磨度’使調節機構3〇 電路板22由於摩擦而被損壞。 +曰使 201113764 而該殼體〗〇係由一底殼】〗及一可盥 的蓋殼12構成,之間龙报& 、&级11相,、且己 内底面上設有一條形的凹槽 的 曰 並使凸邛304位於凹槽11】内,該凹槽U1寬 又、長度大於該凸部304寬度及長度,但小於 使得該調節機構30沿其凹槽m % 移上述基體305、凹槽1U的結構,僅為舉例說明, 可根據實際情況對其作出變化設計,例如,可使用滾輪 (未示於圖)代替基體305,直接鎖固於承载體3〇ι 路板22下方,藉由滾輪在凹槽ln内移動。 在本發明中,該殼體10的該等按鍵部1〇3的内面 延伸有一接觸部1〇31,其為一柱狀結構或片狀結構,垂 設於該調節板302的上方,與該調節板3〇2的自由端對 應,該接觸部1031的一端用於與該調節板3〇2接觸’ 當按鍵部103下壓時,會帶動該接觸部1〇31 一起下壓 於調節板302。 弟五圖為本發明另一實施例的剖視圖,其主要示意 a玄凋動組件303 ’的另一實施例。在本實施例中,該底殼 11上挖空設置有一滑槽104’,推塊3031,設置於該電路 板22的下方,其凸設有一凸塊3033,,該推塊3031,位 於該滑槽104,上並使凸塊3033,位於該滑槽1〇4,内。該 滑槽104’的寬度、長度大於該凸塊3033,的寬度及長 度’但小於推塊303 Γ的寬度和長度,使該調節機構30 可沿該滑槽104,移動,且不會發生偏移,同時該凸塊 3033’的高度應低於該底殼η的厚度,使得底殼η能夠 %、疋地放置。本實施例的調郎方式,與第一實施例的調 201113764 =式相似,調節調節機構30時,可直接推動該凸塊 1其帶動整個調節機構3 〇移動。本實施例中的 八他…,與第一實施例相同,故在此不予贅述。 81為本發明可調節點擊力度的滑鼠結構進行 圖’第七圖為第六圖中B部分的放大圖,第八 二:?圖:的凋即機構的剖視圖’即將調節結構向滑 :=:m t第四圖中前碩所示方向)調節後的示意圖。 /第五圖及第八圖可知按紐觸發件3014距0 302 ^4^ 5 3014 •5U2接觸日守,對調節板go〗的阳士 φ ^ . 2的阻力R,那麼,根據槓桿 :::按鈕觸發件3014,就必須施加大於μ 柘ίο/沾番第二圖(或第五圖)中的接觸部1031對調節 邙umH臂為Ll ’動力為Fl,圖7、圖8中的接觸 =302的動力臂可微調為L2、L3、...〜 動力為Fx,顯然,Li > Lx。 因此,根據槓桿原理,可得出:Two-button style, optical or pulley, wired or wireless, and many other types of mouse. [Embodiment] The first figure is the structure diagram of the mouse which can adjust the click strength of the present invention: the second figure is an enlarged view of the part A in the first figure, and the third figure is the adjustment mechanism of the brother figure. Cutaway view, see also the first to first figures. The mouse for adjusting the click strength of the present invention comprises: a casing 〇, a circuit board module 20, and an adjustment mechanism 3〇. Wherein, the outer front end of the casing ίο is provided with a button portion 1〇3. This embodiment is described by two adjacent button portions 1G3, and the circuit board module 20 includes a circuit board 21 and two circuit boards 22 The circuit board module {is located in the housing 10 and on the bottom, and the two circuit boards 22 are electrically connected to the circuit board 21 . The adjusting mechanism 3 is disposed in the body of the body, and is electrically connected to the corresponding circuit board 22 of the stencil module 20 at a position corresponding to the button portion 103. In the present invention, the position of the adjustment mechanism 3G in the housing 〇 is such that the keys i 〇: corresponding to the different positions of the adjustment mechanism 3 ,, the adjustable button portion (10) is clicked and the adjustment mechanism 3 is clicked. The required force arm, and thus the torque of the click force, allows the user to adjust the click strength of the mouse 201113764 according to different preferences. The succession is referred to the second and third figures. The adjusting mechanism % comprises: a carrier 3 (H, an adjusting plate 3〇2, and a transfer component such as: the adjusting plate 302 and the transfer component 3〇3 are disposed on the carrier 3〇1 The urging assembly 303 is driven to drive the entire adjustment structure. The carrier 301 includes a receiving recess 3〇11 and a contact switch module 3 (Π2. The receiving recess 3〇11 is disposed on the carrier 3〇 a position corresponding to the button portion 103 for accommodating the touch switch module as 2. The touch switch module 3012 includes a switch member 3〇13 and a button trigger member 3〇14, and the button The triggering member 3〇14 is disposed above the switch member 3013 and protrudes from the receiving recess 3〇ι1 with a free end, and the button triggering member 3014 can be pressed to perform a rising or pressing action to control the switch. The opening of the component 3013 and the switch component 3 are electrically connected to the circuit board module 20, and the click information can be transmitted to the road board module 20. The adjustment board 302 is located below the button part 103. a side extending toward the carrier 301 has a curved extension 3 〇 2 b and passes through the extension 3021 and the carrier 30 1 pivotally connected, the pivot point of which is point 〇, so that the ^ key portion 103 and the touch switch module 3012 are respectively located at the adjusting plate 3〇2, at different positions, and the adjusting plate 3〇2 is horizontally located When the button portion 1〇3 is clicked, the adjusting plate 3〇2 presses the button triggering member 3014 after receiving the pressure of the button portion 丨03, thereby touching the switch member. 3〇13 is turned on, and the click information is transmitted to the circuit board module 20. 201113764 The following describes the transfer assembly 303 that can move the adjustment mechanism 30. The transfer assembly 303 is movably assembled to the housing 1〇 In the meantime, it can drive the § Zhou Lang mechanism 30 to move, thereby changing the different positions of the free end of the adjusting plate 302 of the button portion 1 corresponding to the sigma adjusting mechanism 30, and changing the strength of the adjusting plate 302 pressing the switch member 3013. The transfer unit 303 includes a push block 3〇31 connected to the carrier body 〇1 and a sliding slot 104 disposed on the housing 10. The sliding slot 1〇4 can be disposed on the upper surface of the housing 10, Or the bottom surface, the embodiment is preferably disposed on the upper surface (as shown in the fourth figure) The push block 3〇31 is disposed on a side of the carrier 301, and the push block 3〇31 has a protrusion 3〇33, and the protrusion 3033 can pass through the chute 1〇4 The portion is exposed outside the casing 1 and, when the operation is adjusted, the entire adjustment mechanism 30 is moved by pushing the protrusion 3〇33. The pushing block 3〇31 and the convex block=33 of the transfer assembly 3〇3 are only examples. It should be noted that the present invention is not limited thereto, and the structural design can be made according to the actual situation. In the present invention, the transfer component 3〇3 has a base 305 with a bottom portion and a portion 304, and the adjustment mechanism 3〇 is carried. The body 3 is located on the circuit board 22, and the circuit board 22 is located above the base 305, and is moved by the movement of the peripheral mechanism 3G. The circuit board 22 is respectively associated with: the opening member 3013 and the circuit board 21 Electrical connection. The switch unit 3013 i2::s transmits the click information to the board 22' and transmits the click to the circuit board 21. The base body 3〇5 preferably has a structure of: _ force _4 ′. The main purpose is to increase the degree of wear resistance of the adjustment unit 〇 the circuit board 22 is damaged by friction. +曰201113764 and the shell is composed of a bottom case and a sturdy cover 12, between the Dragon && level 11 phase, and has a shape on the inner bottom surface The groove of the groove and the tenon 304 are located in the groove 11], the groove U1 is wider and longer than the width and length of the protrusion 304, but less than the adjustment mechanism 30 moves the substrate along the groove m% thereof 305, the structure of the groove 1U, for the sake of exemplification, can be changed according to the actual situation, for example, a roller (not shown) can be used instead of the base 305, and directly locked to the carrier 3 〇 路 22 Below, the roller moves in the groove ln. In the present invention, the inner surface of the button portion 1〇3 of the housing 10 extends with a contact portion 1〇31, which is a columnar structure or a sheet-like structure, and is suspended above the adjustment plate 302. The free end of the adjusting plate 3〇2 corresponds to one end of the contact portion 1031 for contacting the adjusting plate 3〇2. When the button portion 103 is pressed down, the contact portion 1〇31 is pushed down together with the adjusting plate 302. . The fifth figure is a cross-sectional view of another embodiment of the present invention, which mainly illustrates another embodiment of the apo-motion component 303'. In this embodiment, a trough 104' is disposed in the bottom of the bottom casing 11, and a push block 3031 is disposed under the circuit board 22, and a bump 3033 is protruded from the bottom of the circuit board 22. The push block 3031 is located at the sliding The groove 104 is upper and the bump 3033 is located inside the chute 1〇4. The width and length of the sliding groove 104' are larger than the width and length of the protrusion 3033, but smaller than the width and length of the pushing block 303, so that the adjusting mechanism 30 can move along the sliding groove 104 without deviation. The height of the bump 3033' should be lower than the thickness of the bottom shell η, so that the bottom shell η can be placed in a %, 疋 manner. The illuminating mode of the embodiment is similar to that of the first embodiment of 201113764 =. When the adjusting mechanism 30 is adjusted, the bump 1 can be directly pushed to move the entire adjusting mechanism 3 〇. The eight in the present embodiment are the same as those in the first embodiment, and therefore will not be described herein. 81 is the structure of the mouse that can adjust the click strength of the present invention. The seventh figure is an enlarged view of the B part in the sixth figure, the eighth two: Fig.: A cross-sectional view of the dissipating mechanism of the mechanism, which is to adjust the structure to slide: =: m t in the direction of the front view of the fourth figure). /The fifth and eighth figures show that the button trigger 3014 is 0 302 ^4^ 5 3014 •5U2 contact with the day guard, the resistance of the adjustment board go〗 阳 ^ . 2, then, according to the lever:: : button trigger member 3014, it is necessary to apply a contact portion 1031 in the second figure (or fifth figure) to adjust the 邙umH arm to L1 'power to Fl, the contact in Fig. 7, Fig. 8 The power arm of =302 can be fine-tuned to L2, L3, ...~ The power is Fx, obviously, Li > Lx. Therefore, according to the principle of leverage, it can be concluded that:
RxL= LixFi= LxxFx; 而RxL為一固定值; 又因,; 故F】<FX ; 節柄二? 即機構3G ’改變接觸部1G31與調 所m #不同接觸位置’進而改變點擊滑鼠按鍵部103 靠二X在本實施例中,當將調節機構3G調節越 =體1〇前端的位置時(即指h處),點擊滑鼠就 越費力;反之,則越省力。 201113764 另外’對於上述結構之可微調該調節機構%的實 施方式’除了使用者自行操作微調該調動組件則的凸 塊3〇33之外,亦可如第九圖中藉由在凸塊3033與殼體 1〇上的滑槽1G4相對應處設有相齒齧的連續螺紋 1 (Ml ’亦可方便使用者達到微調功能。 ” 綜上所述,本案可調節點擊力度的滑鼠結構,其巧 妙的利用槓桿原理,增設—調節機構,並通過改變按鍵 部内表面的接觸部與調節機構的接觸位置不同,即改變 ==的力臂不同’隨之力矩也不同,本發明藉由 改邊该力臂,而改變滑鼠的‘點擊力度。, 准以上所述者,僅為本發明之較佳實施例*已,告 不能以此限定本發明實施之範圍 二 明書所記載的内容所作出簡 7u白仍屬本發明權利要.求所涵蓋範圍之内。此 商要μ和標題僅是用來辅助專利標搜尋之用 非用來限制本發明之權利範圍。 … 【圖式簡單說明】 =圖為本發明可調節點擊力度的滑鼠結構的結構示意 第二圖為第一圖中Α部分的放大圖; 第三圖為第一圖中的調節機構的剖視圖. ^圖為本發明可調節點擊力度的滑鼠結構的使用狀態 第五圖為本發明另一實施例的剖視圖: =圖為本發明可調節點擊力度的滑鼠結構進行調節立 201113764 第七圖為第六圖中 货\@ 、 T b部分的放大圖; /圖為第六圖中的調節機構的剖視圖; 九圖為本發明第三實施例的結構示意圖。 【主要元件符號說明】RxL= LixFi= LxxFx; and RxL is a fixed value; and because,; so F]<FX; the handle is two? That is, the mechanism 3G 'changes the contact part 1G31 and adjusts the m # different contact position' and then changes the click mouse In the present embodiment, when the adjustment mechanism 3G adjusts the position of the front end of the body 1〇 (that is, at h), the more difficult it is to click the mouse; otherwise, the more laborious. 201113764 In addition, the embodiment of the above-mentioned structure for fine-tuning the adjustment mechanism % can be performed in addition to the bumps 3〇33 of the transfer component by the user's own operation, as in the ninth figure by the bumps 3033 and The sliding groove 1G4 on the casing 1 is provided with a continuous thread 1 of the toothed teeth (Ml ' can also be convenient for the user to achieve the fine adjustment function.) In summary, the case can adjust the click strength of the mouse structure, Ingeniously using the principle of leverage, adding an adjustment mechanism, and by changing the contact position of the contact portion of the inner surface of the button portion with the adjustment mechanism, that is, changing the force arm of == is different, and then the torque is different, and the present invention is modified by Force the arm to change the click power of the mouse. The above-mentioned ones are only the preferred embodiment of the present invention*, and the content described in the scope of the invention is not limited thereto. Jane 7u White is still within the scope of the present invention. The quotation and the title are only used to assist the patent search and are not intended to limit the scope of the present invention.The figure is a schematic view of the structure of the mouse structure with adjustable click strength of the present invention. The second figure is an enlarged view of the Α part in the first figure; the third figure is a cross-sectional view of the adjustment mechanism in the first figure. The fifth diagram of the use state of the mouse structure for adjusting the click strength is a cross-sectional view of another embodiment of the present invention: = The figure is the adjustment of the mouse structure for adjusting the click strength of the present invention. 201113764 The seventh figure is the goods in the sixth figure. An enlarged view of the @ and T b portions; / is a cross-sectional view of the adjustment mechanism in the sixth diagram; and a nine-dimensional diagram showing the structure of the third embodiment of the present invention.
殼體 10 底殼 11 蓋殼 12 凹槽 111 按鍵部 103 接觸部 1031 滑槽 104 、 104, 螺紋 1041 電路板模组 20 電路主板 21 電路板 22 調節機構 30 7表載體 301 容納凹槽 3011 觸通開關模組 3012 開關部件 3013 按鈕觸發件 3014 調節板 302 延長段 3021 調動組件 303 、 303’ 推塊 3031 、 3031, 凸塊 3033 、 3033, 201113764 凸部 304 基體 305Housing 10 bottom case 11 cover case 12 groove 111 button portion 103 contact portion 1031 chute 104, 104, thread 1041 circuit board module 20 circuit board 21 circuit board 22 adjustment mechanism 30 7 table carrier 301 receiving groove 3011 contact Switch module 3012 switch component 3013 button trigger 3014 adjustment plate 302 extension 3021 transfer assembly 303, 303' push block 3031, 3031, bump 3033, 3033, 201113764 convex portion 304 base 305
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