M408736 五、新型說明: 【新型所屬之技術領域】 且特別是有關於可用以固定 本創作是有關一種滑鼠 於板體的滑鼠固定结構。 【先前技術】 滑鼠可說是各式電腦所必備之輸入裝置,其可使電月_ 操作起來更為簡便。雖然已出現各式取代滑氣之裝置,如 筆記型電腦的鼠標控制板,但滑鼠依舊具有其不可取代的 功用。M408736 V. New description: [New technical field] It is especially useful for fixing. This creation is related to a mouse-fixed structure of a mouse. [Prior Art] The mouse can be said to be an input device necessary for various computers, which makes the electric moon _ easier to operate. Although various devices have been introduced to replace the slippery air, such as the mouse control panel of the notebook computer, the mouse still has its irreplaceable function.
滑鼠於販售時,大都呈直立擺放(使用狀態為平躺擺敌) ,藉以令消費者更容易欣賞到滑鼠的整體面貌。然而,依 現有的方式,若欲使滑鼠呈直立擺放,大都以數片板體失 固滑鼠周緣,或是以螺絲將滑鼠鎖附於板體上,藉以令滑 鼠呈現直立擺放。然而,上述之方式可能會耗費大量的工 時’進而增加生產成本。 【新型内容】 本創作貝施例在於提供—種滑鼠固定結構,其以卡扣 件藉以達到節省組裝謂並降低生產成本的 效果。 ::作貫施例提供一種滑鼠固定結構,包括:一滑鼠 ,底如及-細錄裝置,該底歸成有至少 通孔’該至少一環側壁包圍形成有-固定 孔二軌:揭取裝置設置於該滑鼠内且對應於該通孔;以 件’其—端向外凸設有至少―定位塊,該至 二二::設於該至少-環側壁的固定孔,且卡扣於該 炱少一%側壁上。 3/13 M408736 本創作實施例另提供-種滑鼠固 示板,其形成有至少一穿孔;一滑J =古包括:一展 -執跡擷取敦置,該底座形成有至少一二、有一底座以及 ,該至少1側壁包圍形成有—固及一通孔 展示板一側’且s 忒h叭設置於該 穿孔,竽勒鮮 固定孔對應於該至少一 穿孔^細擷轉置設置於該 夕 件’其一端插物:== :及側壁的固定孔’且卡扣於該至少一環:: 式,===騎提供的卡扣件以卡扣的方 進而節省組裳工時並降低生產;;達到快速組裝的效果, 請參 _==二本創作之特徵及技術内容, 附圖切在田Λΐ 说明與附圖’但是此等說明與所 任何制。㈣本創作,而非對本創作的制範圍作 【實施方式】 〔第一實施例〕 睛參閱圖1至圖5,甘 圖和圖5為本創;=作:第一實施例’其中’ 本創作之立體不意圖,圖3至圖仏為 復參照圖1,其A 一插、A & 、滑鼠2以及至少滑鼠固定結構,包括:展示板1 3固定於展示板丨上23。滑鼠2以上述至少-卡扣件 所示),藉此,使滑氧2 板1裝設於包裝盒4(如圖5 於本實施财以三個立《放。其中’卡扣件3 _,但於實際應㈣,卡扣件3亦g 4/】3 可為一個、兩個或多個,並且,卡扣件3之數量變動時, 與卡扣件3相關之部位或元件亦呈相對應的變動。 展不板1形成有三個穿孔11。滑鼠2具有底座21與執 跡蝻取裝置22。底座21形成有三個環側壁211以及一個通 匕212其中,每一環側壁211連接底座2〗外緣與内緣, 且包圍形成有固定孔2m,並且每—環側壁2ιι具有自底 座21外緣延伸的導引面2112以及自底座21内緣延伸的擒 止面2113(如圖3所示)。上述之軌跡擷取裝置22可為軌跡 ,裝置或光學擷取裝置(圖略),執跡擷取裝置22設置於滑 鼠2内且對應於底座21的通孔212。 再者,滑既2的底座21设置於展示板】一側的端面上 ,並且每—環側壁211的固定孔2U1對應於展示板丨的每 月母一卡扣件3具有基部31、自基部31兩端延伸的兩支 ^ 自每—支臂32末端向外凸設的定位塊33,及自每 一支臂32所向外延伸形成的限位部34。 、"一每卡知件3的兩支臂32分別朝遠離基部31的方向 =行延伸’且兩支臂32之間的距離保持定值。藉此,兩支 到相反方向的力時’兩支臂32可朝相互靠近 的—°私動或朝相互遠離的方向移動。此外,支臂&於 本貫施例中以兩個為例,但於實際應用時,支臂32亦可為 一個或多個,並且,支臂32之數量產生變動時,與支臂32 相關之。卩位或元件亦呈相對應的變動。 每卡扣件3的兩定位塊33皆呈卡勾狀,且各形成有 斜面33^(如圖3所示)與定位面332。限位部34位於基部 31以及疋位壞33之間,並且,限位部34至定位面332 # 5/13 距離大體等於展示板1的厚度加上底座21擋止面2113(如 圖3所示)至底座21外緣的厚度。 _ μ麥閱圖2至圖3A,上述三個卡扣件3分別插設於展 示板1的二個穿孔11,並且以其定位塊33的斜面33丨經底 座21環側壁211的導引面2112壓迫’使兩支臂32自然地 朝相互靠近的方向移動,進而插設於固定孔2111中,其後 ’兩支臂32回復至原位’使定位塊33的定位面332抵接 於環側壁2U的擔止面2113。此時,限位部34抵接於展示 =1另-側的端面上。其中,卡扣件3自固定孔2111插拔 4 ’可於支臂32上施加壓力,藉以使插拔更為順暢與快速 本實施例的卡扣件3以卡扣的方式,將滑鼠2固定於 不板i上(如圖4和圖4A所示),藉以達到快速組裝的效 果,進而節省組裝工時並降低生產成本。 〔苐一貫施例〕 請參閱圖6,其為本創作的第二實施例,盆中 ^實施例的立體示意圖。而本實施例與第-實施^同^ 處主要在於卡扣件3。 分別朝遠離基 離,亦即,兩 本實施例中,每一卡扣件3的兩支臂32 部31的方向斜向延伸,且兩支臂32彼此遠 支臂32之間的距離逐漸增大。 〔第二貫施例〕 請參閱圖7至圖10,其為本創作的第三實施 圖7至圖9為本實施例的立體示意圖,圖— /、 的平面示音FI ^ ^ „ 马本貫施例 丁心圖。本貫施例與第一實施例的不同 座21環侧辟9η血上α π λ ^在於底 土 211與卡扣件3,以下將對此差異處進行描述 6/13 M408736 復參照圖7和圖8A,底座21的環側壁211自底座21 外緣朝滑a 2内部延伸所形成,且包圍形成有固定孔2111 。壞側壁211具有位於滑鼠2内部且相對間隔設置的兩弧 形柱體2114’每一柱體端面形成有導引面2112以及連接於 導引面2112的擋止面2113。 再者,底座21内緣於兩柱體2114的外側凸設有相對 的兩凸柱213,且凸柱213端面至底座21内緣的距離大於 導引面2113至底座21内緣的距離。 如圖8B所示,卡扣件3具有基部31、自基部31延伸 的支臂32、自支臂32末端朝相反兩方向延伸的定位塊33 ,及自支臂32所向外延伸形成的限位部34。其中,定位塊 33長度大於兩柱體2114内緣之間的距離,而略小於兩凸柱 213之間的距離。並且,限位部34至定位塊幻的距離大體 等於展示板1的厚度加上底座21内緣至底座21外緣的厚 度。 凊參閱圖9和圖1〇,本實施例於使用時,先將卡扣件 3插設於展示板1的穿孔11以及滑鼠2底座21的固定孔 2m ’限位部34抵接於環側壁211崎。其後,將定位塊 33沿底座21環側壁211的導引面2112轉動,並使定位塊 33由凸柱213遠離擋止面2U3的—側移動至鄰近擔止面 2113的一側,進而抵接於擋止面2113與凸柱2丨3。其中, 定位塊33可由凸柱213遠離撲止面2113 #一側移動 近擔止面2113的-側,此主要是利用塑膠的彈性達成此 動。 7/13 M408736 〔貫施例的可能功效〕 根據本創作實施例,上述將滑鼠2固定於展示板1上 ,主要是利用卡扣件3卡扣滑鼠2的方式,達到快速組裝 的效果,進而節省組裝工時並降低生產成本。再者,亦可 搭配卡扣件3的斜面331以及滑鼠2的導引面2112,藉以 使操作卡扣件3時,更為順暢與快速。 此外,得利用塑膠的彈性,使定位塊33固定於擋止面 2113與凸柱213之間。 以上所述僅為本創作之實施例,其並非用以侷限本創 作之專利範圍。 【圖式簡單說明】 圖1為本創作滑鼠固定結構的立體分解圖; 圖2為本創作滑鼠固定結構的立體組合圖; 圖3為本創作滑鼠固定結構組裝時的立體剖視圖; 圖3A為圖3的A部分之局部放大圖; 圖4為本創作滑鼠固定結構組裝後的立體剖視圖; 圖4A為圖4的B部分之局部放大圖; 圖5為本創作滑鼠固定結構裝設於包裝盒的立體示意圖; 圖6為本創作滑鼠固定結構第二實施例之卡扣件的立體示 意圖; 圖7為本創作第三實施例的立體分解圖; 圖8A為本創作第三實施例底座的局部示意圖; 圖8B為本創作第三實施例卡扣件的立體示意圖; 圖9為本創作第三實施例的組合示意圖; 圖10為本創作第三實施例的平面示意圖。 8/13 M40873.6 【主要元件符號說明】 1展示板 11穿孔 2滑鼠 21底座 21〗環側壁 2111固定孔 2112導引面 2113擋止面 2114柱體 212通孔 213凸柱 22軌跡擷取裝置 3卡扣件 31基部 32支臂 33定位塊 331斜面 332定位面 34限位部 4包裝盒 9/13When the mouse is sold, most of them are placed upright (in the state of use, lying flat), so that consumers can more easily appreciate the overall appearance of the mouse. However, according to the existing method, if the mouse is to be placed upright, most of the plates are not fixed to the periphery of the mouse, or the mouse is locked to the plate by screws, so that the mouse is placed upright. put. However, the above method may take a lot of man-hours to increase production costs. [New content] This example of the creation of the shell is to provide a kind of mouse fixing structure, which can achieve the effect of saving assembly and reducing production cost by means of snap fasteners. The following embodiments provide a mouse fixing structure, comprising: a mouse, a bottom and a fine recording device, the bottom is divided into at least a through hole. The at least one side wall is surrounded by a fixed hole. The picking device is disposed in the mouse and corresponds to the through hole; and at least the positioning block is protruded outwardly from the member's end, and the two to two: a fixing hole disposed on the at least the side wall of the ring, and the card Deducted from the side wall of the less than one percent. 3/13 M408736 The present invention further provides a mouse solid board formed with at least one perforation; a slip J = ancient includes: a show-exit trace, the base is formed with at least one and two The base and the at least one side wall are formed with a side of the solid-state and a through-hole display panel, and the sho is disposed on the through hole, and the Snapper fresh fixing hole is disposed on the eve corresponding to the at least one through hole The piece 'the one end of the insert: ==: and the fixing hole of the side wall' and is snapped to the at least one ring:: type, === the provided snap-on part is buckled to save the group work time and reduce the production ;; to achieve the effect of rapid assembly, please refer to the characteristics and technical content of the _== two creations, the drawings are cut in the description of the field and the drawings 'but these instructions and any system. (4) This creation, rather than the scope of the creation of the creation [Embodiment] [First Embodiment] The eye is shown in Figs. 1 to 5, and the diagram and the diagram of Fig. 5 are the first; The stereoscopic intent of the creation, FIG. 3 to FIG. 3 is a reference to FIG. 1, and the A-plug, the A&, the mouse 2, and the at least the mouse fixing structure include: the display panel 13 is fixed to the display panel 23 . The mouse 2 is shown by the above-mentioned at least-fastening member, whereby the oxygen-sparking 2 plate 1 is mounted on the package 4 (as shown in FIG. 5 in the present embodiment, three sets of "releases." _, but in practice (4), the fasteners 3 may also be one, two or more, and when the number of the fasteners 3 changes, the parts or components associated with the fasteners 3 are also The corresponding plate 1 is formed with three perforations 11. The mouse 2 has a base 21 and a scooping device 22. The base 21 is formed with three ring side walls 211 and one of the ports 212, each of which is connected to the side wall 211. The base 2 defines an outer edge and an inner edge, and is surrounded by a fixing hole 2m, and each of the ring side walls 2 ι has a guiding surface 2112 extending from the outer edge of the base 21 and a stopping surface 2113 extending from the inner edge of the base 21 (as shown in the figure). 3) The above-mentioned trajectory picking device 22 can be a trajectory, a device or an optical capturing device (not shown), and the snagging device 22 is disposed in the mouse 2 and corresponds to the through hole 212 of the base 21. The base 21 of the slide 2 is disposed on the end surface of one side of the display panel, and the fixing hole 2U1 of each side wall 211 corresponds to the display panel. The monthly female-snake fastener 3 has a base portion 31, two positioning blocks 33 extending from the ends of each of the base members 31, and outwardly protruding from each of the arms 32. The extending portion 34 is formed, and the two arms 32 of each of the known members 3 extend toward the direction away from the base portion 31 and the distance between the two arms 32 is kept constant. When the force in the opposite direction is applied, the two arms 32 can move toward each other or move away from each other. In addition, the arms & in the present embodiment, two are taken as examples, but in practice In application, the arms 32 may also be one or more, and when the number of arms 32 varies, it is related to the arms 32. The clamps or components also have corresponding changes. The positioning blocks 33 are in the shape of a hook, and each formed with a slope 33 (shown in FIG. 3) and a positioning surface 332. The limiting portion 34 is located between the base portion 31 and the clamp defect 33, and the limiting portion 34 is The positioning surface 332 # 5/13 is substantially equal to the thickness of the display panel 1 plus the thickness of the base 21 stop surface 2113 (shown in FIG. 3) to the outer edge of the base 21. _ μ麦阅图2 3A, the three latching members 3 are respectively inserted into the two through holes 11 of the display panel 1, and are pressed by the inclined surface 33 of the positioning block 33 through the guiding surface 2112 of the ring side wall 211 of the base 21 to make the two arms 32 naturally moves in a direction close to each other, and is inserted into the fixing hole 2111, and then 'the two arms 32 return to the original position', so that the positioning surface 332 of the positioning block 33 abuts against the supporting surface 2113 of the ring side wall 2U At this time, the limiting portion 34 abuts on the end surface of the display=1 other side. Among them, the locking member 3 is inserted and removed from the fixing hole 2111 and 4' can apply pressure on the arm 32, thereby making the insertion and removal more Smooth and fast, the latching member 3 of the embodiment fixes the mouse 2 to the non-plate i in a buckle manner (as shown in FIG. 4 and FIG. 4A), thereby achieving the effect of quick assembly, thereby saving assembly man-hours. And reduce production costs. [苐 consistent example] Please refer to Fig. 6, which is a perspective view of a second embodiment of the creation. The present embodiment and the first embodiment are mainly in the latching member 3. Moving away from the base respectively, that is, in the two embodiments, the direction of the two arms 32 of each of the latching members 3 extends obliquely, and the distance between the arms 32 and the far arms 32 increases gradually. Big. [Second embodiment] Please refer to FIG. 7 to FIG. 10 , which is a perspective view of the third embodiment of FIG. 7 to FIG. 9 . FIG. 7 to FIG. 9 are schematic diagrams of the embodiment, and the plane display sound of the image is FI ^ ^ „ Ma Bencheng例心心图. The present embodiment and the different embodiment of the first seat of the 21 ring side of the 9η blood on the α π λ ^ lies in the subsoil 211 and the snap member 3, the following will describe the difference 6/13 M408736 complex Referring to Figures 7 and 8A, the ring side wall 211 of the base 21 is formed from the outer edge of the base 21 toward the inside of the slide a 2 and is surrounded by a fixing hole 2111. The bad side wall 211 has two oppositely disposed inside the mouse 2 Each of the end faces of the arcuate cylinders 2114' is formed with a guiding surface 2112 and a stopping surface 2113 connected to the guiding surface 2112. Further, the inner edge of the base 21 is convexly disposed on the outer side of the two cylinders 2114. The protrusion 213 has a distance from the end surface of the protrusion 213 to the inner edge of the base 21 that is greater than the distance from the guide surface 2113 to the inner edge of the base 21. As shown in Fig. 8B, the snap member 3 has a base 31 and an arm extending from the base 31. 32. The positioning block 33 extending from the end of the arm 32 in opposite directions and extending outward from the arm 32 The limiting portion 34. The length of the positioning block 33 is greater than the distance between the inner edges of the two cylinders 2114, and is slightly smaller than the distance between the two protrusions 213. Moreover, the distance between the limiting portion 34 and the positioning block is substantially equal to the display. The thickness of the plate 1 is increased from the inner edge of the base 21 to the outer edge of the base 21. Referring to Figure 9 and Figure 1, in this embodiment, the snap member 3 is first inserted into the through hole 11 of the display panel 1 and The fixing hole 2m of the mouse 2 base 21 is in contact with the ring side wall 211. Thereafter, the positioning block 33 is rotated along the guiding surface 2112 of the ring side wall 211 of the base 21, and the positioning block 33 is supported by the protruding post. The 213 is moved away from the side of the stopping surface 2U3 to the side adjacent to the supporting surface 2113, and then abuts against the stopping surface 2113 and the protruding post 2丨3. The positioning block 33 can be separated from the bucking surface 2113 by the protruding post 213 # One side moves the side of the near-load stop surface 2113, which is mainly achieved by the elasticity of the plastic. 7/13 M408736 [Possible effect of the embodiment] According to the present embodiment, the mouse 2 is fixed to the display board 1 , mainly by means of the snap fastener 3 to buckle the mouse 2, to achieve the effect of rapid assembly, thereby saving The assembly time is reduced and the production cost is reduced. Further, the inclined surface 331 of the buckle member 3 and the guiding surface 2112 of the mouse 2 can be matched, so that the operation of the fastening member 3 is smoother and faster. The elasticity of the plastic is such that the positioning block 33 is fixed between the blocking surface 2113 and the protruding post 213. The above description is only an embodiment of the present invention, and is not intended to limit the scope of the patent of the creation. 1 is an exploded perspective view of the fixed structure of the mouse; FIG. 2 is a three-dimensional combination view of the fixed structure of the mouse; FIG. 3 is a perspective sectional view of the fixed structure of the mouse; FIG. 3A is a part of FIG. Figure 4 is a perspective view of the assembled portion of the mouse fixing structure; Figure 4A is a partial enlarged view of the portion B of Figure 4; Figure 5 is a perspective view of the mouse fixing structure installed in the package FIG. 6 is a perspective view of the third embodiment of the present invention; FIG. 8 is a perspective view of the third embodiment of the present invention; FIG. Figure 8B is the creation Isometric view of the grommet third embodiment; assembled view of a third embodiment of the present embodiment of FIG. 9 creation; schematic plan view of a third embodiment 10 of the present embodiment of FIG Creation. 8/13 M40873.6 [Main component symbol description] 1 display board 11 perforation 2 mouse 21 base 21〗 ring side wall 2111 fixing hole 2112 guiding surface 2113 blocking surface 2114 cylinder 212 through hole 213 convex column 22 trajectory Device 3 snap member 31 base 32 arm 33 positioning block 331 bevel 332 positioning surface 34 limit portion 4 box 9/13