M416126 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種滑鼠殼體,特別是 組裴容易,而且較符符合滑鼠薄型化 二種結構簡單、 構。 兩求的滑鼠殼體結 【先前技術】M416126 V. New description: [New technical field] This creation is related to a kind of mouse shell, especially the group is easy to assemble, and it is simple and conformal to the two types of thinner. Two-finger mouse shell knot [Prior Art]
饮,目從個人電腦普遍問世以來,滑 可缺少的輸人設備之一由於滑鼠不^ = 卩為個人電腦不 外形個性化等方面發展,原本只能做為作極=,化' 成爲桌面設備主力,人們親切地將這個原文為己“::氣2 置翻譯爲“滑鼠,,,除了指它能夠像錢—般的靈活= 我們的手指去移動螢幕上的游標之外,其更具 = 選工作及下達確認指令的功能。 观饤點 因此一般滑鼠多係在一殼體内部收容有一電路板,於 路板上設有移動感應模組(機械式或光學式)、微動開關等構 件,以及在殼體上設有用以受操作者按壓而觸控微動開關的 按鍵或滚輪,使得以透過將殼體朝向游標相對應的移動方向 移動’在移動感應模組接收殼體移動時的反應,達到操控游 標的目的,以及配合壓觸按鍵或滾輪,完成點選工作或下達 確認指令之目的。 再者,自第一代機械滑鼠以來,滑鼠為了而能夠使其定 位更精確化,已經歷了光機、光電、無線等多個發展階段, 至於外型的部份則更具個性化,甚至有逐漸朝薄型化發展的 M416126 趨勢;其中,殼體的組裝構造對於滑鼠的功能及可靠度佔有 一定的影響力;如何開發出能夠符合滑鼠薄型化之發展需 求,同時亦能夠簡化組裝難度及降低組裝成本的滑鼠殼體結 構,一直為業界亟欲解決的課題。 【新型内容】 有鑑於此,本創作即在提供一種結構簡單、組裝容易, 而且較符符合滑鼠薄型化發展需求的滑鼠殼體結構,為其主 要目的者。 為達上揭目的,本創作之滑鼠殼體結構基本上包括有: 一底殼及一上蓋;其中,該底殼係在一底板周圍設有側緣以 構成一供收容電路板及電子元件的容置空間,於該容置空間 内相對於滑鼠前方兩側位置以及相對於滑鼠後方兩側位置分 別設有一第一卡扣體;該上蓋係相對設於該底殼容置空間頂 部開口處,具有概與底殼側緣對應蓋合的輪廓造型,並設有 複數個各別與第一卡扣體對應接合的第二卡扣體。 俾獲致一種結構相對較為簡單,而且較符合滑鼠薄型化 發展需求的滑鼠殼體結構;尤其,在第一、第二卡扣體確實 對合的狀態下,只需透過簡單將上蓋與底殼壓合的動作即可 快速完成殼體組裝,不但可以降低組裝成本,更有助於提升 滑鼠組裝產能。 本創作於實施時,所述上蓋内面在其相對於滑鼠前方中 線處凸設有一供與底殼接抵的支撐體,上蓋内面相對於該支 撐體兩侧的位置分別凸設有一與底殼保持預定間距的觸控 體;該相對位於滑鼠前方兩側的第一卡扣體及第二卡扣體則 M416126 可在預定距離_對位移,該上蓋即得以湘支撐點為軸心 左、右擺動’使位於支撐點兩侧的觸控體得以交互上、下位 移進而產生觸動微動開關的按鍵功能。 上述底殼内面可進一步設有一供與該支撐體相接抵的短 柱,使上蓋左、右動作更為穩定、順暢。 依據上述結構特徵,所述底殼之底板上設有複數個供固 定電2板的定位柱,該底板上設有對應於電路板配設位置的 第一窗口;該底殼之底板上設有供安裝滾輪的支架,該上蓋 在其對應於支架的位置設有一供滚輪外露的第二窗口。 依據上述結構特徵,各第一卡扣體係由兩個第一凸耳以 及一連接於兩個第一凸耳之間的橫桿所構成,各第二卡扣體 具有一供伸入兩個第一凸耳之間的第二凸耳,以及在該第二 凸耳尾端設有一供橫桿對應扣入的彈性又口。 具體而言,本創作之滑鼠殼體結構可以產生下列功效: 1. 結構簡單,拆、裝容易,相對降低組裝成本。 2. 結構簡單,相對降低製造成本。 3. 結構,單,而且無按鍵設計,較符合薄型化發展需求。 4·結構簡單,而且無按鍵設計,整體外型較為簡諧美觀。 【實施方式】 本創作之特點,可參閱本案圖式及實施例之詳細說明而 獲得清楚地瞭解。 如第一圖本創作一較佳實施例之滑鼠殼體結構外觀立體 圖U本創作-較佳實施例之料殼體結構組裝分解圖 所示本創作之滑良殼體結構基本上包括有:一底殼及一 5 M416126 上蓋20 ;其中: 該底殼10係在一底板11周圍設有侧緣12以構成一供收容 電路板30及相關電子元件的容置空間13,於該容置空間13内 相對於滑鼠前方兩侧位置以及相對於滑鼠後方兩侧位置分別 設有一第—^扣體14。 該上蓋20係相對設於該底殼10之容置空間13頂部開口 處,其具有概與底殼10側緣12對應蓋合的輪廓造型,並設有 複數個各別與第一卡扣體14對應接合的第二卡扣體21。 於實施時,上述各第一卡扣體14係由兩個第一凸耳141 以及一連接於兩個第一凸耳141之間的橫桿142所構成,各第 二卡扣體21具有一供伸入兩個第一凸耳141之間的第二凸耳 211 ’以及在該第二凸耳211尾端設有一供橫桿142對應扣入的 彈性叉口 212。 原則上,利用上述結構特徵,即可獲致一種結構相對較 為簡單’而且較符合滑鼠薄型化發展需求的滑鼠殼體結構; 尤其,在各第一、第二卡扣體丨4、21確實對合的狀態下,只 需透過簡單將上蓋20與底殼1〇壓合的動作即可快速完成殼體 組裝,不但達到方便拆、裝及降低組裝成本之目的,更有助 於提升滑鼠組裴產能。 凊同時配合參照第三圖所示,本創作之滑鼠殼體結構於 實際應用時,其内部所收容之電路板3〇係可進一步設有一光 學式的移動感應模組31,一滾輪32及兩個微動開關33;至於, 本創作之滑鼠殼體結構則可於該底殼1〇之底板u上設有複數 個供固疋電路板3〇的定位柱15,該底板丨丨上並且設有對應於 電路板3G配設位置的第—窗口16,以供電路板31上的移動感 6 M416126 應模組31偵測滑鼠的移動狀態。 以及,該底殼10之底板Π上設有供安裝滚輪32的支架 17’該上蓋20在其對應於支架17的位置設有一供滾輪32外 露的第二窗口 24,以方便使用者推觸或按壓滾輪32。於操作 使用時,即可透過將滑鼠朝向游標相對應的移動方向移動, 在移動感應模組31接收滑鼠移動時的反應,達到操控游標的 目的;同時可配合壓觸按鍵33或滾輪22,完成點選工作或 下達確認指令之目的。 本創作之滑鼠殼體結構於實施時,該上蓋2〇内面在其相 對於滑鼠前方中線處凸設有一供與底殼1〇接抵的支撐體 22,上蓋20内面相對於該支撐體22兩側的位置分別凸設有 一與底殼10保持預定間距的觸控體23。 該相對位於滑鼠前方兩側的第一卡扣體14及第二卡扣 體21則可在預定距離内相對位移’該上蓋2〇即得以利用支 撐點^22為軸心左' 右擺動,使位於支撐點22兩側的觸控體 23彳于以乂互上、下位移,進而產生觸動微動開關μ的按鍵 功能。在此結構型態下,該底殼1〇内面可進一步設有一供盥 ,支稽體22祕抵的蹄18,使上蓋2Q左、右動作更為穩 定、順暢。 與傳統習用結構相較,本創作之滑鼠殼體結構因為結構 間早’相對降低製造成本,也因為結構簡單,拆、裳容易, =以^降低組裝成本,並有助於提升料產能。尤其, π乳设體結構無按鍵設計,不但較符合薄型化發展需 禾’整體外型更相對較為簡諧美觀。 综上所述,本創作提供-較佳可行之滑鼠殼體結構,麦 M416126 依法提呈新型專利之申請;本創作之技術内容及技術特點巳 揭示如上,然而熟悉本項技術之人士仍可能基於本創作之揭 示而作各種不背離本案創作精神之替換及修飾。因此,本創 作之保護範圍應不限於實施例所揭示者,而應包括各種不背 離本創作之替換及修飾,並為以下之申請專利範圍所涵蓋。 【圖式簡單說明】 第一圖係為本創作一較佳實施例之滑鼠殼體結構外觀立 體圖。 第二圖係為本創作一較佳實施例之滑鼠殼體結構組裝分 解圖。 第三圖係為本創作一較佳實施例之滑鼠殼體結構剖視 圖。 【主要元件符號說明】 10底殼 11底板 12側緣 13容置空間 14第一卡扣體 141第一凸耳 142橫桿 15定位柱 16第一窗口 17支架 M416126 18短柱 20上蓋 21第二卡扣體 211第二凸耳 212彈性叉口 22支撐體 23觸控體 24第二窗口 30電路板 31移動感應模組 32滾輪 33微動開關Drinking, since the advent of personal computers, one of the missing input devices has not been developed because the mouse does not become a personal computer, and it can only be used as a desktop. The main force of the equipment, people kindly translate this original text as ":: gas 2" into "mouse,, except that it can be as flexible as money = our fingers to move the cursor on the screen, it is more With = select the job and release the confirmation command function. In view of the fact that the mouse is generally housed in a housing, a circuit board is disposed on the board, and a moving sensing module (mechanical or optical), a micro switch, and the like are disposed on the board, and the housing is provided on the housing. When the operator presses and touches the button or the roller of the micro switch, the movement of the moving direction of the housing toward the cursor is moved to achieve the purpose of manipulating the cursor and the cooperation when the movement sensor module receives the movement of the housing. Press the button or the scroll wheel to complete the selection or release the confirmation command. Moreover, since the first generation of mechanical mouse, the mouse has been able to make its positioning more precise, and has experienced many stages of development such as optical machine, optoelectronics, and wireless. The part of the exterior is more personalized. There is even a trend towards the development of the M416126, which is gradually becoming thinner; the assembly structure of the housing has a certain influence on the function and reliability of the mouse; how to develop the development requirements that can meet the thinning of the mouse, and also simplify The assembly of the mouse shell with difficulty in assembly and reduced assembly costs has been an issue that the industry is eager to solve. [New content] In view of this, this creation is to provide a structure of a mouse shell that is simple in structure, easy to assemble, and more suitable for the development of thinner mouse. In order to achieve the above, the mouse housing structure of the present invention basically comprises: a bottom case and an upper cover; wherein the bottom case is provided with a side edge around a bottom plate to form a receiving circuit board and electronic components. The accommodating space is respectively provided with a first buckle body in the accommodating space relative to the front side of the mouse and the rear side of the mouse; the upper cover is oppositely disposed on the top of the accommodating space The opening has a contour shape correspondingly corresponding to the side edge of the bottom shell, and is provided with a plurality of second buckle bodies respectively correspondingly engaged with the first buckle body. The seizure results in a structure that is relatively simple and more suitable for the development of the thinning of the mouse; in particular, in the state where the first and second snap bodies are indeed engaged, the cover and the bottom are simply The shell press action can quickly complete the assembly of the housing, which not only reduces the assembly cost, but also helps to improve the assembly capacity of the mouse. In the implementation of the present invention, the inner surface of the upper cover protrudes from the center line of the front side of the mouse with a support body for abutting against the bottom shell, and the inner surface of the upper cover protrudes from the bottom of the support body respectively. The cover body maintains a predetermined distance of the touch body; the first buckle body and the second buckle body opposite to the front side of the mouse are M416126 at a predetermined distance _ the displacement, and the upper cover is the axis of the support point The right swing 'move the touch bodies on both sides of the support point to alternately move up and down to generate a button function for touching the micro switch. The inner surface of the bottom case may further be provided with a short column for contacting the support body, so that the left and right movements of the upper cover are more stable and smooth. According to the above structural feature, the bottom plate of the bottom case is provided with a plurality of positioning posts for fixing the electric 2 plates, and the bottom plate is provided with a first window corresponding to the position where the circuit board is disposed; the bottom plate of the bottom case is provided A bracket for mounting the roller, the upper cover being provided with a second window for exposing the roller at a position corresponding to the bracket. According to the above structural feature, each of the first fastening systems is composed of two first lugs and a cross bar connected between the two first lugs, and each of the second snap bodies has one for extending into two a second lug between the lugs, and a resilient lip at the end of the second lug for the crossbar to be buckled. Specifically, the mouse housing structure of the present invention can produce the following effects: 1. The structure is simple, the assembly and the assembly are easy, and the assembly cost is relatively reduced. 2. The structure is simple and the manufacturing cost is relatively reduced. 3. Structure, single, and no button design, more in line with the development of thinning. 4·The structure is simple, and there is no button design, the overall appearance is more simple and beautiful. [Embodiment] The features of the present invention can be clearly understood by referring to the detailed description of the drawings and the embodiments. As shown in the first figure, a schematic view of the structure of the mouse case structure of the preferred embodiment is shown in the exploded view of the housing structure of the preferred embodiment. The schematic housing structure of the present invention basically comprises: a bottom case and a 5 M416126 upper cover 20; wherein: the bottom case 10 is provided with a side edge 12 around a bottom plate 11 to form a receiving space 13 for receiving the circuit board 30 and related electronic components, and the receiving space 13 is provided with a first button body 14 relative to the front side of the mouse and to the rear side of the mouse. The upper cover 20 is opposite to the top opening of the accommodating space 13 of the bottom case 10, and has a contour shape correspondingly corresponding to the side edge 12 of the bottom case 10, and is provided with a plurality of different first and first snap bodies. 14 corresponds to the engaged second snap body 21. In the implementation, each of the first latching bodies 14 is formed by two first lugs 141 and a cross bar 142 connected between the two first lugs 141. Each of the second latching bodies 21 has a A second lug 211 ' extends between the two first lugs 141 and a resilient fork 212 for the cross-bar 142 is inserted at the end of the second lug 211. In principle, by using the above structural features, it is possible to obtain a structure of the mouse shell which is relatively simple in structure and more in line with the development requirements of the thinning of the mouse; in particular, in the first and second buckle bodies 、4, 21 In the state of the joint, the assembly of the casing can be quickly completed by simply pressing the upper cover 20 and the bottom casing 1 ,, which not only facilitates the disassembly, installation and reduction of the assembly cost, but also helps to raise the mouse. Group production capacity.凊At the same time, as shown in the third figure, when the mouse shell structure of the present invention is actually applied, the circuit board 3 contained therein can further be provided with an optical motion sensing module 31, a roller 32 and Two micro-switches 33; as for the mouse housing structure of the present invention, a plurality of positioning posts 15 for fixing the circuit board 3〇 are disposed on the bottom plate u of the bottom case 1,, and the bottom plate is mounted thereon. The first window 16 corresponding to the position of the circuit board 3G is provided for the movement feeling on the circuit board 31. The M416126 module 31 detects the movement state of the mouse. And the bottom plate 该 of the bottom case 10 is provided with a bracket 17 ′ for mounting the roller 32. The upper cover 20 is provided with a second window 24 for the roller 32 to be exposed at a position corresponding to the bracket 17 for the user to touch or The roller 32 is pressed. When it is used in operation, it can move the mouse in the moving direction corresponding to the cursor, and the reaction of the movement sensor module 31 when receiving the movement of the mouse can achieve the purpose of manipulating the cursor; at the same time, the pressing button 33 or the roller 22 can be matched. , complete the selection work or issue the confirmation order. When the mouse shell structure of the present invention is implemented, the inner surface of the upper cover 2 protrudes from the center line of the front side of the mouse with a support body 22 for contacting the bottom case 1 , and the inner surface of the upper cover 20 is opposite to the support A touch body 23 is formed on the two sides of the body 22 at a predetermined distance from the bottom case 10. The first latching body 14 and the second latching body 21, which are located on opposite sides of the mouse, are relatively displaceable within a predetermined distance. The upper cover 2 is pivoted to the left by the support point 22, The touch bodies 23 located on both sides of the support point 22 are displaced by the upper and lower sides of the support point 22, thereby generating a button function for touching the micro switch μ. In this structure, the inner surface of the bottom case 1 can be further provided with a hoof 18 for the shackles and the shackles 22, so that the left and right movements of the upper cover 2Q are more stable and smooth. Compared with the conventional structure, the mouse shell structure of the present invention is relatively low in manufacturing cost due to the structure, and because the structure is simple, the disassembly and the skirt are easy, and the assembly cost is reduced, and the material productivity is improved. In particular, the π-milk structure has no button design, which is not only more suitable for the development of thinning, but also has a relatively simple and elegant appearance. In summary, this creation provides a preferred and feasible mouse shell structure, and Mai M416126 submits a new patent application according to law; the technical content and technical characteristics of this creation are disclosed above, but those familiar with the technology may still Based on the disclosure of this creation, various substitutions and modifications are made without departing from the spirit of the creation of the case. Therefore, the scope of protection of the present invention is not limited to the embodiments disclosed, but includes various alternatives and modifications that do not depart from the present invention and are covered by the following claims. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective view of the structure of a mouse case structure according to a preferred embodiment of the present invention. The second figure is an exploded view of the structure of the mouse case structure according to a preferred embodiment of the present invention. The third figure is a cross-sectional view of the structure of the mouse case of a preferred embodiment of the present invention. [Main component symbol description] 10 bottom case 11 bottom plate 12 side edge 13 accommodating space 14 first snap body 141 first lug 142 cross bar 15 positioning post 16 first window 17 bracket M416126 18 short post 20 upper cover 21 second Buckle body 211 second lug 212 elastic fork 22 support body 23 touch body 24 second window 30 circuit board 31 moving sensor module 32 wheel 33 micro switch