M333597 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種筆記型電腦之滑槽式鎖扣結構, 且特別是有關於一種應用於一般筆記型電腦外殼之上下殼 體開合之滑槽式鎖扣裝置。 【先前技術】M333597 VIII. New Description: [New Technology Field] This notebook is about a slide type lock structure for notebook computers, and especially relates to the application of a lower case opening and closing on a general notebook computer case. Chute type locking device. [Prior Art]
隨著電腦技術之發展,筆記型電腦之外型結構也設計 朝向越來越輕、薄、小以便於攜帶,$了因應筆記型電腦 之便攜性要求,而且其外殼之上下蓋鎖扣開關之開合動作 十刀頻繁’因此筆記型電腦液晶螢幕外殼蓋體之鎖扣技術 ,日漸朝向扣合強度、零件構造、使用操作上之便捷性… 等技術方向發展。 於習知技術中’筆記型電腦上蓋體之鎖固裝置多採用 卡鉤式設計,其均透過設於上蓋體内之卡鉤體,再透過— 傳動件以扳動卡鉤體,藉以達到開合該上蓋體之鎖固裝置 之目的。請配合參見第6圖,f知技術之筆記型電腦 固裝置400包含扣桿41〇、承载件、傳動叙:、 w44G、以及螺絲彻等零件。因此,此種習知之 =置的結構較為複雜,可能造成實際使用上滑動不順的 w,而使零件相互模耗。因為結構複雜,所以其电裝= ”相對地繁續。而其所需零件繁多,也使得 尚。且於《過财,料組裝零件所造叙塑^^ M333597 殘留應力都將成為日後該鎖固裝置鎖扣強度不足,甚至 因此成為零件鬆脫之主因。 【新型内容】 有鑑於此,本創作遂提出—種筆記型電腦之滑槽式鎖 扣結構、’其係應用於筆記型電腦上下殼體間開合之鎖扣裝 置此/月槽式鎖扣結構包含:滑動扣桿,係橫向設置於上 成體内側其上具有至少一個_扣鎖鉤’其穿過並凸出於 上殼體之具有長條形之開口之扣鎖通孔,以鎖扣下殼體; 牵引部,係設置於滑動扣桿上,包含至少—個滑槽及至少 了個滑軌’使滑動扣桿因受牵引而橫向移動;傳動旋紐, 係設置於上殼體外側壁上並可橫向滑動,以傳動旋叙上之 旋紐卡勾穿過具有長條形之開口之懸通孔扣接至滑動扣 桿;彈性元件,係彈性連接滑動扣桿與上殼體,使滑動扣 桿於外力移除後可滑動返回原位。其中,滑動扣桿上之牵 引部可包含透過一滑槽與上殼體上之至少一牵引柱,係穿 過滑動扣桿上之滑肖,以導引並限定滑動扣桿之橫向移 動;或透過滑軌與上殼體上之至少—牵引播壁,係抵附於 滑動扣桿之滑軌,以導引滑動扣桿之橫向移動。 ±藉此,本滑槽式鎖扣結構之目的係提出一種滑槽式之 殼體鎖扣結構。當使用者欲開啟如筆記型電腦之上^殼苗 僅需橫向撥動上殼體之傳動旋紐,而直接將滑動 橫向移動一小段位移,使滑動扣桿上之扣鎖鉤可移出下= 體的鎖扣槽,而使原本扣合之上下殼體可自由開啟。同時, ¥333597 再藉由彈味疋件之彈性回復,使滑動扣桿可彈性橫向滑動 返回原位。而當使用者欲扣合上下殼體時,透過滑動扣桿 入1之扣鎖鉤的斜面設計,使用者僅需將上下殼體直接緊扣 接合,即可藉由滑動扣桿上之扣鎖鉤扣人下殼體的鎖扣 槽,使上下殼體鎖扣固定。 本創作的另一目的係提出一種組裝方式簡單之殼體滑 #式鎖扣結構。因為本創作所提出之結構改良設計於組褒 • 過程中,先將滑動扣桿橫向移動至滑動扣桿上之傳動旋鈕 #接。卩正對於上殼體上之旋紐通孔之位置,此時將傳動旋 鈕上之紋鈕卡勾穿過旋鈕通孔並扣接至滑動扣桿,最後再 將滑動扣桿透過彈性元件彈性連接於上殽體。如此,即組 裝完成本創作之筆記型電腦之滑槽式鎖扣結構,其組裝過 程簡單,組裝之步驟更為簡化,所需零件數量少,且組裝 過程中也不會有組裝零件結構變形的問題產生。 綜上所述,本創作所提出之筆記型電腦之滑槽式鎖扣 _ 結構透過結構零件之改良設計,而使其鎖扣裝置於使用時 操作簡便,且其組裝所需零件數量少,因此可降低零件生 產成本’並克服組裝過程中零件變形的問題,同時簡化組 裝程序,實具有產業上之利用性。 【實施方式】 本創作為一種筆記型電腦之滑槽式鎖扣結構,其透過 結構之改良,使鎖扣裝置於使用時操作簡便,且其組裝所 需零件數量少,所以組裝十分容易。以下即以應用本創作 M333597 含至少一個滑槽141或滑執142之結構。為使牵引部i4〇 導引滑動扣桿110之橫向移動,另於上蓋210上相對應於 滑槽141之位置包含設立牵引柱21卜使其穿過滑動扣桿 110上之滑槽141;或於上蓋210上相對應於滑軌142之位 置<又置牽引擋壁212,係抵附於滑動扣桿11 〇之滑軌142。 另外,傳動旋鈕係設於上殼體2〇〇外側壁上而可被橫 向撥動’其上設有旋鈕卡勾121,係穿過旋鈕通孔HA而扣 • 接於滑動扣桿U0上之傳動旋鈕扣接部112。旋鈕通孔214 為具有長條形之開口,使旋鈕卡勾121可於旋鈕通孔214 之開口内滑移。因此,當傳動旋鈕12〇被橫向撥動時,可 帶動滑動扣桿110橫向位移。再者,彈性元件13〇係安裝 於滑動扣桿110之固定勾113與上蓋21〇之固定柱213上(如 第5圖所示)。因此,藉由彈性元件13〇之回復力,使滑動 扣柃110文傳動旋叙12〇帶動而橫向位移之外力移除後, 可再藉由彈性元件130之彈性回復力而將滑動扣桿ιι〇拉 φ 動滑回其原位置。 接著’請配合參照第3〜5圖,係為本創作之筆記型電 …腦的滑槽式鎖扣結構之„方式示意圖。於組裝過程中, ^先,先將滑動扣桿110置於上殼體200之上蓋21〇内侧 壁的滑動空行程中,使牵引柱211穿過滑槽141,且牵引播 壁212抵附於滑軌142(如第3圖所示)。再將滑動扣桿110 往右向推動至傳動旋鈕扣接部112正對於旋鈕通孔214之 位置(如第4圖所不)。再將傳動旋鈕ι2〇之旋鈕卡勾 扣接於㈣扣# 110之傳動旋—扣接部112上。而後再將 M333597 彈性兀件13G之兩端分別套人滑動扣桿UG之固定勾⑴ 及螢幕殼體上蓋21G之固定柱213上(如第5圖所示)。如上 述三個步驟,即可完成本創作之筆記型電腦的滑槽式鎖扣 結構之組裝,因此組裝所需零件數量少,組裝過程亦I 容易。 刀 雖然本創作已以-較佳實施例揭露如上,然其並非用 以限定本創作’任何熟習此技藝者’在不脫離本創作之精 神和範圍内,當可作各種之更動與潤飾,因此本創作之^ 護範圍當視後附之申請專利範圍所界定者為準。 ’、 【圖式簡單說明】 &為讓本創作之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之詳細說明如下: 第1爾係繪示本創作之筆記型電腦的滑槽 ^士 之裝置示意圖卜^ ^ 扣 第2圖係繪示本創作之筆記型電腦的滑槽式鎖扣結才 之立體分解圖; 第3〜5圖係繪示本創作之筆記型電腦的滑槽式鎖扣》 構之組裝方式示意圖;以及 ^ 口、、 弟6圖係繪示習知技術之筆記型電腦蓋體箸一 立體分解圖。 貞口哀置“ M333597With the development of computer technology, the external structure of the notebook computer is also designed to be lighter, thinner, smaller and more portable, in response to the portability requirements of the notebook computer, and the lower cover lock switch on the outer casing. The opening and closing action is frequent, so the locking technology of the notebook computer LCD screen cover body is gradually becoming more and more oriented towards the fastening strength, the structure of the parts, and the ease of use and operation. In the prior art, the locking device of the upper cover of the notebook computer adopts a hook type design, which passes through the hook body provided in the upper cover body, and then transmits the hook member through the transmission member to thereby open the hook body. The purpose of the locking device of the upper cover is combined. Please refer to Fig. 6, the notebook computer solid device 400 of the technology includes a fastener 41 〇, a carrier, a transmission, a w44G, and a screw. Therefore, such a conventional structure is complicated, and may cause a w that does not slide smoothly in actual use, and the parts are mutually consumed. Because of its complicated structure, its electrical equipment = "relatively multi-continuous. And its many required parts, but also make it. And in the "financial, material assembly parts made of plastic ^ ^ M333597 residual stress will become the lock in the future The strength of the solid device lock is insufficient, and even becomes the main cause of the loose parts. [New content] In view of this, the author proposes a slide type lock structure for a notebook computer, and the system is applied to a notebook computer. The locking device for opening and closing between the housings comprises: a sliding buckle, which is disposed laterally on the inner side of the upper body and has at least one yoke locking hook thereon which passes through and protrudes from the upper casing a buckle through hole having a long opening to lock the lower casing; the traction portion is disposed on the sliding buckle, and includes at least one chute and at least one sliding rail to make the sliding buckle The utility model is disposed on the outer side wall of the upper casing and can be laterally slid, so as to drive the rotary hook on the rotation guide to pass through the through hole with the long opening to buckle to the sliding buckle Rod; elastic element, elastic connection sliding The buckle rod and the upper casing can slide the sliding buckle rod back to the original position after being removed by an external force, wherein the traction portion on the sliding buckle rod can include through at least one traction column on the upper casing and through the sliding groove Sliding on the sliding rod to guide and define the lateral movement of the sliding rod; or through at least the traction wall of the sliding rail and the upper casing, attached to the sliding rail of the sliding buckle to guide The lateral movement of the sliding buckle is introduced. ± The purpose of the sliding type locking structure is to provide a sliding type housing locking structure. When the user wants to open a notebook computer, it is only required. The driving knob of the upper casing is laterally moved, and the sliding is directly moved laterally by a small displacement, so that the buckle hook on the sliding buckle can be removed from the locking groove of the lower body, so that the upper and lower casings can be buckled. Freely open. At the same time, ¥333597 makes the sliding buckle elastically slide back to the original position by elastic recovery of the elastic member. When the user wants to fasten the upper and lower housings, the buckle is inserted into the buckle. The beveled design of the hook, the user only needs to fasten the upper and lower shells directly By engaging, the upper and lower housings can be locked and fixed by the locking groove on the sliding buckle to buckle the lower housing. Another object of the present invention is to provide a housing sliding type that is simple in assembly. The lock structure. Because the structure improvement proposed in this creation is in the group process, the slide fastener is moved laterally to the drive knob # on the slide fastener. The positive through hole on the upper casing Position, at this time, the button hook on the drive knob is passed through the knob through hole and fastened to the sliding buckle, and finally the sliding buckle is elastically connected to the upper body through the elastic member. Thus, the assembly is completed. The sliding type lock structure of the notebook computer has a simple assembly process, a simple assembly step, a small number of required parts, and no problem of structural deformation of the assembled parts during the assembly process. The sliding type lock of the notebook computer proposed by the present invention _ structure through the improved design of the structural parts, so that the locking device is easy to operate in use, and the number of parts required for assembly is small, so the parts can be reduced Production costs' and overcome the problem of deformation during assembly of parts while simplifying the assembling procedure, the upper solid having APPLICABILITY industry. [Embodiment] The present invention is a slide type lock structure of a notebook computer, and the transmission structure is improved, the lock device is easy to operate in use, and the number of parts required for assembly is small, so assembly is easy. The following application is based on the application of the M333597 with at least one chute 141 or slipper 142. In order to guide the traction portion i4 〇 to guide the lateral movement of the sliding buckle 110, the position corresponding to the sliding groove 141 on the upper cover 210 includes a traction groove 21 for setting the traction column 21 to pass through the sliding buckle 110; or The upper cover 210 corresponds to the position of the slide rail 142. The traction retaining wall 212 is further attached to the slide rail 142 of the slide buckle 11 . In addition, the drive knob is disposed on the outer side wall of the upper casing 2 and can be laterally moved. The knob hook 121 is disposed thereon, and is fastened through the knob through hole HA and connected to the sliding buckle U0. The drive knob fastening portion 112. The knob through hole 214 is an elongated opening so that the knob hook 121 can slide in the opening of the knob through hole 214. Therefore, when the transmission knob 12 is laterally displaced, the sliding buckle 110 can be laterally displaced. Further, the elastic member 13 is attached to the fixing post 113 of the slide fastener 110 and the fixing post 213 of the upper cover 21 (as shown in Fig. 5). Therefore, by the restoring force of the elastic member 13, the sliding buckle 110 is driven to rotate and the lateral displacement is removed, and then the sliding force is released by the elastic restoring force of the elastic member 130. Pull φ to slide back to its original position. Then, please refer to the figure 3~5, which is the schematic diagram of the slide type lock structure of the brain of the notebook. In the assembly process, first, the slide fastener 110 is placed first. In the sliding idle stroke of the inner side wall of the cover 21 on the upper surface of the casing 200, the traction column 211 is passed through the sliding groove 141, and the traction wall 212 is attached to the sliding rail 142 (as shown in Fig. 3). 110 is pushed to the right to the position of the drive knob fastening portion 112 facing the knob through hole 214 (as shown in Fig. 4), and then the knob of the transmission knob ι2〇 is hooked to the (four) buckle #110 drive rotation- The fastening portion 112 is then attached. Then, the two ends of the M333597 elastic member 13G are respectively sleeved on the fixing hook (1) of the sliding buckle UG and the fixing post 213 of the upper cover 21G of the screen casing (as shown in Fig. 5). In three steps, the assembly of the sliding type lock structure of the notebook computer of the present invention can be completed, so that the number of parts required for assembly is small, and the assembly process is also easy. Although the present invention has been disclosed in the preferred embodiment as above However, it is not intended to limit the creation of 'anyone who is familiar with this artist' Within the spirit and scope of creation, when various changes and refinements are available, the scope of this creation shall be subject to the definition of the patent application scope attached to it. ', [Simple description of the schema] & The above and other objects, features, advantages and embodiments of the present invention can be more clearly understood. The detailed description of the drawings is as follows: The first drawing shows the schematic diagram of the chute of the notebook computer of the present invention. ^ Figure 2 shows the stereoscopic exploded view of the slide-type lock of the notebook computer of this creation; Figure 3~5 shows the slide-type lock of the notebook of this creation. Schematic diagram of the assembly method; and ^ mouth, brother 6 diagram shows a three-dimensional exploded view of the notebook computer cover of the conventional technology.
【主要元件符號說明】 100 :滑槽式鎖扣結構 212 :牽引擋壁 110 :滑動扣桿 213 :固定柱 111 :扣鎖鉤 214 :旋鈕通孔 112 :傳動旋鈕扣接部 220 :下蓋 113 :固定勾 221 :扣鎖通孔 120 :傳動旋鈕 300 :下殼體 121 :旋鈕卡勾 310 :扣鎖槽 130 ·•彈性元件 400 :鎖固裝置 140 :牽引部 410 :扣桿 141 :滑槽 420 :承載件 142 :滑執 430 :傳動鈕 200 :上殼體 440 :彈簧 210 :上蓋 450 :螺絲 211 :牽引柱 11[Main component symbol description] 100: Chute type latch structure 212: Traction block wall 110: Slide pin 213: Fixing post 111: Buckle hook 214: Knob through hole 112: Drive knob fastening portion 220: Lower cover 113 : fixing hook 221 : buckle locking through hole 120 : transmission knob 300 : lower housing 121 : knob hook 310 : locking groove 130 · elastic element 400 : locking device 140 : traction portion 410 : fastening rod 141 : chute 420: carrier 142: slipper 430: drive knob 200: upper casing 440: spring 210: upper cover 450: screw 211: traction column 11