200808002 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種滑蓋結構及其製作方法。 【先前技術】 / 隨著無線通訊與資訊處理技術之發展,行動電話、 PDj等,▼型電子裝置競相涌現’令消費者可隨時隨地充 分旱受南科技帶來的種種便利。 -滑蓋式行動電話係近期推出的一種較新的結構,於縮 小行動電話體積之需求下,亦使行動電話外觀更加時尚、 新穎,增加了使用之樂趣。滑蓋式行動電話一般包括一上 機體及-下機體,行動電話的顯示幕設置於上機體上,行 動電話按鍵設置於下機體上,上機體與下機體之間通過兩 :的導Μ接。在不使用的狀態下,上機體遮住下機體機 砗,Hi?機身上的按鍵被隱藏;當接聽來電或者撥號 、 ⑺蓋,此時上機體沿著導執相對下機體滑動,至 •機身上的鍵盤全部露出時,停止推動滑蓋,此時可執行接 馭或撥餘作。上機體與下機體之間的相對滑動通過設置 於上、下機體之間的滑蓋結構實現。 習知技術中的滑蓋結構通常包括—主體板及一滑動 二板的兩側邊上成型有導向槽,滑動板的兩側邊上 2有與導向槽相對應之導執。導執可卡合於導向槽中, 導執動’以此實現主體板與滑動板之相對滑動。 槽之間存在一合適的間隙。該間隙之尺寸一般 晋水在0.15mm以下。而力杳防, 而在實際生産過程中,滑動板及主 6 200808002 體板之尺寸會有誤差,該間社尺相會出現波動。如果 該間隙之尺寸過小,則不利於組裝,且使用中,會出現阻 力過大而影,滑動板相對主體板的滑動;如果該間隙之尺 寸過大則使得滑動板在相對主體板滑動時,會出現偏移, 之順暢性。因此’為保證滑蓋結構滑動的順 寸精度要求很高’使得生産精度滑蓋産 。口之良品率較低。 【發明内容】 鑒於上述狀况,有必I裎根 _^ 尺十㈣k供—種有利於校正組裝中的 寸誤差,如冋産品良品率之滑蓋結構。 另’提供一種所述滑蓋結構的製作方法。 一種滑蓋結構,包括一第一滑& — 該第二滑動蓋可相對於該第 ^滑動盖’ 的-側具有一第一導滑部,其二附體 接部,該第二滑動半體的-冑弟一焊 之另-側具有-第二痒接部;ί广導滑部,其相對 部相焊接,該第一導滑部:該;:::f部與該第二焊接 動蓋之兩側邊可滑動地配合f 部分別與該第一滑 一種滑蓋結構之製作方法 第-滑動蓋;提供-第、=包括如下步驟:提供-φ ,、 ⑺動半體及一第二滑# 中’=滑動半體之—側具有一第動= 侧具有-第-焊接部;該第二滑動半體之J相對之 弟一導滑部,其相對之另 貝!I具有一 另側具有一第二谭接部;將該第 200808002 * * ^ •一導滑部及該第二導滑部分別可滑動地卡合於該第一滑動 蓋之兩侧邊;將該第一焊接部及該第二焊接部焊接為一體。 相較習知之技術,本發明所述之滑蓋結構及其製作方 法中之第二滑動蓋採用第一滑動半體及第二滑動半體相結 合之結構,該第一滑動半體及該第二滑動半體以焊接方式 相結合,因此在組裝時,可使該第一滑動半體及該第二滑 動半體分別與第一滑動蓋達到合適的匹配後,將該第一滑 馨動半體及該第二滑動半體焊接,以此有效避免因第一滑動 蓋與弟二滑動蓋之間的組裝間隙的誤差而產生的滑動不順 暢。 、 【實施方式】 請參閱圖1,本發明較佳實施方式的滑蓋結構1〇〇包 括一第一滑動蓋10及一第二滑動蓋20。 第一滑動蓋10具有一基板11、一第一導向軌121及 一第二導向執122。第一導向執m及第二導向軌122為 _線性軌條,分別設於基板 11之兩侧。 第二滑動蓋20包括一第一滑動半體21及一第二滑動 半體22。第一滑動半體21之一侧邊具有一第一導滑部 211其相對之另一側邊具有一第一焊接部212。第二滑動 半體22之一側邊具有一第二導滑部221,其相對之另一側 邊具有一第二焊接部222。 第一導滑部211具有一第一上臂213、一第一侧臂214 及一第一下臂215,所述第一上臂213、第一侧臂214及第 下’ 215限定有一第一導引槽216。第一導引槽216之 200808002 j · ^ 形狀與第一導向軌121相配合,第一導向軌121可滑動地 容置於第一導引槽216内。 第二導滑部221具有一第二上臂223、一第二侧臂224 及一第二下臂225,所述第二上臂223、第二侧臂224及第 二下臂225限定有一第二導引槽226。第二導引槽226之 形狀與第二導向執122相配合,所述第二導向軌122可滑 動地容置於第二導引槽226内。 φ 第一滑動半體21及第二滑動半體22通過第一導引槽 216及第二導引槽226分別與第一導向執121及第二導向 執122之配合,而分別套設於第一滑動蓋10之基板1]L兩 侧。苐一焊接部222搭接於第一焊接部212上,且其以鍾 射焊接的方式與第二焊接部222焊接為一體。 所述滑蓋結構100組裝時,將第一滑動半體21的第 一導滑部211及第二滑動半體22的第二導滑部221分別可 滑動地卡合於該第一滑動蓋1〇兩侧的第一導向執121及第 馨二導向執122上,其中可通過治具(圖未示)固持並定位 第一滑動蓋10 ’同時利用治具精確控制第一滑動半體21 及第二滑動半體22分別向第一導向執121及第二導向軌 122之卡合’以此達到合適的組裝間隙。當確認第一滑動 半體21及第二滑動半體22與第一導向執121及第二導向 執122之間的組裝間隙滿足要求後,將第一焊接部212與 第二烊接部222以鐳射焊接之方式焊接為一體。 综上所述,本發明符合發明專利要件,爰依法提出專 利申請。惟,以上所述者僅為本發明之較佳實施方式,本 200808002 潑明之範圍並不以上述實施方式為限’舉凡熟習本案技藝 之人士援依本發明之精神所作之等效修飾或變化,皆應二 蓋於以下申請專利範圍内。 一 【圖式簡單說明】 意圖圖1是本發明較佳實施方式所述之滑蓋結構的分解示200808002 IX. INSTRUCTIONS: TECHNICAL FIELD OF THE INVENTION The present invention relates to a slider structure and a method of fabricating the same. [Prior Art] / With the development of wireless communication and information processing technology, mobile phones, PDj, etc., the type of electronic devices are competing to emerge, so that consumers can fully absorb the convenience brought by South Technology anytime and anywhere. The slide-type mobile phone system has recently introduced a newer structure, which reduces the size of the mobile phone and makes the appearance of the mobile phone more fashionable and novel, which increases the fun of use. The slide type mobile phone generally includes an upper body and a lower body. The display screen of the mobile phone is disposed on the upper body, and the mobile phone button is disposed on the lower body, and the upper body and the lower body are connected by two guides. In the state of not being used, the upper body covers the lower body, and the keys on the Hi? body are hidden; when answering an incoming call or dialing, (7) cover, the upper body slides along the guide relative to the lower body, to the machine When the keyboard on the body is all exposed, stop pushing the slider, and you can perform the connection or dial the rest. The relative sliding between the upper body and the lower body is achieved by a sliding cover structure disposed between the upper and lower bodies. The slide structure in the prior art generally includes a guide groove formed on both sides of the main body plate and a sliding second plate, and the two sides of the sliding plate have a guide corresponding to the guide groove. The guide can be engaged in the guiding groove to guide the relative sliding of the main body plate and the sliding plate. There is a suitable gap between the slots. The size of the gap is generally less than 0.15 mm. However, in the actual production process, the size of the sliding plate and the main body of the 200808002 body plate will be inaccurate, and the social club will fluctuate. If the size of the gap is too small, it is not suitable for assembly, and in use, there is excessive resistance and shadow, and the sliding plate slides relative to the main body plate; if the size of the gap is too large, the sliding plate may appear when sliding relative to the main body plate. Offset, smoothness. Therefore, in order to ensure the smoothness of the sliding structure of the sliding structure is required to be high, the production precision slider is produced. The yield of the mouth is low. SUMMARY OF THE INVENTION In view of the above situation, there is a need for a _ _ 十 十 ( ( ( ( ( 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利 有利Another method of making the slider structure is provided. A slide structure comprising a first slide & - the second slide cover has a first guide portion with respect to a side of the first slide cover ', and a second attachment portion, the second slide half The other side of the body-the other has a second itch joint; the gamma guide portion is welded to the opposite portion, the first guide portion: the ::::f portion and the second weld The two sides of the movable cover are slidably matched with the f-part and the first sliding-type sliding cover structure. The first sliding cover is provided. The first step includes: providing -φ, (7) moving half and one In the second slip #中==sliding half-side has a first motion=side has a -first-welding portion; the second sliding half of the J is opposite to the younger one-guided sliding portion, which is opposite to the other! I has a second side of the first sliding cover; the second sliding portion and the second guiding portion are respectively slidably engaged with the two sides of the first sliding cover; The first welded portion and the second welded portion are welded together. Compared with the prior art, the second sliding cover in the sliding cover structure and the manufacturing method thereof according to the present invention adopts a structure in which a first sliding half body and a second sliding half body are combined, the first sliding half body and the first sliding body The two sliding half bodies are combined by welding, so that the first sliding half body and the second sliding half body can be properly matched with the first sliding cover respectively after assembly, and the first sliding half is half The body and the second sliding half are welded, thereby effectively avoiding slippage caused by an error in the assembly gap between the first sliding cover and the second sliding cover. [Embodiment] Referring to Figure 1, a sliding cover structure 1 of a preferred embodiment of the present invention includes a first sliding cover 10 and a second sliding cover 20. The first sliding cover 10 has a substrate 11, a first guiding rail 121 and a second guiding handle 122. The first guiding guide m and the second guiding rail 122 are _ linear rails, which are respectively disposed on two sides of the substrate 11. The second sliding cover 20 includes a first sliding half 21 and a second sliding half 22. One side of the first sliding half 21 has a first guiding portion 211 with a first welded portion 212 opposite the other side. One side of the second sliding half 22 has a second guiding portion 221 opposite to the other side having a second welded portion 222. The first guiding portion 211 has a first upper arm 213, a first side arm 214 and a first lower arm 215. The first upper arm 213, the first side arm 214 and the lower side 215 define a first guiding portion. Slot 216. The 200808002 j · ^ of the first guiding groove 216 is shaped to cooperate with the first guiding rail 121 , and the first guiding rail 121 is slidably received in the first guiding groove 216 . The second guiding portion 221 has a second upper arm 223, a second side arm 224 and a second lower arm 225. The second upper arm 223, the second side arm 224 and the second lower arm 225 define a second guiding portion. Groove 226. The second guiding groove 226 is shaped to cooperate with the second guiding guide 122, and the second guiding rail 122 is slidably received in the second guiding groove 226. The first sliding half 21 and the second sliding half 22 are respectively matched with the first guiding handle 121 and the second guiding end 122 by the first guiding slot 216 and the second guiding slot 226, respectively, and are respectively sleeved on the first guiding slot 216 and the second guiding slot 122 A sliding cover 10 on both sides of the substrate 1] L. The first welded portion 222 is overlapped with the first welded portion 212, and is welded to the second welded portion 222 by means of a bell welding. When the sliding cover structure 100 is assembled, the first sliding portion 211 of the first sliding half 21 and the second guiding portion 221 of the second sliding half 22 are slidably engaged with the first sliding cover 1 respectively. The first guiding handle 121 and the second guiding guide 122 on both sides of the crucible, wherein the first sliding cover 10' can be held and positioned by a jig (not shown) while the first sliding half 21 is accurately controlled by the jig and The second sliding half 22 is respectively engaged with the first guiding handle 121 and the second guiding rail 122 to achieve a suitable assembly gap. After confirming that the assembly gap between the first sliding half 21 and the second sliding half 22 and the first guiding handle 121 and the second guiding handle 122 meets the requirements, the first welding portion 212 and the second connecting portion 222 are Laser welding is welded in one way. In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. However, the above is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments. Those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. Both should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded view of a slider structure according to a preferred embodiment of the present invention.
是本發明較佳實施方式所述之滑1结構的立體示 【主要元件符號說明】 :蓋結構 100 弟—滑動蓋 10 基板 第一 導向軌 第二 導向軌 第二 滑動蓋 第一 滑動半體 第一 導滑部 第一 焊接部 第一 上臂 11 121 122 20 21 211 212 213 第 —側臂 214 第 一下臂 215 第 一導引槽 216 第 二滑動半體 22 第 二導滑部 221 第 二焊接部 222 第 二上臂 223 第 二側臂 224 第 二下臂 225 第 二導弓丨槽 2263 is a perspective view of a slide 1 structure according to a preferred embodiment of the present invention. [Main component symbol description]: cover structure 100 - slide cover 10 substrate first guide rail second guide rail second slide cover first slide half a sliding portion first welding portion first upper arm 11 121 122 20 21 211 212 213 first side arm 214 first lower arm 215 first guiding groove 216 second sliding half 22 second guiding portion 221 second welding Portion 222 second upper arm 223 second side arm 224 second lower arm 225 second guiding bow groove 226