M373574. 五、新型說明: 【新型所屬之技術領域】 本創作係m於-觀組化天線裝置,尤指—種將天 線線路以雷射成型於一模製成型的塑膠外般上,以形成雷 射直接成型之外殼部件的天線褒置。 【先前技術】 由於無線通訊技術的發展,電子產品越來越重視訊號 的接收/傳送品質要求’且使用者對於電子產品要求輕、 薄:短、小等特性,再加上高度整合的特性要求,以達到 」里化夕功旎的操作目的。而天線的效能為影響無線通 DfUn質重要的一環,各種無線通訊系統的天線,依照不同 的應用而有不同的特性需求,如為了便於攜帶及美觀,行 動電内建有行動通訊、定位、數位電視、無線區域 ,路f單功能或多功能天線;而基地台的天線依照放置地 …周ic衣i兄的不同而有各種的場型及極化需求,目前業界 致力於降低各種行動天線的尺寸,以節省裝置成本並達到 行動通訊裝置之小型化。 0例如第一圖顯示一種習知技術:中華人民共和國證書 旎CN1754515號專利(後稱515號專利),其揭露一種内 建式的無線通信產品之天線模組,該天線模組包括一印刷 ,路板301,-固定殼3〇2、一天線構件3 〇 4及一 彈性體3 〇 3,該印刷電路板3 〇 1上設有印刷電路及電 子凡件(圖未示),該固定殼3 〇 2係組裴於該印刷電路 3 M373574 板3 Ο 1上’且該天線構件3 〇 4則組裝於該固定殼3 〇 2上,另外,該彈性體3 〇 3則係容置、壓縮於貫穿該固 定殼3 0 2之安裝部3 〇 2 1中’該彈性體3 0 3的上下 兩缟分別電連接於該印刷電路板3 〇丄與天線構件3 〇 4,以將用作接收/傳送電波之天線構件3 〇 4電性連接於 遠印刷電路板3 Ο 1上的印刷電路。然而515號專利所揭 露的天線構件3 〇 4係為一種獨立於電子產品外殼的組 件,故兩者之組裝形成較大尺寸的整體體積,另外,為了 避免彈性體3 0 3自該印刷電路板3 〇 1與天線構件3 0 4之間脫離,必須利用固定殼3 〇 2加以固定之,故必 須增加固定殼3 0 2,故在結構上較為複雜。 第二圖則顯示另一種習知技術:中華民國專利公開號 第200905977號(後稱977號公開專利),其揭露一種全 球疋位接收系統之接收裝置,該裝置包括一前後組裝之外 殼4 0 0,該外殼4〇〇内設有電路主板4〇1、天線結 構4 0 2及顯示面板4 〇 3,該天線結構4 0 2係由一貼 合於鉍外殼4 0 0之内側表面之金屬片4 〇 2 i及兩個 導電元!件4 0 2 2所組成,其中該兩導電件4 2 2之一 端係焊接於該電路主板4 〇 i,而另一端係屢接於該金屬 片402 i。然而’由於977號公開專利並未使用固定結 構將該兩導電件4 G 2 2純©持,故該兩導電件4 〇 2 2容易歪斜而導致電性接觸不良的情況。另外,該天線結 構402之金屬片4021是利用再加工的方式结合於 該外殼4 0 〇,故在組裝工序上較為複雜。 …、 M373574. 第三圖則顯示再一種習知技術:中華民國專利公開號 第200924294號(後稱294號公開專利),其揭露一種^ 線裝置’該天線包括第一基板5 0 〇及第二基板5 i 〇, 該第一基板5 0 0及第二基板5 1 〇上分別設有第一轄 射部5 0 1及第二輪射部5 1 1 ’而一第三輕射部5 1 2 則垂直設置於第一基板5 0 0與第二基板5 1 〇之間,並 電性連接於第一輻射部5 0 1及第二輻射部5丄丄。然 而’由於294號公開專利並未使用固定結構將該第三輻射 部5 1 2加以固持,故該第三輻射部5 χ 2容易歪斜而導 致電性接觸不良的情況。 第四圖顯示再一種習知技術:中華人民共和國證書號 CN2694511Y號專利(後稱511號專利),其揭露一種内建 天線結構,該天線結構包括手機殼體6 〇 〇、天線本體6 01、定位基板602、内殼體603及電路基板60 4 ’天線本體6 〇 1係貼附於該手機殼體6 〇 〇的内侧 面’該定位基板6 0 2設置於該天線本體6 0 1上,而内 殼體6 0 3則組接於該手機殼體6 0 0上,電路基板6 〇 4則设置於該内殼體6 〇 3上。其中’天線本體6 〇 1延 伸形成接地部6 0 1 1及信號感應部6 0 1 2,且接地部 6 0 1 1及信號感應部6 〇 1 2則穿設於該定位基板6 0 2上之穿孔6 〇 2 1及内殼體6 0 3上之固定中空圓 柱6 0 3 1 ’以電性連接於該電路基板6 〇 4。然而,511 號專利所揭露的天線本體6 〇 1係為一種獨立於手機殼 體6 0 〇的組件,故兩者之組裝將形成較大尺寸的整體體 M373574 積,另外,為了避免接地部6 Ο 1 1及信號感應部6 Ο 1 2的彎折變形,必須利用定位基板6 0 2加以固定保護’ 因此必須增加定位基板6 0 2之組件,使得在結構上較為 複雜。 再一方面,雷射直接成型技術 (laser-direct-structuring,LDS )亦應用於線路的製作。雷 射直接成型的製作流程係為;首先提供一射出模造之外 殼,該外殼係利用一次射出成型將熱塑性材料加以固化成 型;接著,以雷射於該外殼的内壁面形成活化區域,該活 化區域會具有金屬化的活化核心,亦即,該活化區域的活 化核心會催化物理或化學反應;接下來,利用一金屬化製 程,將金屬形成於上述之活化區域,以形成線路。 因此,雷射直接成型可有效的簡化在外殼上形成線路 之製程,故本創作人有感習知技術之天線結構的複雜,提 出一種將雷射直接成型應用於天線結構的創作,且能有效 改善習知技術之缺失。 【新型内容】 本創作之主要目的,在於提供一種模組化天線裝置, 該天線裝置具有簡單的結構,其利用外殼部件固持導電元 件,而可省略其他的固持構件。 本創作之另一目的,在於提供一種模組化天線裝置, 該天線裝置具有模組化的結構,其將金屬化天線圖案鍍層 之天線線路直接成型於模製成型的塑膠外殼上,以形成一 M373574. 雷射直接成型(LDS)的外殼部件,配合導電元件的電性連 接功能,使金屬化天線圖案鍍層之天線線路電性連接於電 路板,以達成接收/傳送訊號之目的。 本創作之另一目的,在於提供一種模組化天線裝置, 該天線裝置利用結構強度高的塑膠外殼固持導電元件,可 穩定地固持該導電元件,進而提高金屬化天線圖案鍍層之 . 天線線路電性連接於電路板的連接特性。 • 本創作之另一目的,在於提供一種模組化天線裝置, • 該天線裝置將金屬化天線圖案鍍層之天線線路以雷射成 型於塑膠外殼上,故可有效減小天線裝置的整體體積。 本創作之另一目的,在於提供一種模組化天線裝置, 該天線裝置的製作流程簡化了焊接的步驟,且模組化的設 計更大幅提高製程效率。 為了達成上述之目的,本創作係提供一種模組化天線 裝置,包括:一外殼部件、一通孔、及一導電元件。其中, - 該外殼部件係為一雷射直接成型(LDS)之外殼,其包含一 *- 模製成型的塑膠外殼,並以雷射於該塑膠外殼上形成一活 化區域,再將金屬材料沈積於該活化區域而形成有一金屬 化天線圖案鍍層,該金屬化天線圖案鍍層係由塑膠外殼上 - 延伸至該塑膠外殼上的該通孔内壁面;換言之,該金屬化 • 天線圖案鍍層係以雷射成型於模製成型的該塑膠外殼之 一表面,以形成雷射直接成型(LDS)之一外殼部件。而該 導電元件係插設固定於塑膠外殼上之通孔中,且電連接該 金屬化天線圖案鍵層,而該導電元件具有一延伸出該通孔 7 M373574 外之彈性接觸部。而上述之金屬材料可利用化學鍍、電鍍 等技術沈積於該塑膠外殼上之活化區域,但不以上 .限。 . ’**马 本創作具有以下有益的效果··本創作係提供一種雷射 直接成型之外殼部件上,先以模製成型該塑膠外殼,並於 δ亥塑膠外殼上以雷射形成一活化區士或,再#金屬材料沈積 於該活化區域以形成金屬化天線圖案鍍層;再利用導電元 件插設於塑膠外殼之通孔中,α電性連接金屬化天線圖案 鑛層及設於外殼部件内之電路板,因此形成上述模組化的 天線裝置。換言之,本創作提出之模組化天線裝置係將外 殼部件、金屬化天線圖案鍍層及導電元件形成模組化的組 裝設計,因此本創作之天線裝置具有結構簡單、尺寸較小 的特性且其更具有較佳的製程效率與較環保的製作工 序。再一方面,由於外殼部件具有較佳的結構強度,因此 固定於該外殼部件之通孔中的該導電元件可具有較穩定 的固持態樣,可避免接觸不良的問題。 為使能更進一步瞭解本創作之特徵及技術内容,請參 閱以下有關本創作之詳細說明與附圖,然而所附圖式僅提 供參考與說明用,並非用來對本創作加以限制者。 【實施方式】 5月參閱第五圖至第五c圖所示,其為本創作之具體實 施例,本創作係提出一種模組化天線裝置1,其包括一外 忒部件1 0、一貫穿該外殼部件丄〇之通孔i i以及一導 M373574 . 電元件1 3 H該外殼部件χ 〇係為—雷射直接成型 (LDS)之外殼,其包含一模製成型的塑膠 該塑膠外殼的其中一表面形成有一金屬化天線圖案鍍層 1 0 2,換§之,該雷射直接成型(丨aser direct structuring, LDS)之外殼部件i 〇,係先以模製成型該塑膠外殼丄〇 1再將戎金屬化天線圖案鑛層1 〇 2成型於該塑膠外殼 1 0 1之一表面上,該金屬化天線圖案鍍層丄〇 2係用以 作為行動通訊裝置之天線線路,以接收/傳送訊號;而一導 電兀件1 3係固定於該通孔1 1中且電連接該通孔工工 内壁面的金屬化天線圖案鍍層i 〇 2,且導電元件丄3具 有一延伸出該通孔1 1外之彈性接觸部,該金屬化天線圖 案鍍層1 0 2係藉由導電元件1 3與通孔1 1的配合以 將δίΐ號傳送至電路板2之線路2 〇,俾使行動通訊裝置, 如手機等電子產品可應用於無線通訊的領域。 請復參考第五圖至第五C圖,第五圖係為模組化天線 裝置1的立體示意圖;第五Α圖係為模組化天線裝置1的 另一視角之立體示意圖;第五B圖係為模組化天線裝置工 與電路板2組設在一起的立體分解圖;第五c圖則為模組 化天線裝置1與電路板2組設在一起的另一視角之立體 分解圖。其’中’模組化天線裝置1的外殼部件1 〇係以雷 射直接成型所製作,係先以模製成型該塑膠外殼i 〇工, 並於該塑膠外殼1 〇 1上以雷射形成一活化區域,再將金 屬材料沈積於該活化區域以形成金屬化天線圖案鍵層1 ◦ 2,進而成型上述之雷射直接成型(LDS)外殼部件1 9 M373574 〇 ’換言之’該外殼部件1 〇之塑膠外殼1 〇 1係由一種 無法直接將金屬材料沈積於其上的部件,而本創作使用雷 射將該塑膠外殼1 01的一預定區域改質形成一活化區 域,再利用一金屬沈積技術,例如化學鍍、電鍍,使導電 金屬材料得以直接附著於該塑膠外殼1〇1之活化區域 上’以形成可接收無線訊號之金屬化天線圖案鍍層1 〇 2。另一方面’該金屬化天線圖案鍍層1 〇 2外侧上方更 設有一保護裝置1 4,例如利用塗佈、噴漆成型於外露之 邊金屬化天線圖案鍍層1 Q 2上之漆層,或是利用貼合、 卡扣等方式蓋設於外露之該金屬化天線圖案鍍層1 〇 2 上之保護蓋,以避免該金屬化天線圖案鍍層丄〇 2的刮傷 磨耗,但不以上述為限。 在本具體實施例中,該外殼部件i 〇係為一行動電話 背殼,但不以上述為限,先模製成型一塑膠外殼丄〇工以 作為上述之行動電話背殼,並利用雷射將該塑膠外殼1 〇 1的外表面1 〇 3的一預定區域改質形成一環狀的活化 區域,再將銅金屬沈積於該環狀的活化區域,而形成環狀 之该金屬化天線圖案鑛層1 〇 2,以形成上述之雷射直接 成型(LDS)外殼部件1 〇。再者,上述通孔1 1則貫穿設 置於該外殼部件1 〇之塑膠外殼i 〇 i,且環狀之該金屬 化天線圖案鍍層1 〇 2的一端係延伸至該通孔1丄的内 壁面。 請配合第六圖及第六A圖,其中第六圖顯示模組化天 線裝置1與電路板2組設在一起的俯視圖,第六a圖為第 M373574 . 六圖中6A-6A剖線的剖視圖。該塑膠外殼1 〇 1包括有一 外表面1 0 3及一相對於該外表面1 〇 3之内表〇 4 ’該通孔1 1則係貫穿該塑膠外殼1 〇 1之該内表面工 04及該外表面103。該模組化天線裝置1之導電元件 1 3係插設固定於該通孔1 1,該導電元件1 3的土端係 固定於該通孔1 1中且電連接該金屬化天線圖案鑛層工 0 2之延伸至該通孔1 1内壁面的部分,而該導電元件丄 3的下端則形成一彈性接觸部,且向下凸伸於該内表面丄 04 (如第五Α圖所示),藉由該彈性接觸部的彈性力, 該彈性接觸部則可緊密地接觸於組裝於該外殼部件1 〇 之内表面104的電路板2。 請配合參考第八圖,其為該導電元件i 3的第一種實 施態樣。在本實施態樣中,該導電元件i 3係為一壓接式 連接元件,該壓接式連接元件包含:一套筒1 3 2、一金 屬探針1 3 3及一彈性體1 3 4 ;該套筒1 3 2係為導電 材料所製成,該套筒1 3 2係為一中空的結構體,其一端 封閉而另一端具有一開口 i 3 2 0 ;該金屬探針丄3 3則 包括一滑動部1 3 3 1及一由該滑動部1 3 3 1凸伸的 接觸4 1 3 3 2,这滑動部1 3 3 1係裝設於該套筒1 3 2中,且可沿著套筒13 2進行滑動,但滑動部丄3 3工 會被該套筒1 3 2之開口 1 3 2 0所限位,使金屬探針工 3 3係為可滑動地裴設於該套筒i 3 2中’而該接觸部工 3 3 2則向外延伸而凸出於該套筒i 3 2 ;另外該彈性 體1 34則收容於該套筒丄3 2中,且該彈性體i 34的 M373574 ,物抵觸於金屬探針丄3 3之滑動部丄3 3工以及 Λ套筒1 3 2之内底面’藉此’該彈性體丄3 4可提供該 金屬探針1 3 3向外抵壓的力量。 另一方面,該套筒13 2的外緣更可設有固定基座1 3 2 1及環狀凸肋;[3 2 2,該固定基座χ 3 2 1係設置 於5亥套筒1 3 2的封閉端(即為遠離該開口 1 3 2 〇之一 禚)’而該環狀凸肋1 3 2 2則設於鄰近該開口 1 3 2 0 的位置。而在本具體實施態樣中,該彈性體i 3 4係為一 彈頁,该套筒1 3 2的外緣則是設置有一個環狀凸肋工3 22。 凊同時配合第七圖、第七A圖及第六A圖;由第七A 圖所示,該金屬化天線圖案鍍層i 〇 2係延伸至該通 1之一側内壁面,換言之,本創作係利用雷射將該塑勝外 殼1 0 1的一預定區域改質形成一活化區域,該活化區域 可延伸至該通孔1 1之一侧内壁面,再將導電金屬材料成 型於該活化區域上,以形成一端延伸至該通孔丄1之一側 内壁面之該金屬化天線圖案鍍層1 〇 2 ;再者,相對於該 金屬化天線圖案鍍層1 〇 2之該通孔1 1的内壁面上凸 設有至少一個凸部1 1 〇 ’其係用以緊密接觸該導電元件 1 3於該金屬化天線圖案鍍層1 〇 2。當導電元件1 3插 設於該通孔1 1時,該套筒1 32之固定基座1 3 2 1會 受到該凸部1 1 〇的干涉,而使該固定基座1 3 2 1朝向 5亥金屬化天線圖案鍵層1 〇 2斜靠,而使該套筒1 3 2之 固定基座1 3 2 1緊密地接觸於該金屬化天線圖案鍍層 12 M373574. 1 Ο 2 ;另外,該導電元件1 3之金屬探針1 3 3的接觸 部1 3 3 2則抵接於位在該外殼部件1 〇之内表面丄〇 4的該電路板2 ’而藉由該彈性體1 3 4的彈力,可使該 金屬探針1 3 3的接觸部1 3 3 2緊密地接觸於該電路 板2上之線路2 0,藉此,該金屬化天線圖案鍍層丄〇 2 所接收之無線訊號則可利用導電元件13傳遞至該電路 - 板2上之線路2 0,反之亦然,以達到信號的接收/傳送; 換言之,在本具體實施例中,該金屬探針i 3 3之接觸部 • 1 3 3 2係延伸出該通孔1 1外,以構成上述彈性接觸 部,而與電路板2上之線路2 0連接以達成電連接功能。 再一方面’在將導電元件1 3插設於該通孔1 1中時,由 於該套筒1 3 2上的環狀凸肋1 3 2 2之外徑略大於該 通孔1 1的直徑,因此該環狀凸肋i 3 2 2會略微撐開該 通孔1 1,而當該環狀凸肋1 3 2 2裸露出於該通孔工χ 外’該通孔1 1則受彈性回復力回復原來的孔徑大小,此 '時,該環狀凸肋1 3 2 2的肩部1 3 2 3頂抵於該通孔1 1之下緣以受到該通孔11下緣之阻擔’而使得導電元件 1 3難以向後退出該通孔1 1,使導電元件1 3不易由該 通孔11中脫落。 接著說明本創作之第二實施例,請參考第九圖至第九 B圖及第十圖至第十c圖。在第二實施例中,該模組化天 線裝置1 ’同樣包括一外殼部件1 〇、一貫穿該外殼部件 10之通孔1 1 /以及一導電元件1 3 其中,該外殼 部件1 0係為一雷射直接成型(LDS)之外殼,其包含一模 13 M373574 製成型的塑膠外殼101,且該塑膠外殼的其中一表面形 成有一金屬化天線圖案鍍層1 0 2,換言之,該雷射直接 成型(laser-direct-structuring,LDS)之外殼部件 1 〇,係先 以模製成型該塑膠外殼1 0 1,再將該金屬化天線圖案鍍 層1 02成型於該塑膠外殼1 0 1之外表面1 〇 3上,該 金屬化天線圖案鍍層1 〇 2係用以作為行動通訊裝置之 天線’以接收訊號;而該金屬化天線圖案鍍層1 〇 2係藉 由導電元件1 3 >與通孔1 1 〃的配合,利用導電元件1 3 >之彈性接觸部將訊號傳送至電路板2上,俾使行動通 訊裝置接收/傳送無線訊號。而上述之雷射直接成型之外殼 部件1 〇與第一實施例相同,在此不予贅述;又如,該金 屬化天線圖案鍍層1 〇 2外侧上方同樣設有一保護裝置 1 4,以具有保護該金屬化天線圖案鍍層1 〇 2之功能。 而請參考第十二圖,同時配合第十一圖與第十一 A 圖,第一貫施例與第一實施例不同之處在於:第二實施例 中,縯導電元件1 3係為一種夾式(clip type )的連接 元件,其包含一固定部.1 3 5及分別由該固定部1 3 5兩 端延伸成型之一第一彈性臂i 3 6與一第二彈性臂i 3 7,且§亥第二彈性臂1 3 7具有一接觸端1 3 7 1,當該 V電元件1 3插設於該通孔1 1 >,該固定部1 3 5係 緊固於該通孔1 1 ’内’而第-彈性臂1 3 6則接觸延伸 至通孔1 1 >内壁面之金屬化天線圖案鍍層i 〇 2,該第 二彈性臂1 3 7之接觸端1 3 7 1則延伸出該通孔丄 1 '外,以接觸組裂於該外殼部件1 0之内表面1 〇 4的 14 M373574 電路板2。在本具體實施例中,該固定部1 3 5包含一本 體1 3 5 1及由該本體1 3 5 1兩側彎折延伸之側壁1 3 5 2 ’該第一彈性臂1 3 6與該第二彈性臂1 3 7係分 別由該本體1 3 5 1的上下兩端斜向延伸成型,當導電元 件1 3 插設於該通孔1 1 >時,該固定部1 3 5之本體 ' 1 3 5 1及側壁1 3 5 2會緊密卡合於該通孔1 1 / 、中’而該第一彈性臂1 3 6會朝向延伸至通孔1 1 /内壁 Φ 面之該金屬化天線圖案鍍層1 0 2斜靠,以使該第一彈性 臂1 3 6緊密地接觸於該金屬化天線圖案鍍層1 〇 2 ;另 外,該第二彈性臂i 3 7之接觸端1 3 7 1則抵接於位在 該外殼部件1 〇之内表面1 〇 4的該電路板2,而藉由該 第二彈性臂1 3 7的彈力,可使該第二彈性臂1 3 7之接 觸端1 3 7 1緊密地接觸於該電路板2上之線路2 〇,藉 此,該金屬化天線圖案鍍層i 〇 2所接收之無線訊號則可 利用導電元件1 3 >傳遞至該電路板2上之線路2 〇,反 φ 之亦然,以達到信號的接收/傳送,換言之,在本具體實 _施例中,該第二彈性.臂1 3 7之接觸端丄3 7丄係延伸出 該通孔1 1 /外,以構成上述之彈性接觸部,進而達成電 連接功能。再一方面,該固定部i 3 5最佳地設有第一卡 合結構,例如由該侧壁1 3 5 2撕裂成型之倒刺結構工3 5 3 ;而該通孔1 1 -的内壁面上則成型有對應該倒刺結 構1 3 5 3的第二卡合結構,例如扣孔丄丄丄(如第九B 圖所示)’藉由上述倒刺結構1 3 5 3與扣孔丄丄i的配 合,可使導電元件1 3 /緊密地卡固於該通孔丄【-中, M373574 使導電元件13 不易由該通孔11/中脫落。 綜上所述’本創作具有下列諸項優點: 1、 具有較簡單的結構··由於習知技術均為兩件式的組裝 結構’其必須將天線模組之金屬片固定於外殼内,再 利用導電構件(如習知技術515號專利之彈性體3 0 3 或如習知技術511號專利之接地部6 〇 1 1及信 號感應部6 0 1 2 )連接天線模組之金屬片與電路 板’故習知技術之結構需組裝多個構件始能達成訊號 接收/傳送功能;再者’習知技術515號專利及習知技 術511號專利更分別以固定殼3 〇 2及定位基板6 〇 2固定上述導電元件,以避免上述導電構件的彎折或 歪斜。相對地,本創作係直接將金屬化天線圖案鍍層 1 0 2之天線線路直接成型於塑膠外殼1 〇 1,再將 導電元件1 3插設塑膠外殼1 〇 1上的通孔1 i,使 金屬化天線圖案鑛層1 〇 2電性連接於電路板2,因 此,本創作並不需要額外的固持件(如習知技術515 號專利之固定殼3 〇 2及習知技術511號專利之定位 基板6 0 2 ),故本創作具有較習知技術更為簡單的 結構。 2、 本創作之模組化天線裝置在組裝時更為快速且方便。 由於本創作提供一種模組化的天線裝置,將金屬化天 線圖案鍍層1 〇 2之天線線路直接成型於塑膠外殼 1 0 1,配合導電元件1 3的電性連接功能,換言 之,本創作之模組化天線裝置僅需要將導電元件工3 16 M373574. 插設於塑膠外殼i i上的通i即完成組裝,故 可達成較佳的製程效率。 3、本創作之模組化天線裝置具有較穩固的結構。由於本 創作之模組化天線裝置在塑膠外殼i 〇丄上形成有 通孔11,而塑膠外殼i〇丄具有相當強的結構特性 (因其具有較厚的肉厚),故當導電元件丄3插設於 塑膠外殼1 ◦ 1上的通孔工工中,該導電元件工3即 可具有較佳的穩固性,以提高電性連接的接觸態樣。 反之,習知技術之977號公開專利與294號公開專利 並無將導電件4 0 2 2及第三輕射部5 1 〇 2加以 固持穩定,因此容易產生歪斜而導致電性接觸不良的 4 、本創作之模組化天線裝置具有較小魏的結構。由於 本創作係提供一種以雷射直接成型的外殼部件工 0 ’故該金屬化天線圖鏡層i Q 2之天線線路僅是 成型於模製成型之該塑膠外殼丄Q工上的金 路,相較於習知技術必須將天線的輕射金屬片(如習 15號專利之天線構件3〇4)組裝於殼體 創作之;^組化天線裝置可大幅縮小天線裝置的 尺寸。 t = t模組化天線裝置不需要在電路板2焊接導電 成對於因此在製程上簡化了焊接的步驟,且更達 成對於裱保的貢獻。 17 M373574 條惟Γ切龍為補作之純實_,非意欲偈限本 容圍’故舉凡運用本創作說明書及圖式内 圍内7合=b’均同理皆包含於本創作之權利保護範 【圖式簡單說明】 第一圖係為-種習知的無線通信產品之天線模組之示竟 圖0 〜· 第一圖係為另一種習知的全球定位接收系統接收裝置 示意圖。 ,二圖係為另一種習知的全天線裝置之示意圖。 第四圖係為另-種習知的内建天線結構之示意圖。 第五圖係為本創作第一實施例之模組化天線裝置之立體 示意圖。 第五A圖係為本創作第一實施例之模組化天線裝置之另 一視角的立體示意圖。 第五B圖係為本創作第一實施例之模組化天線裝置與電 路板之立體分解圖。 第五C圖係為本創作第一實施例之模組化天線裝置與電 路板之另一視角的立體分解圖。 第/、圖係為本創作第一實施例之模組化天線裝置之俯視 圖。 第六A圖係為第六圖之6A-6A的剖視圖。 第七圖係為本創作第一實施例之模組化天線裝置之另一 18 M373574. 視角的示意圖。 第七A圖係為第七圖之A部分之放大圖。 第八圖係為本創作第一實施例之模組化天線裝置之導電 元件的示意圖。 第九圖係為本創作第二實施例之模組化天線裝置與電路 板之立體分解圖。 第九A圖係為本創作第二實施例之模組化天線裝置與電 路板之另一視角的立體分解圖。 第九B圖係為第九a圖中B部分之放大圖。 第十圖係為本創作第二實施例之模組化天線裝置之立體 示意圖。 第十A圖係為第十圖中a部分之放大圖。 第十B圖係為本創作第二實施例之模組化天線裝置之另 一視角的立體示意圖。 第十C圖係為第十B圖中c部分之放大圖。 第十一圖係為本創作第二實施例之模組化天線裝置之俯 視圖。 第十一A圖係為第十一圖之11A_11A的剖視圖。 第十二圖係為本創作第二實施例之模組化天線裝置之導 電元件的示意圖。 【主要元件符號說明】 【習知技術】 0 印刷電路板 19 M373574 3 0 2 固定殼 3 0 2 1 安裝部 3 0 3 彈性體 3 0 4 天線構件 4 0 0 外殼 4 0 1 電路主板 4 0 2 天線結構 4 0 2 1 金屬片 4 0 2 2 導電元件 4 0 3 顯示面板 5 0 0 第一基板 5 0 1 第一輻射部 5 1 0 第二基板 5 1 1 第二輻射部 5 1 2 第三輻射部 6 0 0 手機殼體 6 0 1 天線本體 6 0 1 1 接地部 6 0 1 2 信號感應部 6 0 2 定位基板 6 0 2 1 穿孔 6 0 3 内殼體 6 0 3 1 中空圓柱 6 0 4 電路基板 20 M373574. 【本創作】 1 模組化天線裝置 10 外殼部件 10 1 塑膠外殼 1 0 2 金屬化天線圖案鍵層 10 3 外表面 10 4 内表面 1 1、1 ] L ^ 通孔 110 凸部 111 1 3、1〔 13 2 扣孔 3 ^ 導電元件 套筒 13 2 0 開口 13 2 1 固定基座 13 2 2 環狀凸肋 13 2 3 肩部 13 3 金屬探針 13 3 1 滑動部 13 3 2 接觸部 13 4 13 5 彈性體 固定部 21 M373574 13 5 1 本體 13 5 2 側壁 13 5 3 倒刺結構 13 6 第一彈性臂 13 7 第二彈性臂 13 7 1 接觸端 14 保.護裝置 2 電路板 2 0 線路M373574. V. New description: [New technical field] The creation system is a group-viewing antenna device, especially a type of antenna wire that is laser-formed on a molded plastic body. An antenna device that forms a housing component that is directly formed by a laser. [Prior Art] Due to the development of wireless communication technology, electronic products are paying more and more attention to the receiving/transmitting quality requirements of signals. And users are required to be light and thin for electronic products: short and small, plus highly integrated features. In order to achieve the purpose of the operation of the Lihua Xigong. The performance of the antenna is an important part of the quality of the wireless communication DfUn. The antennas of various wireless communication systems have different characteristics according to different applications. For example, in order to facilitate portability and aesthetics, the mobile power has built-in mobile communication, positioning, and digital. TV, wireless area, road f single function or multi-function antenna; and the antenna of the base station has various field type and polarization requirements according to the location of the ... ic clothing i brother, the industry is currently working to reduce the variety of mobile antennas Dimensions to save device costs and achieve miniaturization of mobile communication devices. 0, for example, the first figure shows a conventional technique: a certificate of the People's Republic of China 旎CN1754515 (hereinafter referred to as 515 patent), which discloses an antenna module of a built-in wireless communication product, the antenna module including a printing, a circuit board 301, a fixed case 3〇2, an antenna member 3〇4, and an elastic body 3〇3, the printed circuit board 3〇1 is provided with a printed circuit and an electronic component (not shown), the fixed case 3 〇 2 series set on the printed circuit 3 M373574 board 3 Ο 1 ' and the antenna member 3 〇 4 is assembled on the fixed case 3 〇 2, in addition, the elastic body 3 〇 3 is accommodated and compressed The upper and lower sides of the elastic body 3 0 are electrically connected to the printed circuit board 3 〇丄 and the antenna member 3 〇 4, respectively, in the mounting portion 3 〇 2 1 penetrating the fixed case 306 to be used for receiving The antenna member 3 〇 4 transmitting the electric wave is electrically connected to the printed circuit on the remote printed circuit board 3 Ο 1. However, the antenna member 3 〇 4 disclosed in the '515 patent is a component independent of the outer casing of the electronic product, so that the assembly of the two forms a large overall size, and in addition, in order to avoid the elastic body from the printed circuit board 3 脱离1 and the antenna member 306 are detached, and must be fixed by the fixed casing 3 〇 2, so the fixed casing 306 must be added, so the structure is complicated. The second figure shows another conventional technique: Republic of China Patent Publication No. 200905977 (hereinafter referred to as publication No. 977), which discloses a receiving device for a global clamp receiving system, which includes a front and rear assembled housing 40. 0, the outer casing 4 is provided with a circuit board 4 〇 1, an antenna structure 420, and a display panel 4 2 3, the antenna structure 420 is a metal attached to the inner surface of the cymbal casing 400 The film 4 〇 2 i and the two conductive elements! The component 4 0 2 2 is composed, wherein one end of the two conductive members 4 2 2 is soldered to the circuit board 4 〇i, and the other end is repeatedly connected to the metal piece 402 i. However, since the two conductive members 4 G 2 2 are held by the fixed structure No. 977, the two conductive members 4 〇 2 2 are easily skewed to cause a poor electrical contact. Further, the metal piece 4021 of the antenna structure 402 is bonded to the outer casing 40 再 by reworking, which is complicated in the assembly process. ..., M373574. The third figure shows a further conventional technique: Republic of China Patent Publication No. 200924294 (hereinafter referred to as publication No. 294), which discloses a wire device 'The antenna includes a first substrate 5 〇 and a second substrate 5 i 〇 , the first substrate 50 0 and the second substrate 5 1 〇 are respectively provided with a first radiant portion 510 and a second illuminating portion 5 1 1 ′ and a third illuminating portion 5 1 2 is disposed vertically between the first substrate 510 and the second substrate 5 1 , and electrically connected to the first radiating portion 510 and the second radiating portion 5 丄丄. However, since the third radiating portion 51 is not held by the fixing structure by the publication No. 294, the third radiating portion 5 χ 2 is easily skewed to cause poor contact with the call. The fourth figure shows a further conventional technology: Patent No. CN2694511Y of the People's Republic of China (hereinafter referred to as Patent No. 511), which discloses a built-in antenna structure including a mobile phone case 6 〇〇 and an antenna body 6 01 The positioning substrate 602, the inner casing 603, and the circuit board 60 4 'the antenna body 6 〇 1 is attached to the inner side surface of the mobile phone case 6 ' 'the positioning substrate 602 is disposed on the antenna body 6 0 1 The inner casing 605 is assembled to the mobile phone case 600, and the circuit board 6 〇4 is disposed on the inner casing 6 〇3. The antenna body 6 〇1 extends to form a ground portion 6 0 1 1 and a signal sensing portion 6 0 1 2 , and the ground portion 6 0 1 1 and the signal sensing portion 6 〇 1 2 are disposed on the positioning substrate 602 The perforated 6 〇 2 1 and the fixed hollow cylinder 6 0 3 1 ' on the inner casing 6 0 3 are electrically connected to the circuit substrate 6 〇 4 . However, the antenna body 6 〇1 disclosed in the '511 patent is a component that is independent of the casing of the mobile phone casing, so that the assembly of the two will form a larger overall body M373574 product, and in order to avoid the grounding portion. 6 Ο 1 1 and the bending deformation of the signal sensing portion 6 Ο 1 2 must be fixedly protected by the positioning substrate 602. Therefore, it is necessary to increase the components of the positioning substrate 602, which is complicated in structure. On the other hand, laser-direct-structuring (LDS) is also used in the production of lines. The laser direct molding process is first; firstly, an injection molded outer casing is provided, which is formed by solidifying a thermoplastic material by one injection molding; then, an activation region is formed by laser exposure on the inner wall surface of the outer casing, and the activation region is formed. There will be a metallized activated core, i.e., the activated core of the activated region will catalyze a physical or chemical reaction; next, a metallization process is used to form a metal in the activated region to form a line. Therefore, laser direct structuring can effectively simplify the process of forming a line on the outer casing. Therefore, the creator has a complex structure of the antenna structure of the known technology, and proposes a method of directly applying laser to the antenna structure, and is effective. Improve the lack of conventional technology. [New Content] The main purpose of the present invention is to provide a modular antenna device having a simple structure in which a conductive member is held by a housing member, and other holding members can be omitted. Another object of the present invention is to provide a modular antenna device having a modular structure for directly forming an antenna line of a metallized antenna pattern plating onto a molded plastic casing to form A M373574. The laser direct molding (LDS) housing component, in conjunction with the electrical connection function of the conductive component, electrically connects the antenna line of the metallized antenna pattern plating to the circuit board for the purpose of receiving/transmitting signals. Another object of the present invention is to provide a modular antenna device, which uses a plastic shell with high structural strength to hold a conductive member, and can stably hold the conductive member, thereby improving the plating of the metalized antenna pattern. The connection characteristics of the connection to the board. • Another object of the present invention is to provide a modular antenna device. The antenna device laser-forms the antenna line of the metallized antenna pattern onto the plastic casing, thereby effectively reducing the overall volume of the antenna device. Another object of the present invention is to provide a modular antenna device. The manufacturing process of the antenna device simplifies the soldering step, and the modular design greatly improves the process efficiency. In order to achieve the above object, the present invention provides a modular antenna device comprising: a housing member, a through hole, and a conductive member. Wherein - the outer casing member is a laser direct molding (LDS) outer casing, which comprises a *-molded plastic outer casing, and a laser is formed on the plastic outer casing to form an activation region, and then the metal material is Deposited in the active region to form a metallized antenna pattern plating layer extending from the plastic casing to the inner wall surface of the through hole on the plastic casing; in other words, the metallization and antenna pattern plating is A laser is formed on one surface of the molded plastic housing to form one of the outer shell members of the laser direct structuring (LDS). The conductive component is inserted into the through hole of the plastic case and electrically connected to the metallized antenna pattern key layer, and the conductive element has an elastic contact portion extending outside the through hole 7 M373574. The above metal material may be deposited on the activated region of the plastic casing by electroless plating, electroplating or the like, but not limited thereto. '**Maben's creation has the following beneficial effects··················································································· The activation zone or the metal material is deposited on the activation region to form a metallized antenna pattern plating layer; the conductive component is inserted into the through hole of the plastic casing, and the metal is electrically connected to the metallized antenna pattern ore layer and is disposed on the outer casing. The circuit board within the component thus forms the modular antenna assembly described above. In other words, the modular antenna device proposed by the present invention forms a modular assembly design of the outer casing member, the metallized antenna pattern plating layer and the conductive element. Therefore, the antenna device of the present invention has the characteristics of simple structure and small size and is more It has better process efficiency and a more environmentally friendly manufacturing process. On the other hand, since the outer casing member has a good structural strength, the electrically conductive member fixed in the through hole of the outer casing member can have a relatively stable holding state, and the problem of poor contact can be avoided. In order to further understand the features and technical contents of the present invention, please refer to the following detailed description and drawings of the present invention. However, the drawings are only for reference and explanation, and are not intended to limit the creation. [Embodiment] Referring to the fifth to fifth c diagrams in May, which is a specific embodiment of the creation, the present invention proposes a modular antenna device 1 including an outer casing member 10 and a through The through-hole ii of the outer casing member and a guide M373574. The electrical component 1 3 H is a housing of a laser direct molding (LDS), which comprises a molded plastic of the plastic outer casing. One of the surfaces is formed with a metallized antenna pattern plating layer 102. In other words, the outer shell member i 〇 of the laser direct structuring (LDS) is molded into the plastic housing 丄〇1. Forming a base metallized antenna pattern layer 1 〇2 on one surface of the plastic case 110, the metallized antenna pattern plating layer 2 is used as an antenna line of the mobile communication device to receive/transmit signals And a conductive element 13 is fixed in the through hole 1 1 and electrically connected to the metallized antenna pattern plating layer i 〇 2 of the inner wall surface of the through hole, and the conductive element 丄 3 has an extending through the through hole 1 1 external elastic contact portion, the metallized antenna pattern The coating layer 102 connects the δίΐ to the circuit 2 of the circuit board 2 by the cooperation of the conductive element 13 and the through hole 1 1 , so that the mobile communication device, such as a mobile phone, can be applied to wireless communication. field. Please refer to the fifth to fifth C diagrams. The fifth diagram is a perspective view of the modular antenna device 1; the fifth diagram is a perspective view of another perspective of the modular antenna device 1; The figure is an exploded view of the modular antenna device and the circuit board 2; the fifth c is an exploded view of the other view of the modular antenna device 1 and the circuit board 2 . The outer casing part 1 of the 'medium' modular antenna device 1 is made by laser direct molding, and the plastic outer casing i is first molded and laser-shaped on the plastic outer casing 1 〇1. Forming an activation region, and depositing a metal material on the activation region to form a metallized antenna pattern key layer 1 ◦ 2, thereby forming the above-described laser direct structuring (LDS) housing member 1 M 353574 〇 'In other words, the housing member 1 The plastic case 1 〇1 is made of a component that cannot directly deposit a metal material thereon, and the present invention uses a laser to modify a predetermined area of the plastic case 101 to form an activation area, Techniques, such as electroless plating, electroplating, allow the conductive metal material to be directly attached to the active region of the plastic housing 1-1 to form a metallized antenna pattern plating 1 〇 2 that can receive wireless signals. On the other hand, a protective device 14 is further disposed on the outer side of the metallized antenna pattern plating layer 〇2, for example, by coating or painting the metal layer on the exposed side to metallize the antenna pattern plating layer Q 2 or using The protective cover on the exposed metallized antenna pattern plating layer 1 〇 2 is covered by a bonding, snapping, etc., to avoid scratching abrasion of the metallized antenna pattern plating layer ,2, but not limited to the above. In the embodiment, the outer casing member i is a mobile phone back shell, but not limited to the above, the first molded plastic shell is completed as the mobile phone back shell, and the mine is utilized. A predetermined area of the outer surface 1 〇 3 of the plastic outer casing 1 改 1 is modified to form an annular activation region, and copper metal is deposited on the annular activation region to form a ring-shaped metallized antenna. The patterned mineral layer 1 〇 2 is formed to form the above-described laser direct structuring (LDS) outer casing member 1 〇. Furthermore, the through hole 1 1 is penetrated through the plastic case i 〇i disposed on the outer casing member 1 , and one end of the annular metallized antenna pattern plating layer 1 延伸 2 extends to the inner wall surface of the through hole 1 丄. Please cooperate with the sixth figure and the sixth figure A, wherein the sixth figure shows the top view of the modular antenna device 1 and the circuit board 2, and the sixth a picture is M373574. The six figure 6A-6A Cutaway view. The plastic housing 1 〇1 includes an outer surface 110 and an inner surface 4 ′ relative to the outer surface 1 〇3. The through hole 1 1 extends through the inner surface of the plastic housing 1 041 and The outer surface 103. The conductive element 13 of the modular antenna device 1 is inserted and fixed to the through hole 1 1. The earth end of the conductive element 13 is fixed in the through hole 11 and electrically connected to the metalized antenna pattern ore layer. a portion of the conductive member 延伸3 extends to a portion of the inner wall surface of the through hole 11. The lower end of the conductive member 丄3 forms an elastic contact portion and protrudes downwardly from the inner surface 丄04 (as shown in the fifth drawing) The elastic contact portion is in close contact with the circuit board 2 assembled to the inner surface 104 of the outer casing member 1 by the elastic force of the elastic contact portion. Please refer to the eighth figure, which is the first embodiment of the conductive element i 3 . In this embodiment, the conductive element i 3 is a crimping connecting element, and the crimping connecting element comprises: a sleeve 1 3 2, a metal probe 1 3 3 and an elastic body 1 3 4 The sleeve 132 is made of a conductive material, and the sleeve 132 is a hollow structure having one end closed and the other end having an opening i 3 2 0 ; the metal probe 丄 3 3 And comprising a sliding portion 1 3 3 1 and a contact 4 1 3 3 2 protruding from the sliding portion 1 3 3 1 , the sliding portion 1 3 3 1 is installed in the sleeve 1 3 2 , and Sliding along the sleeve 13 2 , but the sliding portion 丄 3 3 union is limited by the opening 1 3 2 0 of the sleeve 1 3 2, so that the metal probe 3 3 is slidably disposed on the sleeve The sleeve i 3 2 'and the contact portion 3 3 2 extends outwardly to protrude from the sleeve i 3 2 ; the elastic body 34 is received in the sleeve 丄32, and the elastic body M373574 of i 34, which is in contact with the sliding portion of the metal probe 丄3 3 and the inner bottom surface of the 1 sleeve 1 3 2 'by this' the elastic body 丄 3 4 can provide the metal probe 1 3 3 The force of outward pressure. On the other hand, the outer edge of the sleeve 13 2 can be further provided with a fixed base 1 3 2 1 and an annular rib; [3 2 2, the fixed base χ 3 2 1 is disposed on the 5 hai sleeve 1 The closed end of the 3 2 (that is, one away from the opening 1 3 2 禚)' and the annular rib 1 3 2 2 are disposed adjacent to the opening 1 3 2 0 . In this embodiment, the elastic body i 3 4 is a bullet, and the outer edge of the sleeve 132 is provided with an annular rib 322.凊 at the same time cooperate with the seventh picture, the seventh picture A and the sixth picture A; as shown in the seventh picture A, the metallized antenna pattern plating layer i 〇 2 extends to the inner wall surface of one side of the channel 1 , in other words, the creation And modifying a predetermined area of the plastic housing 110 by using a laser to form an activation area, the activation area extending to one of the inner wall surfaces of the through hole 1 1 , and forming a conductive metal material in the activation area And forming the metallized antenna pattern plating layer 1 一端2 extending to one side inner wall surface of the through hole 丄1; further, the inside of the through hole 1 1 is plated with respect to the metallized antenna pattern 1 〇2 At least one convex portion 1 1 〇' is protruded from the wall surface for closely contacting the conductive element 13 to the metallized antenna pattern plating layer 1 〇2. When the conductive element 13 is inserted into the through hole 1 1 , the fixed base 1 3 2 1 of the sleeve 1 32 is interfered by the convex portion 1 1 ,, and the fixed base 1 3 2 1 is oriented. 5H metallized antenna pattern key layer 1 〇2 is inclined, and the fixed base 1 3 2 1 of the sleeve 133 is in close contact with the metallized antenna pattern plating layer 12 M373574. 1 Ο 2; The contact portion 1 3 3 2 of the metal probe 1 3 3 of the conductive member 13 abuts against the circuit board 2 ′ located on the inner surface 丄〇 4 of the outer casing member 1 而 by the elastic body 1 3 4 The elastic force can make the contact portion 1 3 3 2 of the metal probe 13 3 closely contact the line 20 on the circuit board 2, whereby the metal signal received by the metallized antenna pattern plating layer 2 Then, the conductive element 13 can be used to transmit the line 20 on the circuit board 2, and vice versa, to achieve signal reception/transmission; in other words, in the specific embodiment, the metal probe i 3 3 contact portion • The 1 3 3 2 system extends out of the through hole 1 1 to constitute the elastic contact portion, and is connected to the line 20 on the circuit board 2 to achieve an electrical connection function. On the other hand, when the conductive element 13 is inserted into the through hole 1 1 , the outer diameter of the annular rib 1 3 2 2 on the sleeve 1 3 2 is slightly larger than the diameter of the through hole 11 Therefore, the annular rib i 3 2 2 slightly expands the through hole 1 1 , and when the annular rib 1 2 2 2 is exposed outside the through hole, the through hole 1 1 is elasticized The restoring force returns to the original aperture size. At this time, the shoulder portion 1 3 2 3 of the annular rib 1 3 2 2 abuts against the lower edge of the through hole 1 1 to be blocked by the lower edge of the through hole 11 'It is difficult for the conductive element 13 to exit the through hole 1 1 backward, so that the conductive element 13 is not easily detached from the through hole 11. Next, a second embodiment of the present creation will be described. Please refer to the ninth to ninthth and the tenth to tenthth. In the second embodiment, the modular antenna device 1 'also includes a housing member 1 , a through hole 1 1 / extending through the housing member 10 , and a conductive member 1 3 , wherein the housing member 10 is a laser direct molding (LDS) casing comprising a plastic casing 101 of a molded shape of M M35574, and a surface of the plastic casing is formed with a metallized antenna pattern plating 102, in other words, the laser is directly A shell-direct-structuring (LDS) outer casing member 1 is formed by molding the plastic outer casing 110, and then molding the metalized antenna pattern plating 102 into the plastic outer casing 1 0 1 On the surface 1 〇3, the metallized antenna pattern plating layer 1 〇2 is used as the antenna ' of the mobile communication device to receive the signal; and the metallized antenna pattern plating layer 1 〇 2 is connected by the conductive element 1 3 > The cooperation of the holes 1 1 , transmits the signals to the circuit board 2 by the elastic contact portions of the conductive elements 1 3 >, so that the mobile communication device receives/transmits the wireless signals. The above-mentioned laser directly formed outer casing member 1 is the same as that of the first embodiment, and will not be described herein; for example, a protective device 14 is also provided on the outer side of the metallized antenna pattern plating layer 1 ,2 for protection. The metallized antenna pattern is coated with a function of 〇2. Please refer to the twelfth figure, together with the eleventh and eleventh A, the first embodiment is different from the first embodiment in that: in the second embodiment, the conductive element 13 is a kind a clip type connecting member, comprising a fixing portion .1 3 5 and a first elastic arm i 3 6 and a second elastic arm i 3 7 extending from the two ends of the fixing portion 1 3 5 respectively And the second elastic arm 1 3 7 has a contact end 1 3 7 1 , and when the V electrical component 1 3 is inserted into the through hole 1 1 >, the fixing portion 1 3 5 is fastened to the through The hole 1 1 'inner' and the first elastic arm 1 3 6 are in contact with the metallized antenna pattern plating layer i 〇 2 extending to the inner wall surface of the through hole 1 1 , and the contact end 1 3 7 of the second elastic arm 1 3 7 1 extends beyond the through hole 丄 1 ' to contact the 14 M373574 circuit board 2 which is cracked on the inner surface 1 〇 4 of the outer casing member 10. In the embodiment, the fixing portion 135 includes a body 1 3 5 1 and a side wall 1 3 5 2 ' which is bent and extended from both sides of the body 1 3 5 1 and the first elastic arm 136 The second elastic arm 1 3 7 is formed by obliquely extending from the upper and lower ends of the body 1 3 5 1 respectively. When the conductive element 13 is inserted into the through hole 1 1 >, the body of the fixing portion 1 3 5 ' 1 3 5 1 and the side wall 1 3 5 2 will be tightly engaged in the through hole 1 1 / , middle ' and the first elastic arm 136 will face the metallization extending to the through hole 1 1 / inner wall Φ plane The antenna pattern plating layer 102 is inclined so that the first elastic arm 136 is in close contact with the metallized antenna pattern plating layer 1 ; 2; in addition, the contact end of the second elastic arm i 3 7 is 1 3 7 1 Then, the circuit board 2 is located on the inner surface 1 〇 4 of the outer casing member 1 , and the contact end of the second elastic arm 137 can be made by the elastic force of the second elastic arm 137 . 1 3 7 1 is in close contact with the line 2 上 on the circuit board 2, whereby the wireless signal received by the metallized antenna pattern plating layer 〇2 can be transmitted to the circuit board 2 by using the conductive element 1 3 > Upper line 2 〇, the same as anti-φ, in order to achieve the reception/transmission of the signal, in other words, in the embodiment, the contact end 丄3 7 of the second elastic arm 1 3 7 extends out of the through hole 1 1 / outside, to constitute the above-mentioned elastic contact portion, thereby achieving an electrical connection function. In another aspect, the fixing portion i 3 5 is optimally provided with a first engaging structure, such as a barbed structure 3 3 3 which is torn and formed by the side wall 1 3 5 2; and the through hole 1 1 - A second engaging structure corresponding to the barbed structure 1 3 5 3 is formed on the inner wall surface, for example, a button hole 如 (as shown in FIG. BB) 'by the above-mentioned barb structure 1 3 5 3 and buckle The cooperation of the apertures i allows the conductive element 13 3 / to be tightly clamped in the through hole - [-, M373574 makes the conductive element 13 not easily detached from the through hole 11 /. In summary, the author has the following advantages: 1. It has a relatively simple structure. · Because the prior art is a two-piece assembly structure, it must fix the metal piece of the antenna module in the outer casing. The metal piece and the circuit of the antenna module are connected by using a conductive member (such as the elastic body of the prior art 515 patent or the grounding portion 6 〇1 1 and the signal sensing portion 6 0 1 2 of the prior art 511 patent). Therefore, the structure of the conventional technology requires assembly of a plurality of components to achieve signal receiving/transmission functions; and the 'Practical Technology No. 515 patent and the conventional technology No. 511 patent respectively have a fixed case 3 〇 2 and a positioning substrate 6 respectively. The second conductive member is fixed to prevent the above-mentioned conductive member from being bent or skewed. In contrast, the author directly directly forms the antenna line of the metallized antenna pattern plating layer 102 into the plastic case 1 〇1, and then inserts the conductive element 13 into the through hole 1 i of the plastic case 1 ,1 to make the metal The antenna pattern layer 1 〇 2 is electrically connected to the circuit board 2, therefore, the creation does not require an additional holder (such as the fixed case 3 〇 2 of the prior art 515 patent and the 511 patent of the prior art) The substrate is 6 0 2 ), so this creation has a simpler structure than the prior art. 2. The modular antenna device of this creation is faster and more convenient to assemble. Since the present invention provides a modular antenna device, the antenna circuit of the metallized antenna pattern plating layer 1 直接 2 is directly formed on the plastic case 110, and the electrical connection function of the conductive element 13 is matched, in other words, the mode of the creation. The assembled antenna device only needs to be assembled by inserting the conductive component 3 16 M373574. on the plastic casing ii, so that better process efficiency can be achieved. 3. The modular antenna device of the present invention has a relatively stable structure. Since the modular antenna device of the present invention has a through hole 11 formed in the plastic case i ,, and the plastic case i 〇丄 has a relatively strong structural characteristic (because of its thick meat thickness), when the conductive element 丄3 In the through hole working in the plastic case 1 ◦ 1, the conductive element 3 can have better stability to improve the contact state of the electrical connection. On the other hand, the prior art Nos. 977 and 294 disclose that the conductive member 4 0 2 2 and the third light-emitting portion 5 1 〇 2 are not stably held, so that it is prone to skew and cause electrical contact failure. The modular antenna device of the present invention has a smaller Wei structure. Since the present invention provides a housing component directly formed by lasers, the antenna line of the metallized antenna mirror layer i Q 2 is only a gold road formed on the molded plastic case. Compared with the prior art, it is necessary to assemble the light-emitting metal piece of the antenna (such as the antenna member 3〇4 of the 15th patent) into the casing; the assembled antenna device can greatly reduce the size of the antenna device. The t = t modular antenna device does not require soldering of the conductive layer on the board 2, thus simplifying the soldering step in the process and achieving a contribution to the warranty. 17 M373574 Γ Γ 龙 为 为 为 为 为 为 为 为 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ' ' ' ' ' ' ' ' ' ' ' ' BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic diagram of an antenna module of a conventional wireless communication product. The first figure is a schematic diagram of another conventional receiving device of the global positioning receiving system. The second figure is a schematic diagram of another conventional full antenna device. The fourth figure is a schematic diagram of another conventional built-in antenna structure. The fifth figure is a perspective view of the modular antenna device of the first embodiment of the present invention. Fig. 5A is a perspective view showing another perspective of the modular antenna device of the first embodiment. Fig. 5B is an exploded perspective view of the modular antenna device and the circuit board of the first embodiment of the present invention. The fifth C diagram is an exploded perspective view of another perspective view of the modular antenna device and the circuit board of the first embodiment. The figure / is a top view of the modular antenna device of the first embodiment of the present invention. Figure 6A is a cross-sectional view of 6A-6A of the sixth diagram. The seventh figure is a schematic view of another 18 M373574. perspective view of the modular antenna device of the first embodiment. Figure 7A is an enlarged view of Part A of the seventh figure. The eighth figure is a schematic view showing the conductive elements of the modular antenna device of the first embodiment. The ninth drawing is an exploded perspective view of the modular antenna device and the circuit board of the second embodiment of the present invention. Fig. 9A is an exploded perspective view showing another perspective of the modular antenna device and the circuit board of the second embodiment of the present invention. Figure IX is an enlarged view of part B of the ninth a diagram. The tenth figure is a perspective view of the modular antenna device of the second embodiment of the present invention. The tenth A is an enlarged view of the portion a in the tenth figure. Fig. 10B is a perspective view showing another perspective of the modular antenna device of the second embodiment. The tenth C diagram is an enlarged view of the portion c in the tenth B diagram. The eleventh figure is a top view of the modular antenna device of the second embodiment of the present invention. The eleventh A is a cross-sectional view of 11A-11A of the eleventh drawing. Fig. 12 is a schematic view showing the conductive elements of the modular antenna device of the second embodiment of the present invention. [Major component symbol description] [Practical technology] 0 Printed circuit board 19 M373574 3 0 2 Fixed case 3 0 2 1 Mounting part 3 0 3 Elastomer 3 0 4 Antenna member 4 0 0 Case 4 0 1 Circuit board 4 0 2 Antenna structure 4 0 2 1 Metal sheet 4 0 2 2 Conductive element 4 0 3 Display panel 5 0 0 First substrate 5 0 1 First radiating portion 5 1 0 Second substrate 5 1 1 Second radiating portion 5 1 2 Third Radiation part 6 0 0 Mobile phone case 6 0 1 Antenna body 6 0 1 1 Grounding part 6 0 1 2 Signal sensing part 6 0 2 Positioning substrate 6 0 2 1 Perforation 6 0 3 Inner casing 6 0 3 1 Hollow cylinder 6 0 4 Circuit board 20 M373574. [This creation] 1 Modular antenna unit 10 Housing part 10 1 Plastic case 1 0 2 Metalized antenna pattern key layer 10 3 Outer surface 10 4 Inner surface 1 1、1 ] L ^ Through hole 110 convex part 111 1 3, 1 [ 13 2 button hole 3 ^ conductive element sleeve 13 2 0 opening 13 2 1 fixed base 13 2 2 annular rib 13 2 3 shoulder 13 3 metal probe 13 3 1 sliding Part 13 3 2 contact part 13 4 13 5 elasticity 1352 sidewall 21 M373574 13 5 1 1 353 main body fixing portion barb structure 136 first elastic arm 137 of the second resilient arm 1371 contact end 14 PROTECTION protective means 2 of the circuit board 20 Line