201203699 六、發明說明: 【發明所屬之技術領威】 尤其涉及一種應用於電子設 [0001] 本發明涉及一種天線模組 備產品上之天線模組。 【先前技術】 〇 [0002] 隨著近年來無線網路的快速發展,於天線的性能需求上 也逐漸提高,電子設備中整合的天線不但要求尺寸的縮 小化,且必須具備有内藏式、整合性與多頻帶等特性’ 才具有市場競爭力。 [0003] 目前適用於無線網路的電子產品,已有一些常用的雙頻 倒F型天線設計,該等天線通常由金屬片切割而成,為防 止金屬片變形將天線先與絕緣塊固定,然後再安裝到電 子設備中’如臺灣專利公告第I 248698號所揭示的内容° 但絕緣塊仍然佔用了電子設備中很大的空間。另一種常 用的天線為於PCB板上蝕刻天線圖案或粘貼具有天線圖案 的薄膜,然這種天線由於其較薄的厚度而性能較差且不 〇 穩定。 圆因此’本發明提供-種克服上述問題的天線模組。 【發明内容】 [0005]本發明之主要目的在於提供一種夏右 小尺寸之天線模組 [0006] 099122909 為達成上述目的,本發明天線模組包括由 天線及組裝於該天線的絕緣板,絕緣板且金屬片製成的 表面、第二表面,前述天線具錢、有相連的第一 ° 、輻射部以及連 表單編號A0101 第3頁/共16頁 201203699 接接地。卩與輕射部的連接部,前述轄射部與連接部位於 同一平面且共同貼靠於前述絕緣板的第一表面。 [0007] [0008] [0009] [0010] 099122909 與習知技術相比,本發明天線模組佔用空間小,性能穩 疋,且天線與絕緣板組裝方便。 【實施方式】 請參閱第一圖至第四圖所示係本發明第一實施例,天線 模組100包括組裝於一起的天線丨以及絕緣板2。 天線1為由金屬片衝壓而成的立體式天線,其包括接地部 11、 一端連接至接地部11的填挺部12、垂直連接連接部 12另一端的輻射部丨3以及垂直連接接地部u且與連接部 12、 輻射部13形成間隙的寄生部14 β接地部11大致為一 矩型金屬片,其具有一邊緣11 i。連接部接地部丨i的 邊緣111向上沿曲折路徑延伸。輻射部13自連接部12的上 知沿與接地部11平行的方向延伸且包括位於縱長方向上 的第一部1 31以及位於輕射部1 3的自由末端沿曲折路徑延 伸的第二部132。寄生部14呈半「洋」型且包括連接接地 部11的邊緣111且也於縱長方向上的下部141、垂直連接 下部141的中部142以及與輻射部13的延伸方向相同的上 143。天線1還包括自接地部11的邊緣ill延伸的[型支 撐部15。前述連接部12、輕射部13、寄生部14以及支撑 部15位於同一平面上且與接地部11所在平面垂直,且連 接部12、輻射部13、寄生部14以及支撐部15均設有圓型 通孔16。 絕緣板2由絕緣材料如PC(聚碳酸酯)、Mylar (麥拉)、 Nylon(尼龍)等製成,其包括第一表面21、第二表面22 0992040365-0 表單編號A0101 第4頁/共16頁 201203699 [0011] ❹ [0012] [0013] ❹ 099122909 以及複數其他表面(未標示),第一表㈣呈較寬闊的 矩型,第二表面22較窄小且垂直連接第—表面21。絕緣 板2上還設有複數缺口23以及自缺〇23延伸出來的複數凸 塊231,凸塊231與天線丨的通孔16相對應。 組裝時,絕緣板2組裳於天線!,絕緣板2的凸塊231穿過 天線1的通孔16,天線i的連接部12 '輕射仙、寄生部 14以及支擇部15貼靠於絕緣板2的第—表面21,接地部 11貼靠於絕緣板2的第二表面22,然後藉由高溫工具融化 &柱231堵住通孔16,令天線1與絕緣板2牢固_持於-起。 參照第五圖、第六圖所示為本發明第二實施例,天線模 組200包括组裝在一起的天線3以及絕緣板4。 天線3與天線1的結構基本相同,其包括縱長延伸且具有 -邊緣311的長形接地部31、一端連接至接地部31的連接 部32、垂直連接連接部32另—端的㈣部⑽ '垂直連接 接地部31且與輻射部33形成間隙的半「工」型寄生部以 以及自邊緣311向上延伸的l型支撐部35。連接部32自接 地部31的邊緣311向上沿曲折路徑延伸。輻射部“自連接 部32的上端沿與接地部33平行的方向延伸且包括位於縱 長方向上的第-部331以及位於轄射部33的自由末端且沿 曲折路徑延伸的第二部332。寄生物包括連接接地部31 的第-邊緣3U且位於縱長方向上的下部341、垂直連接 下部341的中部342以及與輕射部咖延伸方向相同的上 部343。前述連接部32、輕射部33、寄生娜以及 部35位於同-平面上且與接地部31所在平面垂直。 表單編號A0101 第5頁/共16頁 0992040365-0 201203699 [0014] 絕緣板4為由絕緣材料如PC、My 1 ar、Ny 1 on等製成的矩 型薄板,其包括第一表面41、第二表面42以及其他複數 表面(未標示),第一表面41垂直連接第二表面42。 [0015] 組裝時,絕緣板4的第一表面41設有粘膠,天線3的連接 部32、輻射部33、寄生部34以及支撐部35貼到絕緣板4 的第一表面41上,接地部31抵靠於絕緣板4的第二表面42 〇 [0016] 於上述所有實施例中,本發明的優點在於,絕緣板4的厚 度很薄,僅為0. 8mm-1. 2mm,天線1、3的金屬片的厚度 大約為0. 2mm-0. 4mm,則組裝於一起的天線模組100、 200的厚度大約於1. Omm-1. 6mm之間,組裝到電子設備中 時僅佔用很薄的空間,且天線1、3由金屬片製成,性能 穩定。 [0017] 本發明並不局限於上述實施方式,例如天線1、3的結構 可以變化,凸柱231以及對應的通孔16的位置、形狀及數 目可以變化,絕緣板2、4的形狀尺寸可以變化,於這裡 不一一贊述。 [0018] 於本發明說明中所述之實施例僅為說明本發明之原理及 其功效,而非限制本發明。因此,習於此技術之人士可 在不違背本發明之精神對上述實施例進行修改及變化。 本發明之權利範圍應如後述之申請專利範圍所列。 【圖式簡單說明】 [0019] 第一圖係本發明天線模組之第一實施例之立體組合圖。 [0020] 第二圖係第一實施例之立體分解圖。 099122909 表單編號A0101 第6頁/共16頁 0992040365-0 201203699 [0021] 第三圖係第二圖所示另一角度的立體分解圖。 [0022] 第四圖係本發明天線模組之第二實施例之立體組合圖 [0023] 第五圖係本發明第二實施例之立體分解圖。 [0024] 第六圖係第二實施例之立體分解圖。 [0025] 【主要元件符號說明】 天線模組:100、200 [0026] 天線:1、3 〇 剛 接地部:11、31 [0028] 邊緣:111、311 [0029] 連接部:12、32 [0030] 輻射部:13、33 [0031] 第一部:131、331 j | ; _ : [0032] 第二部:132、332 Ο [0033] 寄生部:14、34 [0034] 下部:141、341 [0035] 中部:142、342 [0036] 上部:143、343 [0037] 支撐部:15、35 [0038] 通孔:16 [0039] 絕緣板:2、4 099122909 表單編號A0101 第7頁/共16頁 0992040365-0 201203699 [0040] 第一表面:21、41 [0041] 第二表面:22、42 [0042] 缺口 : 2 3 [0043] 凸塊:231 0992040365-0 099122909 表單編號A0101 第8頁/共16頁201203699 VI. Description of the Invention: [Technical Leadership of the Invention] In particular, the present invention relates to an antenna module for an antenna module. [Prior Art] 〇[0002] With the rapid development of wireless networks in recent years, the performance requirements of antennas have gradually increased. The integrated antennas in electronic devices not only require size reduction, but also have built-in type. Integrative and multi-band features are competitive in the market. [0003] At present, electronic products suitable for wireless networks have been designed with some commonly used dual-frequency inverted-F antennas. These antennas are usually cut from metal sheets, and the antennas are first fixed to the insulating blocks in order to prevent deformation of the metal sheets. Then, it is installed in an electronic device, as disclosed in Taiwan Patent Publication No. I 248698. However, the insulating block still occupies a large space in the electronic device. Another commonly used antenna is to etch an antenna pattern on a PCB or to attach a film having an antenna pattern. However, such an antenna is inferior in performance due to its thin thickness and is not stable. The circle thus provides an antenna module that overcomes the above problems. SUMMARY OF THE INVENTION [0005] The main object of the present invention is to provide a summer right small size antenna module [0006] 099122909 In order to achieve the above object, the antenna module of the present invention comprises an antenna and an insulating board assembled to the antenna, insulated The surface of the plate and the metal sheet, and the second surface, the antenna has money, a connected first phase, a radiation portion, and a connection form number A0101, page 3 / a total of 16 pages 201203699. a connecting portion of the 卩 and the light-emitting portion, wherein the arranging portion and the connecting portion are located on the same plane and abut against the first surface of the insulating plate. [0009] [0009] [0010] 099122909 Compared with the prior art, the antenna module of the present invention has small space occupation, stable performance, and convenient assembly of the antenna and the insulating board. [Embodiment] Referring to the first to fourth figures, a first embodiment of the present invention, the antenna module 100 includes an antenna raft and an insulating plate 2 assembled together. The antenna 1 is a three-dimensional antenna stamped from a metal piece, and includes a ground portion 11, a filling portion 12 whose one end is connected to the ground portion 11, a radiation portion 丨3 that vertically connects the other end of the connecting portion 12, and a vertical connection ground portion u. The parasitic portion 14 which forms a gap with the connecting portion 12 and the radiating portion 13 is substantially a rectangular metal piece having an edge 11 i. The edge 111 of the joint land portion 丨i extends upward along the tortuous path. The radiating portion 13 extends from the upper portion of the connecting portion 12 in a direction parallel to the ground portion 11 and includes a first portion 1 31 located in the longitudinal direction and a second portion extending along the meandering path at the free end of the light projecting portion 13 132. The parasitic portion 14 has a semi-ocean shape and includes a lower portion 141 which is connected to the edge 111 of the ground portion 11 and also in the longitudinal direction, a central portion 142 of the vertically connected lower portion 141, and an upper portion 143 which is the same as the extending direction of the radiation portion 13. The antenna 1 further includes a [type support portion 15 extending from the edge ill of the ground portion 11. The connecting portion 12, the light-emitting portion 13, the parasitic portion 14, and the supporting portion 15 are located on the same plane and perpendicular to the plane of the ground portion 11, and the connecting portion 12, the radiating portion 13, the parasitic portion 14, and the supporting portion 15 are each provided with a circle. Type through hole 16. The insulating plate 2 is made of an insulating material such as PC (polycarbonate), Mylar, Nylon, etc., and includes a first surface 21 and a second surface 22 0992040365-0 Form No. A0101 Page 4 / Total 16 pages 201203699 [0011] [0013] ❹ 099122909 and a plurality of other surfaces (not shown), the first table (four) has a wider rectangular shape, and the second surface 22 is narrower and vertically connected to the first surface 21. The insulating plate 2 is further provided with a plurality of notches 23 and a plurality of bumps 231 extending from the defect 23, the bumps 231 corresponding to the through holes 16 of the antenna turns. When assembling, the two sets of insulating plates are on the antenna! The bump 231 of the insulating plate 2 passes through the through hole 16 of the antenna 1, and the connecting portion 12' of the antenna i, the parasitic portion 14 and the supporting portion 15 abut against the first surface 21 of the insulating plate 2, the ground portion 11 abuts against the second surface 22 of the insulating plate 2, and then the high temperature tool melts & the column 231 blocks the through hole 16, so that the antenna 1 and the insulating plate 2 are firmly held. Referring to the fifth and sixth figures, a second embodiment of the present invention, the antenna module 200 includes an antenna 3 and an insulating plate 4 assembled together. The antenna 3 has substantially the same structure as the antenna 1, and includes an elongated land portion 31 extending longitudinally and having an edge 311, a connecting portion 32 having one end connected to the ground portion 31, and a (four) portion (10) of the other end of the vertical connecting connecting portion 32. A half-working type parasitic portion that vertically connects the ground portion 31 and forms a gap with the radiation portion 33, and an l-type support portion 35 that extends upward from the edge 311. The connecting portion 32 extends from the edge 311 of the ground portion 31 upward along the meandering path. The radiation portion " extends from the upper end of the connection portion 32 in a direction parallel to the ground portion 33 and includes a first portion 331 located in the longitudinal direction and a second portion 332 located at a free end of the dam portion 33 and extending along the meandering path. The parasite includes a lower portion 341 that is connected to the first edge 3U of the ground portion 31 and that is located in the longitudinal direction, a middle portion 342 that vertically connects the lower portion 341, and an upper portion 343 that is the same as the direction in which the light-emitting portion extends. The connecting portion 32 and the light-emitting portion are provided. 33. The parasitic na and the portion 35 are located on the same plane and perpendicular to the plane of the ground portion 31. Form No. A0101 Page 5 of 16 0992040365-0 201203699 [0014] The insulating plate 4 is made of an insulating material such as PC, My 1 A rectangular thin plate made of ar, Ny 1 on or the like, comprising a first surface 41, a second surface 42 and other plural surfaces (not shown), the first surface 41 being perpendicularly connected to the second surface 42. [0015] When assembled, The first surface 41 of the insulating plate 4 is provided with an adhesive, and the connecting portion 32 of the antenna 3, the radiating portion 33, the parasitic portion 34, and the supporting portion 35 are attached to the first surface 41 of the insulating plate 4, and the ground portion 31 abuts against the insulating portion. The second surface 42 of the plate 4 is [0016] 2mm-0的组装, The thickness of the metal sheet of the antennas 1 and 3 is about 0. 2mm-0. 4mm, the assembly is as follows, the thickness of the metal sheet of the antennas 1 and 3 is about 0. 2mm-0. The thickness of the antenna modules 100, 200 is about 1. Omm-1. 6mm, which occupies only a very small space when assembled into an electronic device, and the antennas 1, 3 are made of metal sheets, and the performance is stable. The present invention is not limited to the above embodiments. For example, the structures of the antennas 1 and 3 may be changed, and the positions, shapes, and numbers of the protrusions 231 and the corresponding through holes 16 may be changed, and the shape and size of the insulating plates 2 and 4 may be changed. The present invention is described by way of example only, and is not intended to limit the invention. The above embodiments are modified and changed without departing from the spirit and scope of the invention. The scope of the invention should be as described in the following claims. [FIG. 1] The first figure is the antenna module of the present invention. A three-dimensional combination diagram of an embodiment. [0020] Fig. 3 is a perspective exploded view of another angle shown in the second figure. [0022] Figure 3 is a perspective exploded view of a second embodiment of the present invention. [0023] Figure 5 is a perspective exploded view of a second embodiment of the present invention. [0024] Figure 6 is a perspective exploded view of the second embodiment. [Explanation of main component symbols] Antenna module: 100, 200 [0026] Antenna: 1, 3 〇 just grounding: 11, 31 [0028] Edge: 111, 311 [0029] Connection: 12, 32 [ 0030] Radiation section: 13, 33 [0031] Part 1: 131, 331 j | ; _ : [0032] Part 2: 132, 332 Ο [0033] Parasitic part: 14, 34 [0034] Lower part: 141, 341 [0035] Middle: 142, 342 [0036] Upper: 143, 343 [0037] Support: 15, 35 [0038] Through hole: 16 [0039] Insulation board: 2, 4 099122909 Form number A0101 Page 7 / Total 16 pages 0992040365-0 201203699 [0040] First surface: 21, 41 [0041] Second surface: 22, 42 [0042] Notch: 2 3 [0043] Bump: 231 0992040365-0 099122909 Form No. A0101 No. 8 Page / Total 16 pages