M381904 五、新型說明: 【新塑所屬之技術領域】 本創作係為一種天線裝置,尤指一種將天線幅射部 與反射部製作在同物件上,可降低生產成本與縮短生產工 時之天線裝置。 _【先前技術】 Φ 對於無線通訊產品而言,用以發射與接收電磁訊號 之天線,是不可或缺的關鍵元件。天線依據其發射與接收 方向’大致可區分為全向性天線(omni-directional antenna) 及指向性天線(directional antenna)。 以指向性天線裝置為例,係藉由一反射板來反射天 線所發射之電磁波’以導引電磁波朝一固定方向前進,藉 以增加天線裝置之指向性(directivity)及增益值(gain)。 目前習用之天線裝置,係於天線基板上設置複數個 φ 透孔’並於反射板上設有複數個對應於透孔之螺柱,藉由 -多個螺絲分別穿設過天線基板之透孔,並且鎖合於螺柱 上,使得天線基板固定於反射板上。 習用以螺絲鎖合固定天線基板與反射板之方式,由 於反射板上設置有多個螺柱,因此反射板必須設計具有一 定的厚度’方可穩定地承載多個螺柱,並且避免反射板因 負載過重而變形’但卻也導致製造廠商所必須負擔的製造 成本提高。 另外,於裴載天線基板的過程中,使用者必須逐一 M381904 且重複地進行嫘栓鎖合的動作,相當費時繁複,於 裝流程上並不便利,且重複地螺栓鎖合動作,掩^ 、、且 因素來影響天線裝置之指向性。再者,過多的螺杈 反射板過多的面積’使得無線通訊產品之整許辦# ^ 據 型化,且造成製造成本的增加,無法滿足目前使用微 無線通訊產品必須輕薄短小,並同時兼具良好㉟ $ 要求。 从犯的 【新型内容】 為解決此一問題,在本創作中,我們提出一 + 線幅射部與反射部製作在同物件上,可降低生產 = 短生產工時之天線裝置。 、縮 為達上述目的,本創作之天線裝置至少包含 一 ,射部、一反射部以及一連接部,該天線幅射部設: 一較長槽孔、一較短槽孔以及—饋入點,該又 線幅射部係平行設置於連接部之兩端,使^遠桩:~ 5亥天 =部與反射部,且該天線;===天 低因素的干擾,達到指向性 亚降低生產成本與縮短生產工時。 Ϊ者·^較長槽孔其用於產生該天線裝置之第—操㈣ 藉此V::槽孔其用於產生該天線裝置之第二操作頻帶, ^帶之^J於無線11域網路系統低頻(2.4GHZ)及高頻雙 M381904 【實施方式】 為使#審查貴方便簡捷瞭解本創作之其他特徵内 容與優點及其所達成之功效㈣更為_現,㈣本創作配 合附圖,詳細說明如下: 請參閱第-圖及第二圖所示,本創作之天線裝置卜其至 少包含有: ' 一天線幅射部11’該天線幅射部^設有一較長槽孔 m、一較短槽孔112以及一饋入點113,該饋入點^ 係設於該較長槽孔111或較長槽孔112中央位置處. 一反射部12 ’該反射部12係與該天線幅射部平行役 置,該天線幅射部11與反射部12之高度相同; 又 -連接部13,該連接冑13係設於該天線幅射冑u與反 射部12之間,用以連接天線幅射部U與反射部12了且 該連接部13周圍設有複數固定部131,用以設置於基板2 上。 ι 其中’該天線裝置1之天線幅射部U盘反射 係由-金屬板片-體彎折’而該反射部12係藉σ η與該天線幅射# 11开>成固定間距,且天線幅射:广 藉由與其平行之反射板來反射天線所發射之電磁波,°以^ 引電磁波朝一固定方向前進’藉以増加天線裝置之护d導 (directivity)及增益值(gain) ’並可減少其他外在因^向味 擾’達到指向性的特點’並降低生產成本與縮短生$干 時;再者’該天線裝置1所具有之較長槽孔可以產生2 (低頻)之操作頻帶,較短槽孔以及第二(高頻)操作頻帶; M381904 雙頻帶之操作。 另外,該反射部12末端進一步連接有一微調部14, 該微調部14之長度係大於連接部13之長度,如第三圖及 第四圖所不,該微調部14係朝天線幅射部11方向並朝外 側延伸,而該微調部14與該天線幅射部u形成一開口 15其中,該微調部14係與該反射部12形成一夾角R, 藉由該失角R之角度大小可微調天線裝置所產生頻帶高 低’如第五圖所示係為夾角r不同角度(R= 〇〜3〇度) 下對於頻率之影響,當夾角R之角度較大時,可越偏向 面頻,夾角R之角度較小時,可越偏向低頻。 當然’可進一步設有一基板以供設置複數天線裝置, 而可應用於多接收多傳輸技術(Multi -input Multi-output , ΜΙΜΟ)中,如第六圖所示,該基板2上設置有三個天線 裝置1 ’各天線裝置1係排列成一三角形,且相鄰天線裝 置1間之夾角係為60度’可達到全向性效果,亦可增加 天線之接收效果’亦可對客戶需求來作各天線裝置之位置 調整。 綜上所述,本創作提供一較佳可行之天線裝置,爰依 法提呈新型專利之申請;再者,本創作之技術内容及技術 特點已揭不如上’'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 請專利範圍所涵蓋。 M381904 【圖式簡單說明】 第一圖係為本創作中天線裝置第一實施例之結構立體圖。 第二圖係為本創作中天線裝置之結構分解圖。 第三圖係為本創作中天線裝置第二實施例之結構立體圖。 结四圖係為本創作中天線裝置第二實施例之結構示意圖。 第五圖係為本創作中不同夾角角度之電氣測試示意圖。 第六圖係為本創作中天線裝置應用於ΜΙΜΟ之結構示意 圖。 【主要元件符號說明】 天線裝置1 天線幅射部11 較長槽孔111 短槽孔112 饋入點113 反射部12 連接部13 固定部131 微調部14 開口 15M381904 V. New description: 【Technology field of Xinsu】 This creation is an antenna device, especially an antenna that makes the antenna radiation and reflection parts on the same object, which can reduce production cost and shorten production time. Device. _[Prior Art] Φ For wireless communication products, the antenna for transmitting and receiving electromagnetic signals is an indispensable key component. The antenna can be roughly distinguished into an omni-directional antenna and a directional antenna according to its transmission and reception directions. Taking a directional antenna device as an example, the electromagnetic wave emitted by the antenna is reflected by a reflecting plate to guide the electromagnetic wave toward a fixed direction, thereby increasing the directivity and gain of the antenna device. At present, the conventional antenna device is provided with a plurality of φ through holes on the antenna substrate, and a plurality of studs corresponding to the through holes are disposed on the reflector, and the through holes of the antenna substrate are respectively passed through the plurality of screws. And locked to the stud so that the antenna substrate is fixed to the reflector. In order to fix the antenna substrate and the reflector by screwing, since the reflector is provided with a plurality of studs, the reflector must be designed to have a certain thickness to stably carry the plurality of studs, and to avoid the reflector The load is too heavy and deformed' but it also leads to an increase in manufacturing costs that manufacturers must bear. In addition, in the process of loading the antenna substrate, the user must repeatedly perform the interlocking operation of the M381904 one by one, which is quite time consuming and complicated, and is not convenient in the loading process, and repeatedly bolts and locks the action, masking, And factors affect the directivity of the antenna device. Moreover, the excessive area of too many snail reflectors makes the wireless communication products' simplifications, and the manufacturing cost increases, which cannot meet the current requirements. Micro-wireless communication products must be light and short, and at the same time Good 35 $ required. The accomplice [new content] In order to solve this problem, in this creation, we propose that the one-line radiation portion and the reflection portion are fabricated on the same object, which can reduce the production of the antenna device with short production hours. The antenna device of the present invention comprises at least one of a shooting portion, a reflecting portion and a connecting portion. The antenna radiating portion is provided with: a longer slot, a shorter slot and a feeding point. The parallel line radiating portion is disposed in parallel at both ends of the connecting portion, so that the far-end pile: ~ 5 haitian = part and the reflecting part, and the antenna; === disturbance of the low-day factor, achieving a directional decrease Production costs and production hours are reduced. The longer slot is used to generate the antenna device (4). The V:: slot is used to generate the second operating band of the antenna device, and the band is used in the wireless 11 domain network. Low-frequency system (2.4GHZ) and high-frequency dual M381904 [Embodiment] In order to make it easier to understand the other features and advantages of this creation and the effects achieved by it (4), _ now, (4) this creation with the drawing The detailed description is as follows: Please refer to the first and second figures, the antenna device of the present invention includes at least: 'one antenna radiating portion 11', the antenna radiating portion is provided with a longer slot m, a short slot 112 and a feed point 113, the feed point is disposed at a central position of the longer slot 111 or the longer slot 112. A reflector 12' the reflector 12 is coupled to the antenna The radiating portions are arranged in parallel, and the antenna radiating portion 11 and the reflecting portion 12 have the same height; and a connecting portion 13 is disposed between the antenna radiating frame u and the reflecting portion 12 for connecting The antenna radiating portion U and the reflecting portion 12 are disposed around the connecting portion 13 and are provided with a plurality of fixing portions 131 for being disposed on the substrate 2. ι where 'the antenna portion of the antenna device 1 is reflected by the - metal plate-body bending and the reflecting portion 12 is fixed at a fixed distance from the antenna radiation #11> Antenna radiation: The electromagnetic wave emitted by the antenna is reflected by the reflector parallel thereto, and the electromagnetic wave is forwarded in a fixed direction to increase the directivity and gain of the antenna device. Reducing other external factors that cause directional disturbance 'to achieve directivity' and reduce production costs and shorten the production cost; and further, the longer slot of the antenna device 1 can generate 2 (low frequency) operating band , shorter slot and second (high frequency) operating band; M381904 dual band operation. In addition, a fine adjustment portion 14 is further connected to the end of the reflection portion 12, and the length of the fine adjustment portion 14 is greater than the length of the connection portion 13. As shown in the third and fourth figures, the fine adjustment portion 14 is directed toward the antenna radiation portion 11. The direction of the fine adjustment portion 14 forms an opening 15 with the antenna portion u, and the fine adjustment portion 14 forms an angle R with the reflection portion 12, and the angle of the angle of deviation R can be finely adjusted. The frequency band generated by the antenna device is as shown in the fifth figure. The angle is different from the angle (R = 〇~3〇). For the influence of the frequency, when the angle of the angle R is large, the angle can be biased to the face frequency. When the angle of R is small, the more it is biased toward the low frequency. Of course, a substrate may be further provided for providing a plurality of antenna devices, and may be applied to a multi-input multi-output (ΜΙΜΟ) system. As shown in FIG. 6, the substrate 2 is provided with three antennas. Device 1 'each antenna device 1 is arranged in a triangle, and the angle between adjacent antenna devices 1 is 60 degrees 'to achieve the omnidirectional effect, and can also increase the receiving effect of the antenna' can also be used for each antenna Position adjustment of the device. In summary, this creation provides a better and feasible antenna device, and submits a new patent application according to law; furthermore, the technical content and technical features of this creation have not been revealed as above. However, those familiar with the technology still It is possible to make various substitutions and modifications based on the disclosure of this creation 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 patent claims. M381904 [Simple description of the drawings] The first figure is a perspective view of the structure of the first embodiment of the antenna device in the present invention. The second figure is an exploded view of the structure of the antenna device in the present creation. The third figure is a perspective view of the structure of the second embodiment of the antenna device in the present creation. The fourth diagram is a schematic structural view of the second embodiment of the antenna device in the present invention. The fifth picture is a schematic diagram of the electrical test of different angles in the creation. The sixth figure is a schematic diagram of the structure of the antenna device applied to the crucible in the present creation. [Description of main component symbols] Antenna device 1 Antenna radiation portion 11 Long slot 111 Short slot 112 Feed point 113 Reflecting portion 12 Connecting portion 13 Fixing portion 131 Fine adjustment portion 14 Opening 15