M377710 五、新型說明: 【新塑所屬之技術領域】 本新变是有關於一種電子裝置’且特別是有關於一種 具全球定位系統功能之電子裝置。 【先前技術】 第1圖繪示現有技術中的GPS天線模組之結構示意 圖。傳統全球定位系統(Global Positioning System,以下M377710 V. New description: [Technology field of Xinsu] This new change is about an electronic device' and especially related to an electronic device with global positioning system function. [Prior Art] Fig. 1 is a schematic view showing the structure of a GPS antenna module in the prior art. Traditional Global Positioning System (Global Positioning System, below)
簡稱GPS)產品具有一獨立之GPS天線模組10 〇 GPS天線 模組10主要由一 GPS天線11、一 GPS功能電路12及一 屏蔽件(shielding) 13所組成。GPS天線11疊合於GpS 功能電路12之一側,屏蔽件13包覆GPS功能電路12,用 以隔離GPS功能電路12。另外,GPS功能電路12連接GPS 天線11,並藉由一實體導線14連結GPS產品之一主板(圖 中未示),用以傳遞GPS天線11所接收之訊息。 然而,傳統之GPS天線模組1〇仍存在有些許的缺蔚 如下,(1)由於GPS天線模組1〇通常位於GPS產品之‘截 體週邊,其厚度會增加產品外型的尺寸,違背現今產品& 型輕薄短小的驅勢;(2) GPS天線11本身無任何杜棋°° 與主板或殼體進行固定,可能導致GPS天線u自°主板$ 離;(3)實體導線14需跨接至主板遠離Gps天線模組= 之一端,增加了 GPS產品於組裝時内部之理線問題以 (4)實體導線14也可能於傳輸GPS天線訊號之過程 訊號損耗的問題。 4 M377710 【新型内容】 本新型之一目的在揭露一種具全球定位系統(以下簡 稱GPS)功能之電子裝置,藉由簡化傳統GPS天線模組丄 結構’以有效縮減GPS天線模組整體之尺寸,進而縮小電 子裝置之尺寸,或提供電子裝置可利用之空間,同時,簡 化傳統GPS天線模組之過程,也可節省對應之材料成本。 本新型之另一目的在揭露一種具全球定位系統 功能之電子裝置,提供GPS天線與主板之固定結構,強化 φ 兩者間之定位與結合。 本新型之又一目的在揭露一種具全球定位系統(Gps) 功能之電子裝置’藉由省略傳統GPS天線模組之實體導 線,簡化電子裝置於組裝時内部之理線問題,同時,解決 實體導線於傳輸GPS天線訊號之過程之訊號損耗的問題。 此電子裝置包含一電路板、一 GPS天線、一固定架及 一導接架。電路板包括電性相接之主電路區及GPS功能電 路區。GPS天線具有一資訊魏送接腳。固定架位於電路板 鲁之邊緣’並支撐GPS天線。導接架位於電路板上,接觸資 訊餽送接腳’並電性導接資訊餽送接腳與GPS功能電路區。 依據本新型一實施例’固定架包括一片體、多個凸緣 及多個第一固定凸耳。片體倚靠於電路板之邊緣。凸緣分 別設於片體之側邊’並共同朝GPS天線之方向延伸,用以 握持GPS天線。第一固定凸耳分別固定於電路板上。第一 固定凸耳更進一步被固設於電路板之一接地部,並與接地 部電性連接。 此實施例中,固定架更包括至少一第二固定凸耳,第 5 M377710 二固定凸耳被一固定栓鎖固於電路板上。 依據本新型之另一實施例,資訊餽送接腳呈枉狀’自 GPS天線穿過片體’並與GPS功能電路區之間保持一間 距。此外,導接架於一實施例可位於此間距中,並分別電 性連接GPS功能電路區與資訊魏送接腳。 依據本新型之又一實施例’導接架包括一 L字形本 體。L字形本體之一端具有一接觸部,接觸部被固定於資 訊餽送接腳與GPS功能電路區之間。£字形本體之另端具 φ有一定位部,定位部具有一開口,開口對準資訊餽送接腳, 並被資訊餽送接腳通過。開口進一步為一封閉式之開孔或 開放式之破口。 【實施方式】 以下將以圖示及詳細說明清楚說明本新型之精神,如 熟悉此技術之人員在瞭解本新型之實施例後,當可由本新 塑所教示之技術,加以改變及修飾,其並不脫離本新型之 φ 精神與範圍。 , 第2圖繪示依據本新型一實施例的一種具GpS功能之 電子裝置的分解圖。第3圖繪示依據第2圖具Gps功能之 電子裝置的組合圖。 本新型揭露一種具全球定位系統(Gps)功能之電子 裝置L此電子裝置100包含一電路板110、一 GPS天線120、 一固定架130及一導接架16〇。電路板11〇包括電性相接 之主電路區U2及GPS功能電路區114。導接架16〇位於 電路板上’接觸資訊餽送接腳122。GPS天線120朝外伸 6 M377710 出一資訊餽送接腳122,資訊餽送接腳122接觸導接架 160’並經由導接架16〇與GPS功能電路區電性連接。固 定架130固設於電路板11〇之邊緣,並支撐Gps天線1扣。 如此,藉由簡化傳統GPS天線120模組之結構,將 GPS功能電路整合至原有之電路板11〇上,進而縮減傳統 GPS天線120模組整體之尺寸,提供改善電子裝置1〇〇尺 寸或提供電子裝置100其餘可利用空間的機會: 本新型之-實施例中,電子裝置1〇〇泛稱所有具有Gps 天線120之裝置,例如GPS衛星導航裴置、行動電話、手 提式電腦等等。GPS天線no泛稱所有業界之Gps天線12〇 模組中之天線,以便自空中進行訊號之接收或發射。⑽ 功能電路區m泛稱具有進行GPSq所必制元件及電 路,例如解/編竭晶片、訊號加強/穩定單 電路區114係整合於電路板110 77 2 γ丄/ 上為電路板110之一部 份,並藉由印刷走線電性連接主電路區112。主電路區112 泛稱所有無關於GPS功能電路區114之部产 本=里之另實施例中,固定架130係於一片體⑽ 上設有多個凸、緣Μ6及多個第一固定凸耳148。此些凸緣 146分別設於片體14G之侧邊,並共同朝同-方向(例如 GPS天線120之方向)延伸,以便共同握持GPS天線no 於片體HO之同-面上。此些第一固定凸耳148,例如設 於片體H0之-側,並朝遠離GPS天線12〇之方向彎折, 以便固設於電路板no上。 當固定架⑼握持GPS天線120,並固設於電路板110 之邊緣時,片體M0倚靠於電路板11〇之側邊,第一固定 [77710 凸耳148之末端分別被焊接至電路板110之一接地部116, 以實現固定架130於電路板11()上支撐GPS天線120,並 同時導接訊號至接地部116。 除上述方式’固定架130亦可以其他例如焊接或綑綁 之方式支撐GPS天線120。 片體140更包括一貫穿孔m2及一第二固定凸耳150, 貫穿孔142對應GPS天線120之資訊魏送接腳122,以供 資訊餽送接腳122自GPS天線120穿過貫穿孔142,而電 • 性連接至GPS功能電路區1H上,且不接觸資訊餽送接腳 122。第二固定凸耳150藉由固定栓180 (如螺絲)鎖固於 電路板110上,以提供更牢固之力量。 具體而言,資訊餽送接腳122呈凸出之柱狀,當資訊 餽送接腳122自GPS天線120穿過貫穿孔142而位於GPS 功能電路區114上方時,資訊餽送接腳122與GPS功能電 路區114保持一間距。如此,本新型又一實施例中,導接 架160位於此間距中,被銲接於資訊餽送接腳122與GPS φ 功能電路區114之間。 導接架160更進一步包括一呈L字形本體170,其兩 端分別為一接觸部172及一定位部176 »接觸部172設於 GPS功能電路區114上,與GPS功能電路區114電性相接, 例如包括一朝資訊餽送接腳122凸起之凸塊174,凸塊174 被焊接至資訊餽送接腳122。定位部176具有一開口 142, 開口 142對準資訊魏送接腳122,以供資訊魏送接腳122 穿過’進而限制資訊餽送接腳122之位置。開口 142不限 是否為封閉式之開孔178或開放式之破口。 8The GPS product has a separate GPS antenna module. 10 〇 GPS Antenna The module 10 is mainly composed of a GPS antenna 11, a GPS function circuit 12 and a shielding 13 . The GPS antenna 11 is superimposed on one side of the GpS function circuit 12, and the shield 13 encloses the GPS function circuit 12 for isolating the GPS function circuit 12. In addition, the GPS function circuit 12 is connected to the GPS antenna 11 and is connected to a main board (not shown) of the GPS product by a physical wire 14 for transmitting the message received by the GPS antenna 11. However, the traditional GPS antenna module 1〇 still has some shortcomings as follows: (1) Since the GPS antenna module 1〇 is usually located at the 'pectoral periphery of the GPS product, its thickness will increase the size of the product, and violate the size. Today's products & type light and short drive; (2) GPS antenna 11 itself does not have any chess ° ° fixed with the motherboard or housing, may cause the GPS antenna u from ° motherboard $ away; (3) physical wire 14 need Jumping to the motherboard away from the Gps antenna module = one end increases the internal wiring problem of the GPS product during assembly. (4) The physical wire 14 may also be a problem of signal loss during the transmission of the GPS antenna signal. 4 M377710 [New Content] One of the purposes of the present invention is to disclose an electronic device having a global positioning system (hereinafter referred to as GPS) function, which can effectively reduce the overall size of the GPS antenna module by simplifying the structure of the conventional GPS antenna module. In turn, the size of the electronic device can be reduced, or the space available for the electronic device can be provided, and at the same time, the process of the conventional GPS antenna module can be simplified, and the corresponding material cost can also be saved. Another object of the present invention is to disclose an electronic device having a global positioning system function, which provides a fixed structure of a GPS antenna and a main board, and strengthens the positioning and combination between φ. Another object of the present invention is to disclose an electronic device with Global Positioning System (Gps) function. By omitting the physical wires of the conventional GPS antenna module, the internal wiring problem of the electronic device during assembly is simplified, and at the same time, the physical wire is solved. The problem of signal loss in the process of transmitting GPS antenna signals. The electronic device comprises a circuit board, a GPS antenna, a fixing frame and a guiding frame. The circuit board includes a main circuit area electrically connected and a GPS function circuit area. The GPS antenna has an information feed pin. The mount is located on the edge of the board and supports the GPS antenna. The lead frame is located on the circuit board and contacts the information feed pin 'and electrically connects the information feed pin to the GPS function circuit area. According to an embodiment of the present invention, the holder includes a one-piece body, a plurality of flanges, and a plurality of first fixing lugs. The sheet rests on the edge of the board. The flanges are respectively disposed on the sides of the sheet and extend together toward the GPS antenna for holding the GPS antenna. The first fixing lugs are respectively fixed on the circuit board. The first fixing lug is further fixed to a grounding portion of the circuit board and electrically connected to the grounding portion. In this embodiment, the fixing frame further comprises at least one second fixing lug, and the fifth M377710 two fixing lugs are locked on the circuit board by a fixing bolt. In accordance with another embodiment of the present invention, the information feed pin is in the shape of a ’' from the GPS antenna through the sheet' and maintains a distance from the GPS functional circuit area. In addition, the guiding frame can be located in the spacing in an embodiment, and electrically connected to the GPS function circuit area and the information transmission pin respectively. According to still another embodiment of the present invention, the guide frame includes an L-shaped body. One end of the L-shaped body has a contact portion that is fixed between the information feed pin and the GPS function circuit area. The other end of the k-shaped body has a positioning portion, and the positioning portion has an opening, the opening is aligned with the information feeding pin, and is passed by the information feeding pin. The opening is further a closed opening or an open opening. BRIEF DESCRIPTION OF THE DRAWINGS The spirit of the present invention will be clearly described in the following description and detailed description, and those skilled in the art, after having understood the embodiments of the present invention, may be modified and modified by the teachings of the present invention. It does not deviate from the spirit and scope of this new type. FIG. 2 is an exploded view of an electronic device having a GpS function according to an embodiment of the present invention. Fig. 3 is a combination diagram of an electronic device having a GPS function according to Fig. 2. The electronic device 100 includes a circuit board 110, a GPS antenna 120, a fixing frame 130 and a guiding frame 16A. The circuit board 11A includes a main circuit area U2 and a GPS function circuit area 114 that are electrically connected. The lead frame 16 is located on the circuit board 'contact information feed pin 122. The GPS antenna 120 extends outward. 6 M377710 A information feed pin 122 is received. The information feed pin 122 contacts the guide frame 160' and is electrically connected to the GPS function circuit via the guide frame 16A. The fixing frame 130 is fixed on the edge of the circuit board 11 and supports the Gps antenna 1 buckle. In this way, by simplifying the structure of the conventional GPS antenna 120 module, the GPS function circuit is integrated on the original circuit board 11〇, thereby reducing the overall size of the conventional GPS antenna 120 module, and providing an improvement in the size of the electronic device. Providing opportunities for the remaining available space of the electronic device 100: In the present invention, the electronic device 1 is generally referred to as all devices having a GPS antenna 120, such as a GPS satellite navigation device, a mobile phone, a portable computer, and the like. GPS antennas are generally referred to as antennas in all industry's Gps antennas 12〇 modules for signal reception or transmission from the air. (10) The functional circuit area m is generally referred to as having the components and circuits necessary for GPSq, such as the solution/compilation chip, and the signal enhancement/stabilization single circuit area 114 is integrated on the circuit board 110 77 2 γ丄/ on one of the circuit boards 110. And electrically connected to the main circuit region 112 by a printed trace. The main circuit area 112 is generally referred to as a part of the GPS function circuit area 114. In another embodiment, the holder 130 is provided on the body (10) with a plurality of protrusions, a flange 6 and a plurality of first fixing lugs. 148. The flanges 146 are respectively disposed on the side of the sheet body 14G and extend together in the same direction (for example, the direction of the GPS antenna 120) to collectively hold the GPS antenna no on the same plane of the sheet HO. The first fixing lugs 148 are, for example, disposed on the side of the sheet H0 and bent away from the GPS antenna 12's so as to be fixed to the circuit board no. When the fixing frame (9) holds the GPS antenna 120 and is fixed on the edge of the circuit board 110, the body M0 leans against the side of the circuit board 11〇, and the first fixing [the end of the 77710 lug 148 is soldered to the circuit board, respectively). One of the grounding portions 116 of the 110 is configured to support the GPS receiver 120 on the circuit board 11 () and simultaneously connect the signal to the ground portion 116. In addition to the above-described manner, the holder 130 can also support the GPS antenna 120 by other means such as soldering or bundling. The sheet body 140 further includes a permanent through hole m2 and a second fixing lug 150. The through hole 142 corresponds to the information transmitting pin 122 of the GPS antenna 120 for the information feeding pin 122 to pass through the through hole 142 from the GPS antenna 120. The electrical connection is made to the GPS function circuit area 1H without contacting the information feed pin 122. The second fixing lug 150 is locked to the circuit board 110 by a fixing bolt 180 (such as a screw) to provide a stronger force. Specifically, the information feed pin 122 has a convex column shape. When the information feed pin 122 is located above the GPS function circuit area 114 from the GPS antenna 120 through the through hole 142, the information feed pin 122 is The GPS function circuit area 114 maintains a pitch. Thus, in still another embodiment of the present invention, the guide frame 160 is located in this pitch and is soldered between the information feed pin 122 and the GPS φ functional circuit region 114. The lead frame 160 further includes an L-shaped body 170. The two ends are respectively a contact portion 172 and a positioning portion 176. The contact portion 172 is disposed on the GPS function circuit region 114 and electrically connected to the GPS function circuit region 114. For example, a bump 174 protruding toward the information feed pin 122 is included, and the bump 174 is soldered to the information feed pin 122. The positioning portion 176 has an opening 142 that is aligned with the information feed pin 122 for the information transmission pin 122 to pass through and thereby limit the position of the information feed pin 122. The opening 142 is not limited to whether it is a closed opening 178 or an open opening. 8
Opt 〇PS 120 改善電子展置100之尺寸,咬提板110上’進而 用之空門二 丁次如供電子裝置100更多可利 部之理且提=裝天=置100時實體導線於内 鼓 ^ GPS天線120訊號之傳輸訊號品質。 述本方式的詳述’是希望能更加清楚描 的對f新型的權利要求範圍加以限制。相反地,其目 利能涵蓋各種改變及具相等性的安排于本新型的權 >範圍内。因此,本新型的權利要求範圍應該根據上 〜的說明作最寬廣的解釋,以致使其涵蓋所有可能的改變 以及具相等性的安排。 【圖式簡單說明】 处為讓本新型之上述和其他目的、特徵、優點與實施例 能更明顯易懂’所附圖式之說明如下: 第1圖繪示現有技術中的GPS天線模組之結構示意 圖。 第2圖繪示依據本新型一實施例的一種具Gps功能之 電子裝置的分解圖。 第3圖繪示依據第2圖具GPS功能之電子裝置的組合 圖。 【主要元件符號說明】 M377710 10 : GPS天線模組 140 11 : GPS天線 142 : 12 : GPS功能電路 146 : 13 :屏蔽件 148 : 14 :實體導線 150 : 100 :電子裝置 160 : 110 :電路板 170 : 112 :主電路區 172 : 114 : GPS功能電路區 174 : 116 :接地部 176 : 120 : GPS 天線 178 : 122 :資訊媿送接腳 180 : 130 :固定架 :片體 貫穿孔 凸緣 第一固定凸耳 第二固定凸耳 導接架 L字形本體 接觸部 凸塊 定位部 開孔 固定栓Opt 〇PS 120 improves the size of the electronic display 100, and the occlusion plate 110 is used for the second time. For example, the electronic device 100 can be used for more information. Drum ^ GPS antenna 120 signal transmission signal quality. The detailed description of the present mode is intended to provide a clearer description of the scope of the novel claims. On the contrary, its purpose is to cover various changes and equivalences within the scope of the present invention. Therefore, the scope of the claims of the present invention should be construed in the broadest description of the description BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention can be more clearly understood. The description of the drawings is as follows: Figure 1 shows a prior art GPS antenna module. Schematic diagram of the structure. 2 is an exploded view of an electronic device with a GPS function according to an embodiment of the invention. Fig. 3 is a combination diagram of an electronic device having a GPS function according to Fig. 2. [Main component symbol description] M377710 10 : GPS antenna module 140 11 : GPS antenna 142 : 12 : GPS function circuit 146 : 13 : Shield 148 : 14 : Physical wire 150 : 100 : Electronic device 160 : 110 : Circuit board 170 : 112 : Main circuit area 172 : 114 : GPS function circuit area 174 : 116 : Grounding part 176 : 120 : GPS antenna 178 : 122 : Information feed pin 180 : 130 : Fixing frame : Sheet through hole flange first fixed convex Ear second fixed lug guide L-shaped body contact portion bump positioning portion opening fixing bolt