M439287 五、新型說明: 【新型所屬之技術領域】 本創作係有關於-種模組式濾波結構 t '詩網路連接器具有抗電磁干擾的濾波元件。曰 【先前技術】 連接訊產品走向精緻化’以網路用之⑽5 連接器在進行訊號傳輸時 句s對週的電子元件或電路產生雷 造成訊號傳輸發生錯誤,且上述、二) 中並干擾其它無線廣播接收機,進而;: :、匕£域網路,是以便需在連接器内設置有濾波模‘ 工 内設有多個線圈,其線圈是以人 作上並且是以人工焊接在連接端子上 乍電性連接,但此一方法耗費時間及人力成本。 =是,本創作人有感上述缺失之可改善,乃特潛 :研九並配合學理之運用’終於提且 有效改善上述缺失之本創作。 又。十口理且 【新型内容】 :,本::之創作人有鏗於上述缺失,乃搜集相 :::二多方評估及考量’並以從事於此行業累 =二:Γ 斷試作及修改,始設計出此種 月匕避免电磁干擾且減少人工|y 構新型專利者。 A ^骒的模組式濾波結 為了達成上达之目的’本創作提供一種模組式濾 3/10 M439287 波結構,其包括有一絕緣殼體、數個濾波線圈、數個 連接端子及數個晶>1式濾波元件,其中該絕緣殼體設 有依序排列的第一、第二及第三固定壁,且隔出位於該 第一固定壁與該第二固定壁之間的第一容置空間與位 於該第二固定壁與該第三固定壁之間的第二容置空間; 數個第一連接端子固定於該絕緣殼體之該第一固 定壁,每一該第一連接端子具有一向上露出於該第一固 定壁頂面、一朝向該第二固定壁彎折延伸的第一導電端 及向下露出於該第一固定壁的底面的第一焊接端; 數個第二連接端子固定於該絕緣殼體之該第二固 定壁,每一該第二連接端子具有一向上露出於該第二固 定壁頂面的第二接觸端、一朝向該第一連接端子彎折延 伸的第二導電端及一向下露出於該第二固定壁的底面 的第二焊接端; 數個第三連接端子固定於該絕緣殼體之該第三固 定壁,每一該第三連接端子具有一向上露出於該第三固 定壁頂面的第三接觸端及一向下露出於該第三固定壁 的底面的第三焊接端; 數個濾波線圈係位於該絕緣殼體的該第二容置空 間,並具有多條導線電性連接於該些第二及該些第三連 接端子上的該些第二及第三接觸端; 數個晶片式的濾波元件以表面黏著的方式焊接於 該些第一導電端及該些第二導電端上。 藉此,經由上述之結構組成,可節省線圈的使用 ,以晶片式濾波元件來代替線圈,於製程時只需將濾 4/10 M439287 波兀件②於連接端子上,再料錫以點焊的方式將遽 波元件固定在連接端子上來達到組裝之目#,進而減 /人工繞線和人工焊接的步騾以降低製作成本。 ^為使旎更進一步瞭解本創作之特徵及技術内容, 明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】 為達成上述目的及功效,本創作所採用之目的、 構以技術特徵以及其功效,㈣圖就本創作之較佳實 施例詳加說明其特徵與功能如下,俾利完全瞭解。、 請參閱圖!及圖2所示,為本創作之模組式遽波 結構立體分解圖及剖面圖。本實施例之模組式遽波結 構包括有—絕緣殼體卜三組連接端子21,22, 23、四 個濾波線圈31、及四個晶片式濾波元件32。然而,本 ,作可以包括數組連接端+、數個遽波線圈、及數個 晶片式濾波元件,不限於上述的數量。 —絕、緣殼體1在一體成型時,設有依序排列的第一固 ,壁U、第二固定壁12及第三固定壁13,且隔出位於該 第一固定壁11與該第二固定壁12之間第一容置空間π 與位於該第二固定壁12與該第三固定壁13之 二 容置空間16。 一 “。玄些連接端子21,22, 23與該絕緣殼體丨可以是透 過模具射出成型嵌合。其中第—連接端子21於 緣殼體1之該第-㈣壁u。每一第一連接端子21具有 5/10 1上路出於該第一固定壁丨丨頂面,並朝該第二固定辟 彎折延伸的第一導電端212、及向下露出於該第 壁11的底面14的第一焊接端211。 疋 數個第一連接端子2 2固定於該絕緣殼體1之今第一 固^壁12’每一第二連接端子22具有向上露出於^第二 固定壁12頂面的第二接觸端223、朝該第一連接端子 彎折延伸的第二導電端222、及向下露出於該第二固定 壁12的底面14的第二焊接端221。 疋 數個第二連接端子2 3固定於該絕緣殼體1之該第二 固定壁13,每一第三連接端子23具有向上露出於該第: 固定壁13頂面的第三接觸端232、及向下露出於該第: 固定壁13的底面14的第三焊接端231。該些第一連接端 子21與該些第二連接端子22平行,該些第二連接端子= 與該些第三連接端子23平行。 數個濾波線圈31位於該絕緣殼體丨的該第二容置空 間16,每一濾波線圈31具有多條導線311電性連接於= 些第二連接端子22及該些第三連接端子23上的該些第 一接觸端223及第三接觸端232,該些濾波線圈31各包括 一個磁環313及數條纏繞於該磁環313上的多條導線31工 ,每一該導線311具有至少兩個引線端312,該兩個引線 端312分別電性連接至該些第二連接端子22與該些第三 連接鈿子23的s亥些第二接觸端223及第三接觸端232。 請參閱圖3所示,為本創作之模組式濾波結構的立體 組合圖。數個晶片式的濾波元件32以表面黏著的方式焊 接於該些第一導電端212及該些第二導電端222上,該些 6/10 M439287 J片式,皮元件32的底面具有多個焊塾 墊322以表㈣著的方式焊接於該^ -^ 該些第二導電端232。該此 “212與 器,該變壓器具有遽波、整;波元件&為變壓 _ , 刀L 抗電磁波干擾的效果, 慮波㈣31透過該些苐二接觸端挪 電端222與該變壓器電性連接, p 二第一導 模組式濾、波結構之整體^ ’卩可完成本創作 與流程,更可快速大,二裝配置’且可節省加工的時間 更J決速大置的加工製造, 焊接相比,本創作作業效率4之人工 支出及節省組料間等優^批加,更明顯減少人力 故’凊參閱全部附圖 用技術相較,著實存在下列優點··創作使用時’與習 本創作的模組式遽波結構 線圈’於製程時只需將濾波元件設代替 將焊錫以點焊的方々 、連接知子上,再 達到組裝之目的,二^:、疋件固定在連接端子上來 驟以降低f作成本。厂少人工繞線和人工焊接的步 書及圖式内容所為之等;:f構;:凡,創作說明 本創作之範圍内,合予陳明。X ’均丹理皆包含於 f圖式簡單說明】 圖1係本創作之m觀 圖2係本創作之模組式濾、波結構的二 7/1〇 M439287 圖3係本創作之模組式濾波結構的立體組合圖。 【主要元件符號說明】 1 絕緣殼體 11第一固定壁 12第二固定壁 13第三固定壁 14底面 15第一容置空間 -16第二容置空間 21第一連接端子 211第一焊接端 212第一導電端 22第二連接端子 221第二焊接端 222第二導電端 223第二接觸端 23第三連接端子 231第三焊接端 232第三接觸端 31滤波線圈 311導線 ,312引線端 313磁環 3 2晶片式滤波元件 322焊墊 8/10M439287 V. New description: [New technical field] This creation is about a modular filter structure. The t's network connector has anti-electromagnetic interference filter components.曰[Prior Art] The connection product is going to be refined. [10)5 The connector is used for signal transmission. When the signal is transmitted to the electronic components or circuits of the week, the signal transmission error occurs, and the above and two) interfere with each other. Other wireless broadcast receivers, and then:::, domain network, in order to have a filter module in the connector, there are multiple coils in the work, the coils are made by humans and are manually welded The electrical connection is made on the connection terminal, but this method is time consuming and labor intensive. = Yes, the creator feels that the above-mentioned deficiencies can be improved, but the special potential: research and cooperation with the use of academics finally improve and effectively improve the above-mentioned creations. also. Ten mouths and [new content]: This: The creator of this book is contrary to the above-mentioned lacks, is collecting the phase::: Two parties to evaluate and consider 'and to engage in this industry tired = two: 断 trial and modification I have designed this type of patent to avoid electromagnetic interference and reduce the number of artificial patents. A ^ 骒 modular filter junction in order to achieve the purpose of the creation of a modular filter 3/10 M439287 wave structure, including an insulating housing, several filter coils, several connection terminals and several a filter of the type >1, wherein the insulating housing is provided with first, second and third fixed walls arranged in sequence, and the first between the first fixed wall and the second fixed wall is separated The accommodating space and the second accommodating space between the second fixed wall and the third fixed wall; the plurality of first connecting terminals are fixed to the first fixed wall of the insulating housing, each of the first connections The terminal has a first conductive end exposed upwardly on the top surface of the first fixed wall, a first conductive end bent toward the second fixed wall, and a first solder end exposed downwardly on a bottom surface of the first fixed wall; The second connecting terminal is fixed to the second fixing wall of the insulating housing, and each of the second connecting terminals has a second contact end exposed upwardly on the top surface of the second fixing wall, and a second connecting end is bent toward the first connecting terminal An extended second conductive end and a downward exposed surface a second soldering end of the bottom surface of the fixed wall; a plurality of third connecting terminals are fixed to the third fixing wall of the insulating housing, and each of the third connecting terminals has a first upwardly exposed surface of the third fixed wall a third contact end and a third soldering end exposed downwardly on a bottom surface of the third fixed wall; a plurality of filter coils are located in the second receiving space of the insulating housing, and have a plurality of wires electrically connected to the plurality of wires The second and third contact terminals of the second and the third connection terminals; and the plurality of chip-type filter elements are soldered to the first conductive ends and the second conductive ends by surface adhesion. Thereby, through the above structural composition, the use of the coil can be saved, and the coil type filter element is used instead of the coil. In the process, only the 4/10 M439287 wave element 2 is filtered on the connection terminal, and the tin is spot-welded. The method of fixing the chopper component on the connection terminal to achieve assembly #, and then subtracting/manual winding and manual welding steps to reduce the manufacturing cost. In order to further understand the features and technical contents of this creation, please refer to the following detailed description and drawings of the present invention. However, the attached drawings are for reference and explanation only, and are not intended to limit the creation. [Embodiment] In order to achieve the above objectives and effects, the purpose, structure, and efficacy of the present application are as follows. (4) The detailed description of the preferred embodiment of the present invention is described below, and its features and functions are as follows. Please see the picture! And FIG. 2 is a perspective exploded view and a cross-sectional view of the modular chopper structure of the present invention. The modular chopper structure of this embodiment comprises three sets of connection terminals 21, 22, 23, four filter coils 31, and four chip filter elements 32. However, the present invention may include an array connection terminal +, a plurality of chopper coils, and a plurality of chip filter elements, and is not limited to the above-described number. The first and second fixed walls 12, the second fixed wall 12 and the third fixed wall 13 are arranged in series, and the first fixed wall 11 and the first fixed wall 11 are separated from each other. The first accommodating space π between the two fixed walls 12 and the two accommodating spaces 16 of the second fixed wall 12 and the third fixed wall 13 are disposed. A plurality of connecting terminals 21, 22, 23 and the insulating housing 丨 may be injection molded through the mold. The first connecting terminal 21 is at the first (fourth) wall u of the edge housing 1. Each first The connecting terminal 21 has a 5/10 1 upper conductive surface 212 extending from the first fixed wall top surface and extending toward the second fixed opening, and a bottom surface 14 extending downwardly from the first wall 11 a first soldering end 211. A plurality of first connecting terminals 2 2 are fixed to the first insulating wall 12' of the insulating housing 1; each of the second connecting terminals 22 has an upwardly exposed top surface of the second fixing wall 12 a second contact end 223 of the surface, a second conductive end 222 bent toward the first connection terminal, and a second soldering end 221 exposed downwardly to the bottom surface 14 of the second fixed wall 12. The connecting terminal 23 is fixed to the second fixing wall 13 of the insulating housing 1 , and each of the third connecting terminals 23 has a third contact end 232 that is exposed upwardly on the top surface of the first fixed wall 13 and is exposed downwardly. The third welding end 231 of the bottom surface 14 of the fixed wall 13. The first connecting terminals 21 are parallel to the second connecting terminals 22 The second connection terminals are parallel to the third connection terminals 23. The plurality of filter coils 31 are located in the second accommodating space 16 of the insulative housing ,, and each of the filter coils 31 has a plurality of wires 311 electrically connected. The filter coils 31 each include a magnetic ring 313 and a plurality of wires wound around the second connection terminal 22 and the first contact end 223 and the third contact end 232 of the third connection terminals 23 A plurality of wires 31 are formed on the ring 313. Each of the wires 311 has at least two lead ends 312. The two lead ends 312 are electrically connected to the second connecting terminals 22 and the third connecting pins 23, respectively. The second contact end 223 and the third contact end 232 are shown in Fig. 3. Referring to Fig. 3, a three-dimensional combination diagram of the modular filter structure of the present invention. Several wafer type filter elements 32 are adhered on the surface. Soldering on the first conductive end 212 and the second conductive ends 222, the 6/10 M439287 J-piece, the bottom surface of the leather element 32 has a plurality of solder pads 322 soldered to the surface (4) ^ -^ the second conductive ends 232. The "212 and the transformer, the transformer has chopping, The wave component & is a transformer _, the effect of the knife L against electromagnetic interference, the wave (4) 31 is electrically connected to the transformer through the second contact terminal 222, p 2 first guide module filter, wave The whole structure of the structure ^ '卩 can complete this creation and process, but also can be fast and large, two installation configuration' and can save processing time and J speed and large processing and manufacturing, compared with the welding, the labor efficiency of the creation work 4 And saving the batch materials and other excellent sums, and more obvious reduction of manpower. 凊 See all the drawings with the technology, the following advantages exist. · The use of the modular chopper structure coil created with the text In the process of the process, it is only necessary to set the filter component instead of soldering the spot to the spot, and then to the purpose of assembly, and the assembly is fixed on the connection terminal to reduce the cost. The steps of the manual and the manual welding and the content of the drawings are the same;; f construction;: Where, the description of the creation within the scope of this creation, combined with Chen Ming. X 'Jun Dan Li is included in the simple description of f schema. Figure 1 is the m view of the creation. Figure 2 is the modular filter and wave structure of the creation. 2 7/1〇M439287. Figure 3 is the module of this creation. A three-dimensional combination of the filter structure. [Main component symbol description] 1 Insulating housing 11 first fixing wall 12 second fixing wall 13 third fixing wall 14 bottom surface 15 first accommodating space-16 second accommodating space 21 first connecting terminal 211 first soldering end 212 first conductive end 22 second connection terminal 221 second soldering end 222 second conductive end 223 second contact end 23 third connection terminal 231 third soldering end 232 third contact end 31 filter coil 311 wire, 312 wire end 313 Magnetic ring 3 2 chip filter element 322 pad 8/10