M354895 *八、新型說明: 【新型所屬之技術領域】 本創作是有騎-種電子雜元件及其接合結構,_是有關於在電子傳 輸兀件之導體上設有能與連接器產生干涉之凹槽之電子傳輸元件及其接合結 構。 ’【先前技術】 • 按’連接器係一種以電氣方式連接電線、電路板和其他電路元件的連接裝 置。因此,廣泛地運麟吾人生活周遭之各種電子產品,例如筆記本型電腦 個人數位助理器(PDA)等。 一般的連接H係職於魏板上,俾其連接軒能路板上經電路佈 局之接觸端鋪’以形成電氣連接,然而在某些運用上,連接器係作為固定另 -電路元件,例如S1定軟性排線_途。因此,連接_介於軟性排線及—印 刷電路板之間,俾作為電氣訊號之轉接。 Φ 傳統的軟性排線’係、由絕緣層包覆平行排列之複數導體所構成,且複數導 體之端點係外露於絕緣層,此些導體之端點與連接器内之導電端子相接觸,以 •達到紐導通的絲,細’由絲性排狀導齡聽呈平坦表面狀,與其 接觸之導電端子無法準確地定位與固持此些導體,因此軟性排線容易從連接器 中鬆動而脫落,使電氣訊號無法因接觸而導通。 有鑑於習知技藝之各項問題,為了能夠兼顧解決之,本創作人基於多年從 事研究開發與料實務纖,翻-種電?傳輸元件及其接合結構,以作為改 善上述缺點之實現方式與依據。 5 M354895 【新型内容】 有鑑於此,根據本創作之一目的,係提出一種電子傳輸元件,其係在其導 體表面上戦-凹槽,再此凹槽與連接器之導電端子職干涉卡合,如此 可增加電子傳輸元件與連接ϋ之間結合的保持力,以解決習知之軟性排線容易 從連接器中鬆動而脫落的問題。 本創作之另-目的,提出-魏子傳輸元件接合結構,係·在電子傳輸 '元件之導體表面上設計-凹陷部,由於連接器之導電端子之鈎體與電子傳輸元 /件上之鶴部減合’所以可增加蚊電子傳輸元件之鋪力與定位能力。 緣是,為達上述目的’依本創作之一種電子傳輸元件,其岭一絕緣基板以 及設置於絕緣基板上之電路圖案,其中該電路圖案之一端點上設有至少一凹槽。 為達上述目的’依本創作之一種電子傳輸元件接合結構,其包含有一連接器 以及安餅_上之電讀輸藉,其_純含树、複料電端子以 及蓋體。本體具有-容置空間及—開口,該容细位於本體前端,該開口係 連接於本體後端,容置空間與開口相連通。複數導電端子之-端係設置於容置 空間中,其另-端係設置於開口内,每—導電端子之—端設有—鈎體,且至少 部份導電端子各具有-轉_部。蓋,財該轉轴部 係安裝於該轉較承部上。電子簡元件安躲該連接器上,其巾該電子傳輸 耕包含麟基糾及設觀緣餘上之,料該電路圖案之 祕上叹有至V凹槽。當電子傳輸元件安裝於容置空間時 傳輸元件上之凹槽她合,以增加固定電子傳輸元件的保持力與定位能力、電子 本創作的優點在於改變電子傳輸元件之導體表面與連接器之導電端子 之間的卡合結構,就可以有效艇玉羽4 2 # 冑私知組裝後連接ϋ本體與電子傳輸元件之間 6 M354895 的結合力過小的問題。所以與習知技術相比,本創作之電子傳輸元件接合結構 可有效增強電子傳輸元件與連接器本體之間的接合力與定位能力,從而有利於 電氣訊號的接觸與導通。 【實施方式】 以下將參照相關圖示,說明依本創作實施例之電子傳輸元件接合結構,為 使便於理解,下述實施例中之相同元件係以相同之符號標示來說明。再者,圖 鲁式意圖以構造方式來說明例示實施例之主要特徵。圖式不意圖來描寫實際實施 例之每個特徵和所描寫元件之相對尺度,且也不按照比例。此處糊數個實施 例來說鉢_。必㈣是,這輯無述的實關π是用來作為本 創作的例示·,並且這些實補及其他制,不應被娜作為限縮本發明之 用。M354895 * Eight, new description: [New technical field] This creation is a ride-type electronic component and its joint structure, _ is related to the conductor on the electronic transmission element can interfere with the connector The electron transporting element of the recess and its joint structure. [Prior Art] • The 'Connector' is a connection device that electrically connects wires, boards, and other circuit components. Therefore, it is widely used to transport various electronic products around the life of our people, such as notebook personal digital assistants (PDAs). The general connection H is on the Wei board, and it is connected to the contact panel on the Xuaneng board through the circuit layout to form an electrical connection. However, in some applications, the connector is used as a fixed-circuit component, for example S1 fixed soft cable _ way. Therefore, the connection _ is between the flexible cable and the printed circuit board, and is used as the switching of the electrical signal. Φ The conventional flexible cable is composed of a plurality of conductors which are arranged in parallel by an insulating layer, and the ends of the plurality of conductors are exposed to the insulating layer, and the ends of the conductors are in contact with the conductive terminals in the connector. To achieve the wire of the New Zealand, the thin wire is guided by the silky lead-shaped guide to a flat surface, and the conductive terminals in contact with it cannot accurately position and hold the conductors, so the flexible cable is easily loosened from the connector and falls off. So that the electrical signal cannot be turned on due to contact. In view of the problems of the prior art, in order to be able to solve the problem, the creator is based on research and development and materialization for many years. The transmission element and its joint structure are used as an implementation and basis for improving the above disadvantages. 5 M354895 [New content] In view of the above, according to one of the purposes of the present invention, an electron transporting element is proposed, which is a 戦-groove on the surface of the conductor, and the groove is engaged with the conductive terminal of the connector. In this way, the holding force of the combination between the electron transporting element and the connecting jaw can be increased to solve the problem that the conventional flexible cable is easily loosened from the connector and falls off. The other purpose of this creation is to propose - the Weizi transmission element joint structure, which is designed on the conductor surface of the electronic transmission 'component - the recessed part, due to the hook of the conductive terminal of the connector and the crane on the electron transmission element / piece The reduction of the part can increase the spreading and positioning ability of the mosquito electronic transmission component. The edge is an electronic transmission component created in accordance with the present invention, the ridge-insulating substrate and the circuit pattern disposed on the insulating substrate, wherein at least one groove is provided at one end of the circuit pattern. An electronic transmission component joint structure created in accordance with the present invention comprises a connector and an electrical reading package on the cake, which comprises a tree, a composite electrical terminal and a cover. The body has an accommodating space and an opening, and the opening is located at the front end of the body, and the opening is connected to the rear end of the body, and the accommodating space is in communication with the opening. The ends of the plurality of conductive terminals are disposed in the accommodating space, and the other ends are disposed in the openings, and each of the ends of the conductive terminals is provided with a hook body, and at least some of the conductive terminals each have a - turn portion. The cover and the shaft are mounted on the turn-over bearing. The electronic simple component is hidden on the connector, and the electronic transmission of the towel includes the lining of the lining to correct the appearance of the edge, and the secret of the circuit pattern sighs to the V groove. When the electronic transmission component is mounted in the accommodating space, the groove on the transmission component is combined to increase the holding force and positioning capability of the fixed electron transmission component, and the electronic creation has the advantages of changing the conductivity of the conductor surface of the electron transmission component and the connector. The engagement structure between the terminals can effectively solve the problem that the binding force of the 6 M354895 between the main body and the electronic transmission component is too small after the assembly of the boat Yu Yu 4 2 #胄. Therefore, compared with the prior art, the electronic transmission component bonding structure of the present invention can effectively enhance the bonding force and positioning capability between the electron transmission component and the connector body, thereby facilitating the contact and conduction of the electrical signal. [Embodiment] Hereinafter, the electronic transmission element joint structure according to the present embodiment will be described with reference to the related drawings. For the sake of easy understanding, the same elements in the following embodiments are denoted by the same reference numerals. Furthermore, the drawings are intended to illustrate the main features of the illustrated embodiments in a structural manner. The drawings are not intended to describe each feature of the actual embodiments and the relative dimensions of the described elements, and are not to scale. Here, for example, 钵_. It is necessary that (4) is that the actual π that is not described in this series is used as an illustration of this creation, and that these stipulations and other systems should not be used by Nina as a limitation.
青-閱第®至第七圖’其係為本創作之電子傳輸元件接合結構之立體分 解不意圖、職狀態之立體組合示意圖、關狀態之立體組合示意圖、第二圖 φ ° AA線·^又之剖面不意圖、第二圖中沿BB線段之剖面示意圖、第三圖中沿AA 線段之剖面示賴以及第三圖中沿BB線段之剖面示意圖。圖中,電子傳輪元件 .接合結構i係包含有-連接器2以及絲於連接器2上之電子傳輪元件3,其中 連接器2包含本體22、複數導電端子24以及紐26。本體22具有—容置空間 開口 224 ’ β亥谷置空間222位於本體22前端,該開口如系連接於本 =灸端’且容蝴222與開π故相連通。導電端子%之—端係設置於 中,其另1係設_口挪内,輸子^—端設有一釣 體240,且導電端+ 另一鈿具有一轉動支承部241。蓋體26之一端具有一 7 M354895 轉軸部260,其中該轉綺260係安裝於轉動支承部241上。在本實施例中,此 些導電端子24係包含第-端子242與第二端子244,第-端子242之一端具有 第-上臂部2422、第二下臂部2424,其另一端具有第三上臂部_、第四下臂 部2428,且第-上臂部2422上具有該鈎體24〇,第二端子泌之一端具有第五 上臂部2442、第六下臂部2444,其另一端具有第七上臂部·、第八下臂部 2448,且第五上臂部2442上具有該鈎體24〇,其中具有該鈎體24〇之第一上臂 '部2422之長度係短於第五上臂部難,且第一端子犯係從本體22前端安裝 籲於容置空間222,第二端子244係從本體Μ後端安裝於開口 Μ4。蓋體%之轉 軸部係安裝於第三上臂部難與該第四下臂部綱之間及第七上臂部纏 與第八下臂部2448之間所形成之轉動支承部241上。電子傳輸元件3安裝於連 接器2上’其中該電子傳輸元件3包含絕緣基板3〇以及設置於絕緣基板洲上 之一電路圖案32,其中該電路圖案32之端點上設有複數個凹槽咖。當電子傳 輸元件3安裝於容置空間222時,藉由向下扳動蓋體%使轉轴部撐開第三 上臂部2426與第四下臂部繼以及帛七上臂部與第八下臂部獅,因而 #使第三上臂部與第七上臂部趣產生向上之壓力,第一上臂部期與第 五上#4 2442順勢造成向下之壓力,而分別與第二下臂部綱以及第六下臂 .部2444形成-夾持力,以固持該電子傳輪元件3,在此同時,釣體24〇係可與 電子傳輪讀3上之凹槽320相復合,以增加固定電子傳輸元件3的保持力與 定位能力。 、本實施例中此電子傳輸元件3係為_軟性排線(ffc),·|亥電路圖案32 係為平仃排列之複數導體,該絕緣基板3〇係為包覆該些導體之一絕緣層,該絕 緣層包含-第-絕緣層3〇2以及一第二絕緣層3〇4,其中第一絕緣層逝上設有 M354895 .該些導體,第二絕緣層304設於第一絕緣層上,並且覆蓋於該些導體,其 中該些導體之-端點係外露於該第二絕緣層3〇4,且每一導體之外露端點上設有 凹槽320。值得-提的是,為了縮小複數導體之間的間距(圓)大小,故此 些凹槽320係以-前-後間隔排列並且一左一右交錯排列之錯位方式設置,並 與具有鈎體240之第-上臂部2422與第五上臂部_對應形成干涉嵌合,如 此可以達到使得複數導體間之間距縮小的效果。在本實施例中,係以軟性排線 作為說明,然不限於此’其它之電子傳輸元件,例如硬式印刷電路板⑽)與 •軟=印刷電路板(FPC)也都可以應用於本創作中。此外,導體上之凹槽賺 了是盲孔外,也可以是通孔,亦即在本創作中並不限定凹槽娜的開孔形態。 請參閱第八圖至第十一圖’其係為本創作之另—電子傳輸元件接合結構之立 體組合不意圖、沿cc線段之剖面示意圖、立體分解示意圖及另一視角之立體分 解示意圖。此電子傳輸元件接合結構4係包含有_連接器5以及安裝於連接器5 電子傳輸70件6’其中連接器5包含本體52、複數導電端子54以及蓋體56。 本體52具有-容置空間522及一開口 524,該容置空間微位於本體犯前端, φ遠開口 524係連接於本體52後端,且容置空間a2與開口⑽連通。導電端 •子54之-端係設置於容置空間诩中,其另一端係設置於開口 内,導電端 .H之-端設有—_ _及—轉動支承部541。鐘%係可接合或移除於該 :置空間522上’蓋體56 一端具有一轉軸部56〇以及若干端子槽卿,此轉軸 ㈣〇係安裝於轉動支承部541上,蓋體56前端具有若干端子槽脱,以利每 導電端子54各別對應且容置於每一端子槽呢…此電子傳輸元件接合結 構4與上述之電子傳輸元件接合結構丨的差別主要係在於連接器5内之導電端 的、、。構不同,在本實施例中,此導電端子54 一端具有第一上臂⑽、第二 9 M354895 下# 544其另—端具有第三上臂Mg、第四下臂548,其中第一上臂542上具 有轉動支承部541 ’蓋體56之轉軸56G部齡裝㈣轉動支承部541,第二下 臂544上具有鈎體540,當電子傳輸元件6安裝於容置空間522時,藉由向下扳 動蓋體56使蓋體56頂抵於電子傳輸元件6,並且與第二下臂544形成一夾持力, 其中電子傳輸元件6之導體之外露端點上的凹槽⑽可與第二下臂544上的钩體 心成干涉卡接’如此以穩固地夾持該電子傳輸元件6。另外,二墊片7安裝 於本體52之左右兩側,其中墊片7上設有一卡合部7〇,此卡合部7〇係與蓋體 鲁56繼上的卡扣部58相卡合,如此以定位與固定蓋體%於本體Μ上。在本實 施例中,第三上臂546係插入於本體52之開口 524中以固持導電端子54於本 體52内第四下臂548係伸出於本體52之開口 524外以利後續焊接之用。本 體52係由絕緣材質所製成,此絕緣材質係為高分子材料,例如塑膠,但並不偈 限於高分子材料。上述之第一上臂542、第二下臂544、第三上臂5妨及第四下 臂548係為一體成形。組裝時,先將複數導電端子%安裝於本體Μ内,再將 蓋體56之轉軸部560裝設於第一上臂542上的轉動支承部541,當其卡合後, 鲁將電子傳輸元件6插入第-上臂542與第二下臂544之間,並使電子傳輸元件6 •之導體之外露端點上的凹制卡接於第二下臂⑽上的鈎體♦再將蓋體% .進行_以頂抵於電子傳輸元件6,如此電子傳輸元件接合結構4因此組裝完 成。在本實施例中,係以軟性排線作為說明,然不限於此,其它之電子傳輸元 件’例如硬式印刷電路板⑽)與軟性印刷電路板_也都可以應用於本 創作中。 綜上所述’本創作所揭露之一種電子傳輸元件接合結構,其主要係利用改 變電子傳龄狀導縣_連翻之魏端子之_卡合結構,導體表面上 M354895 的凹槽或觀可與導電端子之舰形成干涉卡接,以關電子傳輸元件與連接 器之間的相對移動,如此,即可加強電子傳輸元件穩固之扣合效果以外,亦達 成電子傳輸元件與導電端子之間緊密的接觸導通,減少電子傳輸元件鬆動脫落 等情事,確可改善習知電子傳輸元件接合結構之缺點。 由上所述者僅為用以解釋本創作之較佳實施例,並非企圖據以對本創作做 任何形式上n是以’凡#在相同之解精神下所财關本瓣之任何修 飾或變更者,皆仍應包括在本創作_鍊之範嗜内。 【圖式簡單說明】 第圖係為本創作之電子傳輸元件接合結構之立體分解示意圖。 第二_本_之電子傳輸元件接錢構之敝狀紅立敵合示意圖。 第二圖係林_之電子傳輸耕接合結構之關織之立體組合示意圖。 第四圖係為第二圖中沿M線段之剖面示意圖。青-阅第至至图图' is a three-dimensional decomposition of the joint structure of the electronic transmission component of the creation, a three-dimensional combination diagram of the occupational state, a three-dimensional combination diagram of the off state, and a second diagram φ ° AA line·^ Further, the cross-section is not intended, the cross-sectional view along the BB line in the second figure, the cross-sectional view along the AA line in the third figure, and the cross-sectional view along the BB line in the third figure. In the figure, the electronic transmission element i. The joint structure i comprises a connector 2 and an electronic transmission element 3 which is screwed onto the connector 2. The connector 2 comprises a body 22, a plurality of conductive terminals 24 and a button 26. The body 22 has an accommodating space opening 224'. The β hull space 222 is located at the front end of the body 22, and the opening is connected to the moxibustion end □ and the hull 222 is in communication with the opening π. The end of the conductive terminal % is disposed in the middle, the other one is set in the mouth, the end of the input is provided with a fishing body 240, and the conductive end + the other has a rotating support portion 241. One end of the cover body 26 has a 7 M354895 shaft portion 260, and the switch 260 is attached to the rotation support portion 241. In this embodiment, the conductive terminals 24 include a first terminal 242 and a second terminal 244. One end of the first terminal 242 has a first upper arm portion 2422 and a second lower arm portion 2424, and the other end has a third upper arm. a fourth lower arm portion 2428, and the first upper arm portion 2422 has the hook body 24〇, and the second terminal has one end having a fifth upper arm portion 2442 and a sixth lower arm portion 2444, and the other end has a seventh end The upper arm portion, the eighth lower arm portion 2448, and the fifth upper arm portion 2442 have the hook body 24〇, wherein the length of the first upper arm portion 2422 having the hook body 24 is shorter than the fifth upper arm portion. The first terminal is installed from the front end of the main body 22 to the accommodating space 222, and the second terminal 244 is mounted on the opening Μ4 from the rear end of the main body. The rotation of the cover body is attached to the rotation support portion 241 formed between the third upper arm portion and the fourth upper arm portion and the seventh upper arm portion and the eighth lower arm portion 2448. The electronic transmission component 3 is mounted on the connector 2. The electronic transmission component 3 includes an insulating substrate 3 and a circuit pattern 32 disposed on the insulating substrate. The circuit pattern 32 has a plurality of recesses at the end of the circuit pattern 32. coffee. When the electronic transmission component 3 is mounted on the accommodating space 222, the rotating shaft portion is opened by the downward sliding of the cover body to extend the third upper arm portion 2426 and the fourth lower arm portion, and the seventh upper arm portion and the eighth lower arm portion. The lion, thus #the third upper arm and the seventh upper arm are subject to upward pressure, the first upper arm period and the fifth upper #4 2442 homeopathic downward pressure, respectively, and the second lower arm part and The sixth lower arm portion 2444 forms a clamping force to hold the electronic transmission element 3, and at the same time, the fishing body 24 can be combined with the groove 320 on the electronic transmission wheel 3 to increase the fixed electrons. The holding force and positioning capability of the transmission element 3. In the embodiment, the electron transporting element 3 is a flexible wiring (ffc), and the circuit pattern 32 is a plurality of conductors arranged in a flat line, and the insulating substrate 3 is insulated by covering one of the conductors. a layer, the insulating layer comprises a -first insulating layer 3〇2 and a second insulating layer 3〇4, wherein the first insulating layer is provided with M354895. The conductors, the second insulating layer 304 is disposed on the first insulating layer And covering the conductors, wherein the ends of the conductors are exposed to the second insulating layer 3〇4, and the exposed ends of each of the conductors are provided with grooves 320. It is worth mentioning that, in order to reduce the size (circle) between the plurality of conductors, the grooves 320 are arranged in a front-to-back interval and a left-right staggered arrangement, and have a hook body 240. The first-upper arm portion 2422 forms an interference fit with the fifth upper arm portion _, so that the effect of reducing the distance between the plurality of conductors can be achieved. In the present embodiment, the flexible cable is used as the description, but not limited to the other electronic transmission components, such as the hard printed circuit board (10) and the soft = printed circuit board (FPC) can also be applied to the present creation. . In addition, the groove on the conductor is made of a blind hole or a through hole, that is, the shape of the opening of the groove is not limited in the present creation. Please refer to the eighth to eleventh drawings, which are the other examples of the creation of the electronic transmission component joint structure, the cross-sectional view along the cc line segment, the perspective exploded view, and the perspective view of the other perspective. The electronic transmission component joint structure 4 includes a connector 5 and an electronic transmission 70 member 6' mounted to the connector 5, wherein the connector 5 includes a body 52, a plurality of conductive terminals 54, and a cover 56. The body 52 has an accommodating space 522 and an opening 524. The accommodating space is slightly located at the front end of the body. The φ distal opening 524 is connected to the rear end of the body 52, and the accommodating space a2 is in communication with the opening (10). The end of the conductive end • the end of the sub- 54 is disposed in the accommodating space ,, and the other end is disposed in the opening, and the end of the conductive end .H is provided with a _ _ and a rotating support portion 541 . The clock unit can be engaged or removed from the space 522. The cover body 56 has a shaft portion 56A and a plurality of terminal slots. The shaft (4) is mounted on the rotation support portion 541, and the front end of the cover body 56 has A plurality of terminal slots are removed, so that each of the conductive terminals 54 respectively corresponds to and is accommodated in each of the terminal slots. The difference between the electronic transmission component bonding structure 4 and the above-mentioned electronic transmission component bonding structure is mainly in the connector 5. The end of the conductive end. Differently, in this embodiment, the conductive terminal 54 has a first upper arm (10), a second 9 M354895 lower # 544, and the other end has a third upper arm Mg and a fourth lower arm 548, wherein the first upper arm 542 has Rotating support portion 541 'The rotating shaft 56G of the cover body 56 is mounted on the rotating support portion 541. The second lower arm 544 has a hook body 540. When the electronic transmission component 6 is mounted on the accommodating space 522, it is pulled downward. The cover 56 abuts the cover 56 against the electron transporting element 6 and forms a clamping force with the second lower arm 544, wherein the recess (10) on the exposed end of the conductor of the electron transporting element 6 can be combined with the second lower arm The hook body on the 544 is interference-clamped' so as to firmly hold the electron-transporting element 6. In addition, the two spacers 7 are mounted on the left and right sides of the body 52, wherein the spacer 7 is provided with a latching portion 7〇, and the latching portion 7 is engaged with the latching portion 58 of the cover body 52. So as to position and fix the cover body on the body Μ. In the present embodiment, the third upper arm 546 is inserted into the opening 524 of the body 52 to hold the conductive terminal 54. The fourth lower arm 548 of the body 52 extends out of the opening 524 of the body 52 for subsequent soldering. The body 52 is made of an insulating material which is a polymer material such as plastic, but is not limited to a polymer material. The first upper arm 542, the second lower arm 544, the third upper arm 5, and the fourth lower arm 548 described above are integrally formed. During assembly, the plurality of conductive terminals % are first mounted in the body casing, and the rotating shaft portion 560 of the cover 56 is mounted on the rotating support portion 541 of the first upper arm 542. When it is engaged, the electronic transmission component 6 is assembled. Inserting between the first upper arm 542 and the second lower arm 544, and causing the recess on the exposed end of the conductor of the electron transporting member 6 to be hooked to the hook body ♦ on the second lower arm (10). The electron transfer element 6 is occluded in such a manner that the electron transport element joint structure 4 is thus assembled. In the present embodiment, a flexible cable is taken as an explanation, but it is not limited thereto, and other electronic transmission components such as a hard printed circuit board (10) and a flexible printed circuit board can also be applied to the present invention. In summary, the electronic transmission component joint structure disclosed in the present invention mainly utilizes the yoke structure of the electronic terminal of the electronic age-aged _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Interacting with the ship of the conductive terminal to interfere with the relative movement between the electronic transmission component and the connector, so as to enhance the fastening effect of the electronic transmission component, and to achieve close connection between the electronic transmission component and the conductive terminal The contact conduction, reducing the loosening of the electron transporting component, etc., can indeed improve the shortcomings of the conventional electronic transmission component joint structure. The above description is only a preferred embodiment for explaining the present creation, and it is not intended to make any modification or change to the creation of the present invention in the form of the same solution. All should still be included in the scope of this creation _ chain. [Simple description of the drawing] The figure is a three-dimensional exploded view of the joint structure of the electronic transmission component of the present invention. The second _ _ this _ electronic transmission component picks up the structure of the red-hulled host. The second figure is a three-dimensional combination diagram of the structure of the electronic transmission and tillage joint structure of the forest. The fourth figure is a schematic cross-sectional view along the M line segment in the second figure.
第五圖係為第二圖中沿BB線段之剖面示意圖。 第六圖係為第三圖中沿AA線段之剖面示意圖 第七圖係為第三圖中沿BB線段之剖面示意圖 第八圖係為本創作之另—雷 冑子傳輪元件接合結構之立體組合示意圖。 圖係為第八圖中沿cc線段之剖面示意圖。 第十圖係為本創作之另— 第Η —圖係為本創作之另 圖。 電子傳輪元件接合結構之立體分解示意圖。 電子傳輸元件接合結構之另—視角之立體分解示意 M354895 【主要元件符號說明】 電子傳輸元件接合結構1 連接器2 本體22 容置空間222 開口 224 導電端子24 鈎體240 轉動支承部241 第一端子242 第二端子244 第一上臂部2422 第二下臂部2424 第三上臂部2426 第四下臂部2428 第五上臂部2442 第六下臂部2444 第七上臂部2446 第八下臂部2448 蓋體26 轉軸部260 電子傳輸元件3 絕緣基板30 第一絕緣層302 第二絕緣層304 電路圖案32 凹槽320 電子傳輸元件接合結構4 連接器5 本體52 容置空間522 開口 524 導電端子54 鈎體540 轉動支承部541 第一上臂542 第二下臂544 12 M354895 第三上臂546 第四下臂548 蓋體56 轉軸部560 端子槽562 卡扣部58 電子傳輸元件6 凹槽60 墊片7 卡合部70The fifth figure is a schematic cross-sectional view along the BB line in the second figure. The sixth figure is a cross-sectional view along the AA line segment in the third figure. The seventh picture is the cross-sectional view along the BB line in the third figure. The eighth picture is the other of the creation of the thunder-striped wheel component. Combination diagram. The figure is a schematic cross-sectional view along the cc line in the eighth figure. The tenth picture is another of the creations - the first picture - the picture is the other picture of the creation. A perspective exploded view of the electronic transmission component engagement structure. Another perspective view of the electronic transmission component joint structure M354895 [Main component symbol description] Electronic transmission component joint structure 1 Connector 2 Body 22 accommodating space 222 Opening 224 Conductive terminal 24 Hook body 240 Rotary support portion 241 First terminal 242 second terminal 244 first upper arm portion 2422 second lower arm portion 2424 third upper arm portion 2426 fourth lower arm portion 2428 fifth upper arm portion 2442 sixth lower arm portion 2444 seventh upper arm portion 2446 eighth lower arm portion 2448 cover Body 26 Shaft portion 260 Electron transfer element 3 Insulating substrate 30 First insulating layer 302 Second insulating layer 304 Circuit pattern 32 Groove 320 Electron transfer element joint structure 4 Connector 5 Body 52 accommodating space 522 Opening 524 Conductive terminal 54 Latch body 540 rotation support portion 541 first upper arm 542 second lower arm 544 12 M354895 third upper arm 546 fourth lower arm 548 cover 56 shaft portion 560 terminal groove 562 snap portion 58 electron transmission element 6 groove 60 spacer 7 engagement Department 70