M4J2174 五、新型說明: 【新型所屬之技術領域】 本新型是有關一種訊號傳輸接頭。 【先前技術】 ▲由於目前的電信資訊已相當發達,且越來越多的消費 仏電子產品具有接收訊號的功能,例如電腦、電視或收音 ,等,使得全球的資訊能夠快速的傳遞。對於天線設備來 f,可能在傳輸訊號的過程中,需設置訊號傳輸設備將訊 號一分為多,以方便多台電子產品使用。 舉例來說,分波器即為一種訊號傳輸設備。分波器包 含具有導線的傳輪板、饋入端(Transmission line Feed point) 與接地端。一般而言,饋入端連位於傳輸板的導線末端, 而接地端則位於傳輸板具有導線一面的相反面。饋入端與 接地端可以藉由烊接的方式分別與多條纜線連接,使分波 器具有將訊號一分為多的功能。然而,此種纜線的連接方 式不易控制焊接時的品質,可能會因焊接點的強度不足而 導致訊號傳輪不良。此外,傳輸板的材質必須為可焊接的 材料才可將纜線焊接於饋入端與接地端,造成製造者的不 便。 另一種方式則是將訊號傳輸接頭(例如SMA天線接頭) 設置於傳輸板上,然而習知的訊號傳輸接頭也需分別與饋 入端與接地端焊接,因此傳輪板仍必須為玎焊接的材料, 這樣的方式傳輸板需為較厚的硬板,相較於較軟薄的材 質成本較间再者,若訊號傳輸接頭與傳輸板之間的焊接 4 M432174 點強度不足時,也會導致訊號傳輸不良。另一方面,分波 器的外殼僅具有覆蓋傳輸板的功能,與訊號傳輸接頭無 關,傳輸板需使用額外的螺絲固定於外殼中。 因此,訊號傳輸接頭的設計為訊號傳輸設備中不容小 覷的一環。 【新型内容】 • 本新型之一技術態樣為一種訊號傳輸接頭。 • 根據本新型一實施方式,一種訊號傳輸接頭耦接於饋 入端與接地端,且固定於外殼上。訊號傳輸接頭包含本體、 傳輸導體、導電墊片、絕緣墊片與固定墊片。本體具有第 一端部與第二端部,且本體包含抵靠部形成於第一端部與 第二端部之間,用以接觸接地端與外殼。傳輸導體固定於 本體中且部分凸出第一端部。導電墊片套設於凸出第一端 部的傳輸導體,用以接觸饋入端。絕緣墊片位於導電墊片 與第一端部之間,用以隔離導電墊片與第一端部。固定墊 • 片套設於第二端部,用以夾置外殼於固定墊片與抵靠部之 - 間。 在本新型一實施方式中,其中上述本體具有連通的第 一容置空腔與第二容置空腔,且傳輸導體具有纜線連接 部。傳輸導體固定於第一容置空腔,且纜線連接部位於第 二容置空腔中。 在本新型一實施方式中,其中上述傳輸導體形成有第 一螺紋部凸出導電墊片。 在本新型一實施方式中,其中上述訊號傳輸接頭更包 /4 =-螺㈣合於第—螺紋部’使導電 中自與饋入端之間。- 夾置於第一螺 在本新型一實施方式_,其 連接部位於傳輸導體的相反兩端。“…文部與境線 在本新型一實施方式_,苴六 面積小於第二容置空腔的截面積。、☆空腔的截 在本新型一實施方式令, 二螺紋部。 〃中上述第二端部形成有第 入第在實施方式中’其中上述訊號傳輪接頭更包 二:於第二螺紋部,使㈣㈣於第-螺 於第^上述抵靠部的截面積大 在本新型-實施方式中,其中上述抵靠部 於第二端部的戴面積。 檟大 部命t本新型上述實施方式中’由於抵靠部形成於第-端 :鐾:二端部之間’且導電墊片套設於凸出第-端部的傳 ,導體’因此導電墊片可接觸傳輸板的饋入端,且抵靠部 靠近第一端部的一面可接觸傳輸板的接地端。如此一來, 傳輸板可夾置於導電塾片與抵靠部之間。此外,固定塾片 ,設於第二端部,且抵靠部靠近第二端部的一面可接觸外 殼,因此外殼可夾置於固定墊片與抵靠部之間。當傳輸訊 號時,饋入端、導電墊片與傳輸導體耦接,且絕緣本^將 導電塾片與本體的第一端部隔離。也就是說,此訊號傳輸 接頭藉由導電墊片與傳輸導體傳輸訊號,並藉由本體的抵 6 M432174 靠部接地。 此訊號傳輸接頭與饋入端、接地端的連接方式係採用 接觸的方式,不會因焊接的強度不足而導致訊號傳輸不 良。此外,使用此訊號傳輸接頭的傳輸板,其材質可以為 不能焊接的材料或較為軟薄的材料,以節省製造的成本。 另一方面,本體的第二端部可固定於外殼上,使位於外殼 内且固定於第一端部的傳輸板不易晃動,可省略傳輸板固 定於外殼的元件(例如螺絲)。 【實施方式】 以下將以圖式揭露本新型之複數個實施方式,為明確 說明起見,許多實務上的細節將在以下敘述中一併說明。 然而,應暸解到,這些實務上的細節不應用以限制本新型。 也就是說,在本新型部分實施方式中,這些實務上的細節 是非必要的。此外,為簡化圖式起見,一些習知慣用的結 構與元件在圖式中將以簡單示意的方式繪示之。 第1圖繪示根據本新型一實施方式之訊號傳輸接頭 100的立體圖。第2圖繪示第1圖之訊號傳輸接頭100沿 線段2-2’的剖面圖。同時參閱第1圖與第2圖,訊號傳輸 接頭100包含本體110、傳輸導體120、導電墊片130、絕 緣墊片140與固定墊片150。本體110具有第一端部112 與第二端部114,且本體110包含抵靠部116形成於第一端 部112與第二端部114之間。傳輸導體120固定於本體110 中且部分凸出第一端部112。導電墊片130套設於凸出第 一端部112的傳輸導體120。絕緣墊片140位於導電墊片 7 M432174 130與第一端部112之間,用以隔離導電墊片130與第一 端部112。固定墊片150套設於第二端部114。 更具體地說,本體110具有連通的第一容置空腔111 與第二容置空腔113,且傳輸導體120具有纜線連接部 122。傳輸導體120固定於第一容置空腔111,且纜線連接 部122位於第二容置空腔113中。其中,傳輸導體120固 定於第一容置空腔111的方式需以絕緣方式固定,例如傳 輸導體120與本體110之間可使用絕緣膠或塑膠絕緣材料 固定,使傳輸導體120與本體110不會直接接觸。在本實 施方式中,第一容置空腔111的截面積A1小於第二容置空 腔113的截面積A2,使纜線(未繪示於圖)可進入第二容置 空腔113並與纜線連接部122結合。 傳輸導體120形成有第一螺紋部124凸出導電墊片 130,且第一螺紋部124與纜線連接部122位於傳輸導體 120的相反兩端。此外,本體110的第二端部114形成有第 二螺紋部115。訊號傳輸接頭100更包含第一螺帽160與 第二螺帽170,第一螺帽160嚅合於第一螺紋部124,且第 二螺帽170嚅合於第二螺紋部115。也就是說,第一螺帽 160可調整導電墊片130與絕緣墊片140之間的距離,且 第二螺帽170可調整固定墊片150與抵靠部116之間的距 離。 第3圖繪示第2圖之訊號傳輸接頭100組合於傳輸板 200與外殼300時的剖面圖。同時參閱第2圖與第3圖, 抵靠部116的截面積A3大於第一端部112的截面積A4, 且抵靠部116的截面積A3也大於第二端部114的截面積 8 M432174 A5。當傳輸板200的孔洞大致等於第一端部^的截面積 A4日^,傳輸板200可由抵靠部116抵靠。當外殼3〇〇的孔 =大致等於第二端部114的截面積八5時,外殼3〇〇可由抵 #部116抵靠。在本實施方式中,傳輪板2〇〇的上表面具 有訊號饋入端210,傳輸板200的下表面具有接地端22〇。 傳輸板200的材質可以包含保利龍或坡璃纖維(FR4)。外殼 300意指用來容置傳輸板2〇〇的殼體。 具體而言’當訊號傳輸接頭1〇〇組合於傳輸板2〇〇與 φ外殼300時,訊號傳輸接頭100可同時耦接於饋入端21〇 與接地端220’且固定於外殼300上。抵靠部116靠近第 -¾¾部112的一面接觸接地端220’抵靠部Η6靠近第二端 部114的一面接觸外殼300。導電墊片13〇接觸饋二端 210。固定墊片150夾置外殼300於固定墊片15〇與抵靠部 116之間。第一螺帽16〇嚅合於第一螺紋部124,使導電墊 片130夾置於第一螺帽160與饋入端21〇之間。第二螺帽 170唱合於第一螺紋部115’使固定塾片bo夾置於第二螺 φ 帽Π0與外殼300之間。 、 - 這樣的設計,傳輸板200可夾置於導電墊片130與抵 靠部116之間’且外殼300可夾置於固定墊片ι5〇與抵靠 部116之間。當傳輸訊號時,饋入端2丨〇、導電墊片bo 與傳輸導體120搞接’且絕緣塾片14〇將導電塾片13〇與 本體110的第一端部112隔離。也就是說,此訊號傳輸接 頭1〇〇藉由導電塾片130與傳輸導體12〇傳輸訊號,並藉 由本體110的抵靠部116接地。 訊號傳輪接頭100與饋入端210、接地端22〇的連接 9 州2174 方式係採用接觸的方式,不會因焊接的強度不足而導致訊 銳傳輪不良。此外,使用此訊號傳輸接頭1〇〇的傳輸板 〇 ’其材質可以為不此焊接的材料或較為軟薄的材料(例 如軟性電路板)’以節省製造的成本。另一方面,本體U〇 的苐二端部114可固定於外殼300上,使位於外殼3〇〇内 且固定於第一端部112的傳輸板200不易晃動,可省略傳 輪板2〇0固定於外殼300的元件(例如螺絲)。 應瞭解到’在以下敛述中’已經在上述實施方式中救 每迷過的内容將不再重複贅述,僅就訊號傳輸接頭1〇〇組合 於傳輸板200與外殼300的步驟加以補充,合先敘明。 第4圖繪示第1圖之訊號傳輸接頭1〇〇的***圖。第 5圖繪示第4圖之本體110組合於傳輸板200的立體圖。 同時參閱第4圖與第5圖,傳輸板200的上表面具有導線 2〇2 ’且導線202的末端形成有饋入端210。傳輸板200的 下表面形成有接地端220。在組合時,可先將本體110的 第〜端部112耦合於傳輸板200之饋入端210與接地端220 • 之間的孔洞,並依序將絕緣墊片140、導電墊片130套設 於第一螺紋部124上,之後再將第一螺帽160嚅合於第一 - 螺紋部124,使導電墊片130夾置於第一螺帽160與饋入 端210之間。 第6圖繪示第5圖之本體110與傳輸板200組合於外 殼300時的立體圖。如圖所示,外殼300具有孔洞310且 對應本體110組合於傳輸板200後的位置。製造者可將本 體110與傳輸板200以方向D1移動並使第二螺紋部115 藉由孔洞310穿出外殼300。之後,將固定墊片150以方 M432174 向D2套設於第二螺紋部II5上。最後 -囑合於第二螺紋部115,使固定墊片15〇將第二螺帽Π0 170與外殼300之間。 失置於第二螺帽 如此一來’便可得到如第7圖纟會示 與傳輸板200、外殼300組合後的立體圖訊唬傳輸接頭100 本新型上述實施方式與先前技術相較 (1) 此訊號傳輸接頭與饋入端、接又具有以下優點:M4J2174 5. Description of the new type: [Technical field to which the new type belongs] This new type is related to a signal transmission connector. [Previous technology] ▲ Because the telecommunication information is quite developed and more and more consumers. 仏 Electronic products have the function of receiving signals, such as computers, televisions or radios, etc., so that the global information can be quickly transmitted. For antenna equipment, it may be necessary to set the signal transmission equipment to divide the signal into multiple signals during the signal transmission process to facilitate the use of multiple electronic products. For example, a demultiplexer is a signal transmission device. The demultiplexer consists of a transmission plate with wires, a transmission line feed point and a ground terminal. Generally speaking, the feed end is located at the end of the wire of the transmission board, while the ground end is located at the opposite side of the side of the transmission board that has the wire. The feed-in terminal and the ground terminal can be connected to multiple cables respectively by coupling, so that the demultiplexer has the function of dividing the signal into multiple signals. However, the connection method of this cable is not easy to control the quality during welding, and the signal transmission wheel may be defective due to the insufficient strength of the welding point. In addition, the material of the transmission board must be a solderable material in order to weld the cable to the feeding end and the grounding end, causing inconvenience to the manufacturer. The other way is to set the signal transmission connector (such as SMA antenna connector) on the transmission board, but the conventional signal transmission connector also needs to be welded to the feeding end and the ground end respectively, so the transmission board must still be 玎 welded Material, in this way, the transmission board needs to be thicker and harder. Compared with softer and thinner materials, it costs more time. If the welding strength between the signal transmission connector and the transmission board is 4 M432174, the strength will also be insufficient. Signal transmission is poor. On the other hand, the case of the demultiplexer only has the function of covering the transmission board, and has nothing to do with the signal transmission connector. The transmission board needs to be fixed in the case with additional screws. Therefore, the design of the signal transmission connector is an important part of signal transmission equipment. [New content] • One of the technical aspects of this new type is a signal transmission connector. • According to an embodiment of the present invention, a signal transmission connector is coupled to the feeding terminal and the ground terminal, and is fixed to the housing. The signal transmission connector includes a body, a transmission conductor, a conductive gasket, an insulating gasket, and a fixed gasket. The body has a first end portion and a second end portion, and the body includes an abutment portion formed between the first end portion and the second end portion for contacting the ground end and the casing. The transmission conductor is fixed in the body and partially protrudes from the first end. The conductive gasket is sleeved on the transmission conductor protruding from the first end portion to contact the feeding end. The insulating gasket is located between the conductive gasket and the first end portion, and is used to isolate the conductive gasket from the first end portion. Fixing pad • The cover is set at the second end and is used to sandwich the shell between the fixing pad and the abutting part. In an embodiment of the present invention, the body has a first receiving cavity and a second receiving cavity which are in communication, and the transmission conductor has a cable connection portion. The transmission conductor is fixed in the first receiving cavity, and the cable connection portion is located in the second receiving cavity. In an embodiment of the present invention, the transmission conductor is formed with a first threaded portion protruding from the conductive gasket. In an embodiment of the present invention, the signal transmission connector described above is further enclosed by / 4 =-screwed to the first threaded portion 'so as to be electrically conductive between itself and the feeding end. -Clip on the first screw In one embodiment of the present invention, its connection portions are located on opposite ends of the transmission conductor. "... The Ministry of Education and the Horizon are in the first embodiment of the present invention, and the area of the sixth space is smaller than the cross-sectional area of the second accommodation cavity., ☆ The cross-section of the cavity is in the second embodiment of the new order, two threaded portions. The end portion is formed in the first embodiment in which the above-mentioned signal transmission joint is further included in the second thread portion, so that the cross-sectional area of the abutting portion at the first screw is larger than that of the abutting portion. In the method, the wearing area of the abutting portion on the second end portion. 槚 大部 命 t In the above embodiment of the present invention, 'because the abutting portion is formed on the first end: 鐾: between two end portions' and the conductive pad The sheet cover is arranged on the convex part of the first end, the conductor 'so the conductive pad can contact the feed end of the transmission board, and the side of the abutment part near the first end can contact the ground end of the transmission board. The transmission plate can be sandwiched between the conductive cymbal and the abutting portion. In addition, the fixed cymbal is provided at the second end portion, and the side of the abutting portion near the second end portion can contact the shell, so the shell can be sandwiched Between the fixed gasket and the abutting part. When transmitting a signal, the feed end, the guide The gasket is coupled to the transmission conductor, and the insulating pad ^ isolates the conductive diaphragm from the first end of the body. That is, the signal transmission connector transmits a signal to the transmission conductor through the conductive gasket and the body resists 6 M432174 is connected to the ground. The connection method of this signal transmission connector to the feeding end and ground terminal is contact method, which will not cause poor signal transmission due to insufficient welding strength. In addition, the transmission board using this signal transmission connector, its The material can be a material that cannot be welded or a relatively thin material to save manufacturing costs. On the other hand, the second end portion of the body can be fixed to the casing, so that the transmission plate located in the casing and fixed to the first end portion. It is not easy to shake, and the components (such as screws) for fixing the transmission plate to the housing can be omitted. [Embodiments] The following will disclose the multiple embodiments of the present invention in the form of drawings. For the sake of clarity, many practical details will be described below. It will be explained together. However, it should be understood that these practical details should not be applied to limit the new model. That is, it is implemented in part of the new model. In practice, these practical details are not necessary. In addition, in order to simplify the drawings, some conventional structures and components will be shown in a simple and schematic way in the drawings. A perspective view of the signal transmission connector 100 according to a new embodiment. FIG. 2 shows a cross-sectional view of the signal transmission connector 100 along line 2-2 ′ in FIG. 1. Referring to FIG. 1 and FIG. 2 at the same time, the signal transmission connector 100 includes The main body 110, the transmission conductor 120, the conductive gasket 130, the insulating gasket 140, and the fixed gasket 150. The main body 110 has a first end portion 112 and a second end portion 114, and the main body 110 includes an abutment portion 116 formed on the first end Between the portion 112 and the second end portion 114. The transmission conductor 120 is fixed in the body 110 and partially protrudes from the first end portion 112. The conductive gasket 130 is sleeved on the transmission conductor 120 protruding from the first end portion 112. The insulating gasket 140 is located between the conductive gasket 7 M432174 130 and the first end portion 112 to isolate the conductive gasket 130 from the first end portion 112. The fixing pad 150 is sleeved on the second end portion 114. More specifically, the body 110 has a first receiving cavity 111 and a second receiving cavity 113 which are in communication, and the transmission conductor 120 has a cable connection portion 122. The transmission conductor 120 is fixed in the first receiving cavity 111, and the cable connection portion 122 is located in the second receiving cavity 113. The transmission conductor 120 is fixed to the first accommodating cavity 111 in an insulating manner. For example, the transmission conductor 120 and the main body 110 may be fixed with an insulating glue or a plastic insulating material so that the transmission conductor 120 and the main body 110 cannot be fixed. direct contact. In this embodiment, the cross-sectional area A1 of the first accommodating cavity 111 is smaller than the cross-sectional area A2 of the second accommodating cavity 113, so that a cable (not shown) can enter the second accommodating cavity 113 and Combined with the cable connection portion 122. The transmission conductor 120 is formed with a first threaded portion 124 protruding from the conductive gasket 130, and the first threaded portion 124 and the cable connection portion 122 are located at opposite ends of the transmission conductor 120. In addition, the second end portion 114 of the body 110 is formed with a second threaded portion 115. The signal transmission connector 100 further includes a first nut 160 and a second nut 170. The first nut 160 is coupled to the first threaded portion 124, and the second nut 170 is coupled to the second threaded portion 115. That is, the first nut 160 can adjust the distance between the conductive gasket 130 and the insulating gasket 140, and the second nut 170 can adjust the distance between the fixed gasket 150 and the abutting portion 116. FIG. 3 is a cross-sectional view of the signal transmission connector 100 shown in FIG. 2 when the transmission board 200 and the casing 300 are combined. Referring to FIG. 2 and FIG. 3 at the same time, the cross-sectional area A3 of the abutting portion 116 is larger than the cross-sectional area A4 of the first end portion 112, and the cross-sectional area A3 of the abutting portion 116 is also larger than the cross-sectional area 8 of the second end portion 8 M432174 A5. When the hole of the transmission plate 200 is substantially equal to the cross-sectional area A4 of the first end portion ^, the transmission plate 200 can be abutted by the abutting portion 116. When the hole of the casing 300 = approximately equal to the cross-sectional area of the second end portion 853, the casing 300 can be abutted by the abutting portion 116. In the present embodiment, the upper surface of the transmission plate 200 has a signal feeding terminal 210, and the lower surface of the transmission plate 200 has a ground terminal 22. The material of the transmission plate 200 may include Poly Dragon or Slope Fiber (FR4). The housing 300 means a housing for accommodating the transmission board 200. Specifically, when the signal transmission connector 100 is combined with the transmission board 200 and the φ housing 300, the signal transmission connector 100 can be coupled to the feeding terminal 21 and the ground terminal 220 'at the same time and fixed on the casing 300. The side of the abutting portion 116 near the first -¾¾ portion 112 contacts the ground end 220 'and the side of the abutting portion Η6 near the second end portion 114 contacts the housing 300. The conductive pad 130 contacts the second feeding terminal 210. The fixed gasket 150 is sandwiched between the fixed gasket 150 and the abutting portion 116. The first nut 160 is engaged with the first threaded portion 124, so that the conductive pad 130 is sandwiched between the first nut 160 and the feeding end 21o. The second nut 170 is sung on the first threaded portion 115 'so that the fixed septum bo is sandwiched between the second nut φ0 and the case 300. With this design, the transmission plate 200 can be sandwiched between the conductive gasket 130 and the abutting portion 116 'and the housing 300 can be sandwiched between the fixed gasket 50 and the abutting portion 116. When transmitting a signal, the feed terminal 2o, the conductive pad bo is connected to the transmission conductor 120 ', and the insulating tab 14 isolates the conductive tab 13 from the first end 112 of the body 110. That is, the signal transmission connector 100 transmits a signal through the conductive pad 130 and the transmission conductor 120, and is grounded through the abutting portion 116 of the main body 110. The connection of the signal transmission joint 100 to the feeding end 210 and the ground end 22 ° 9 State 2174 method adopts a contact method, which will not cause the defective signal transmission wheel due to insufficient welding strength. In addition, the transmission board using the signal transmission connector 100 can be made of a material that is not soldered or a relatively soft material (such as a flexible circuit board) to save manufacturing costs. On the other hand, the second end 114 of the main body U0 can be fixed to the housing 300, so that the transmission plate 200 located in the housing 300 and fixed to the first end 112 is not easy to shake, and the transmission plate 200 can be omitted. Elements (eg, screws) fixed to the housing 300. It should be understood that what has been saved in the above embodiments in the above embodiments will not be repeated, and only the steps of combining the signal transmission connector 100 with the transmission board 200 and the housing 300 will be supplemented. Let me explain first. Figure 4 shows an exploded view of the signal transmission connector 100 of Figure 1. FIG. 5 is a perspective view of the main body 110 of FIG. 4 combined with the transmission board 200. Referring to FIG. 4 and FIG. 5 at the same time, the upper surface of the transmission board 200 has a conductive wire 202 'and an end 210 of the conductive wire 202 is formed. A ground terminal 220 is formed on the lower surface of the transmission board 200. When assembling, firstly couple the first to the 112th end of the main body 110 to the hole between the feeding end 210 and the grounding end 220 of the transmission board 200, and set the insulating gasket 140 and the conductive gasket 130 in order. On the first threaded portion 124, the first nut 160 is then engaged with the first-threaded portion 124, so that the conductive gasket 130 is sandwiched between the first nut 160 and the feeding end 210. FIG. 6 is a perspective view when the main body 110 and the transmission plate 200 of FIG. 5 are combined in the outer case 300. As shown in the figure, the housing 300 has a hole 310 and the main body 110 is assembled behind the transmission plate 200. The manufacturer can move the body 110 and the transmission plate 200 in the direction D1 and pass the second threaded portion 115 out of the casing 300 through the hole 310. After that, the fixing washer 150 is sleeved on the second threaded portion II5 in the direction of M432174 to D2. Finally, it is instructed to engage the second threaded portion 115, so that the fixing washer 150 holds the second nut 171, 170 and the housing 300. This way, when it is lost to the second nut, you can get the three-dimensional view of the transmission connector 100 combined with the transmission plate 200 and the housing 300 as shown in Figure 7. This new embodiment is compared with the prior art (1) This signal transmission connector and feed terminal have the following advantages:
採用接觸的方式,不會因焊接的強片π端的連接方式係 不良。 又足而導致訊號傳輸 (2) 導電墊片套設於凸出第一端部 觸傳輸板的饋入端。抵靠部靠近第一端土 、輪導體,可接 輸板的接地端。因此,傳輸板可夾置於的面可接觸傳 之間。此外,固定墊片套設於第二端部,電墊1與抵靠部 二端部的-面可接觸外殼,因此外殼 近第 抵靠部之間。 灭置於固定墊片與 (3) 使用此訊號傳輸接頭的傳輸板,其材 能焊接的材料或較為軟薄的材料,以節省製造的成本’、、、不 外,本體的第二端部可固定於外殼上,使位於外殼内且^ 1於第-端部的傳輸板不易晃動,可省略將傳 外殼的元件。 疋於 —雖然本新型已以實施方式揭露如上,然其並非用以 ^本新型,任何熟習此技藝者,在不脫離本新型之精又 範圍内’當可作各種之更動與潤飾’因此本新型之保講^ 圍當視後附之申請專利範圍所界定者為準。 麵 M432174 【圖式簡單說明】 第1圖繪示根據本新型一實施方式之訊號傳輸接頭的 立體圖。 第2圖繪示第1圖之訊號傳輸接頭沿線段2-2’的剖面 圖。 第3圖繪示第2圖之訊號傳輸接頭組合於傳輸板與外 殼時的剖面圖。 第4圖繪示第1圖之訊號傳輸接頭的***圖。 第5圖繪示第4圖之本體組合於傳輸板的立體圖。 第6圖繪示第5圖之本體與傳輸板組合於外殼時的立 體圖。 第7圖繪示第1圖之訊號傳輸接頭與傳輸板、外殼組 合後的立體圖。 【主要元件符號說明】 100 訊號傳輸接頭 110 本體 111 第一容置空腔 112 第一端部 113 第二容置空腔 114 第二端部 115 第二螺紋部 116 抵靠部 120 傳輸導體 122 纜線連接部 124 第一螺紋部 130 導電墊片 140 絕緣墊片 150 固定墊片 160 第一螺帽 170 第二螺帽 200 傳輸板 202 導線 12 M432174 210 :饋入端 220 300 :外殼 310 2-2’ :線段 A1 : A2 :戴面積 A3 : A4 ·戴面積 A5 : D1 :方向 D2 : :接地端 :孔洞 截面積 截面積 截面積 方向With the contact method, the connection of the π-end of the welded fins is not defective. (2) The conductive gasket is sleeved on the feeding end of the protruding first end contacting the transmission plate. The abutting part is close to the first end soil and wheel conductor, and can be connected to the ground end of the transmission board. Therefore, the transfer plate can be sandwiched between the contactable surfaces. In addition, the fixing pad is sleeved on the second end portion, and the −face of the electric pad 1 and the second end portion of the abutting portion can contact the casing, so the casing is near the first abutting portion. Discard the fixed gasket and (3) the transmission board using this signal transmission connector, the material of which can be welded or a softer material to save the cost of manufacture ',,, but, the second end of the body It can be fixed on the casing, so that the transmission plate located in the casing and ^ 1 at the -end portion is not easy to shake, and the components that transmit the casing can be omitted.疋 Yu—Although the new model has been disclosed as above, it is not intended to be used for this new model. Anyone who is familiar with this skill will be able to make various changes and decorations without departing from the essence and scope of the new model. The guarantee of the new model is subject to the scope of the attached patent application. Surface M432174 [Brief description of the drawings] Fig. 1 shows a perspective view of a signal transmission connector according to an embodiment of the present invention. Fig. 2 shows a cross-sectional view of the signal transmission connector of Fig. 1 along the line segment 2-2 '. Fig. 3 is a cross-sectional view of the signal transmission connector of Fig. 2 when it is combined with the transmission board and the casing. Figure 4 shows an exploded view of the signal transmission connector of Figure 1. FIG. 5 shows a perspective view of the main body of FIG. 4 combined with the transmission board. Fig. 6 shows a perspective view of the main body and the transmission plate of Fig. 5 when they are combined in a casing. Fig. 7 shows a perspective view of the signal transmission connector of Fig. 1 combined with a transmission board and a casing. [Description of main component symbols] 100 signal transmission connector 110 body 111 first receiving cavity 112 first end portion 113 second receiving cavity 114 second end portion 115 second threaded portion 116 abutting portion 120 transmission conductor 122 cable Wire connection part 124 First thread part 130 Conductive washer 140 Insulating washer 150 Fixing washer 160 First nut 170 Second nut 200 Transmission board 202 Wire 12 M432174 210: Feed end 220 300: Housing 310 2-2 ': Line segment A1: A2: Wear area A3: A4 · Wear area A5: D1: Direction D2 :: Ground terminal: Hole cross-sectional area Cross-sectional area Cross-sectional area direction
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