M346144 八、新型說明: 【新型所屬之技術領域】 本創作是有關於一種薄型電連 一種可降低電連接器高度之薄型電連接器。有關於 【先前技術】 明參考第1圖’為習知技藝之電連接器 哭 可利用低電壓差分訊號(L0W νο α LVDS)進行電訊傳輸,並包合 l ntlai Slgna1’ ^ L i ;,、包3 一絕緣本體11、複數電性 鳊子12、一上设體13及一下殼體14。 絕緣本體11具有對應電性端 具有一對接部121及一焊接部122置二:1】 = 嵌入容置空間U1⑺,再將上殼體 下双體14勿別盍設於絕緣本體u之上、下方, 絕緣本體11容置於兩殼I#内。田% 便口〆 -雷踗妬m去“ 取後,將焊接部122焊接於 電路板(圖未不)上,以完成電連接器之組裝。 ♦ Λ、、:而驾知技藝之電連接器缺點在於,此種電連接哭 :利用兩殼體之配合以包覆絕緣本體⑴造當; 番处„门,— 、^斋產〇口内部時,需預留較大之裝 二工間J因此無法符合現今電子產品曰益輕薄短小 勢,也導致製造費用無法有效降低。 之藝之各項問題,為了能夠兼顧解決 錄ί 2夕年研究開發與諸多實務經驗,提出 據種薄型電連接器,以作為改善上述缺點之實現方式與依 5 M346144 【新型内容】 有鑑於此,本創作之目的就是在提供一種薄型電連 接器,其可降低連接器整體高度。 根據本創作之目的,提出一種薄型電連接器,其包含 一絕緣本體、複數電性端子及一殼體。絕緣本體具有一容置 空間及一擋止部。電性端子設置於容置空間内。殼體具有一 " 對應擋止部之定位件,藉由擋止部及定位件,使殼體固定至 絕緣本體之上方。 馨其中,絕緣本體之兩側更分別設置對應定位件之溝槽, 用以限位定位件。 承上所述,因依本創作之薄型電連接器,可降低電連接器 之整體高度,以符合現今電子產品曰益輕薄短小之趨勢。 【實施方式】 以下將參照相關圖式,說明依本創作之薄型電連接器 I 之實施例。 . 請參閱第2圖,其係為本創作之薄型電連接器之實施 例之示意圖。圖中,薄型電連接器包含一絕緣本體21、 ‘ 複數電性端子22及一殼體23。在本實施例中,薄型電連 接器可利用LVDS之傳輸技術傳輸電性訊號。 絕緣本體21呈長方體狀,具有一頂面211、一底面 212、二設置於頂面211側邊之溝槽213及二擋止部214, 其中,該擋止部214係設置於頂面211二侧並對應溝槽 213上方。底面212上間隔設置複數突起部215及複數凹 6 • M346144 陷=216 ’且突起部215、凹陷部216及頂面211界定出 一容置空間217。在本實施例中,絕緣本體21係利用塑 膠材質以射出成型之方式所製成。 電性端子22之前端延伸一對接部221,後端則凸設 一焊接部222。對接部221呈長條狀,設置於容置空間 2/7内,用以對接一配合電連接器(圖未示),焊接部 係與一電路板(圖未示)電性連接。 —殼體23呈長條板狀,兩端分別具有對應溝槽213之 疋位件231,及對應配合電連接器之接地端子232。定位 •件231呈長條板狀,係由殼體23之一側朝絕緣本體u 延伸。在本實施例中,殼體23係以金屬材質製 保護絕緣本體21。 於組裝薄型電連接器時,將對接部221嵌入容置空 3 217⑺,使其位於凹陷部216之上方,並藉由鄰近^ 犬起部215夾持固定於容置空間217内。接著將定位件 231分別滑入相對應之溝槽213内並使定位件23丨通過由 擋止部214與溝槽213所界定出配合定位件231之言卢 •及寬度之一間隙218。當定位件231完全通過間隙1;; 後,设體23之一側因頂抵擂止部214而停止滑動。接著 •藉由治具或人工方式,將定位件231以一角度彎折,使 其抵靠於絕緣本體21之一侧緣。因此,殼體23藉由浐 止部214及定位件231之辅助而穩固固定於絕緣本體^ 上,不會因遭受碰撞或震動而鬆脫。因本創作之輕 電連接器僅須一殼體23便可固定至絕緣本體21上,而 無須如習知技藝之電連接器,係需利用上下殼體相連接 之方式固定電連接器,而能降低電連接器整體高度而減 >、裝設所需之空間,以適用於日益輕薄之電子產口上, 7 M346144 且製造費用較習知技藝之電連器為低廉。 歸納上述,相較於習知技藝之電連接器需二殻體以 固疋絕緣本體,本創作之薄型電連接器僅利需一殻體即 可穩固固定之絕緣本體上,因而降低電連接器整體高 度’並降低製造成本。 以上所述僅為舉例性,而非為限制性者。任何未脫離本 創作之精神與範疇,而對其進行之等效修改或變更,均應包 含於後附之申請專利範圍中。 【圖式簡單說明】 圖係為習知技藝之電連接器之分解圖·, 第2 ίί本創作之薄型電連接器之分解圖; 體藉由定連難之另―分解圖,係說明一殼 = 合圖;以及M346144 VIII. New description: [New technical field] This creation is about a thin electrical connection. A thin electrical connector that reduces the height of the electrical connector. Referring to [Prior Art] Referring to Figure 1 for the electrical connector of the prior art, the low voltage differential signal (L0W νο α LVDS) can be used for telecommunication transmission, and includes l ntlai Slgna1' ^ L i ;, The package 3 includes an insulative housing 11, a plurality of electrical tweezers 12, an upper body 13 and a lower housing 14. The insulating body 11 has a corresponding electrical end having a pair of connecting portions 121 and a soldering portion 122 disposed two: 1] = embedded in the accommodating space U1 (7), and then the upper housing lower body 14 is not disposed on the insulating body u, Below, the insulating body 11 is housed in the two shells I#. Tian% 便口〆-雷踗妒m goes to “After the extraction, the soldering part 122 is soldered to the circuit board (not shown) to complete the assembly of the electrical connector. ♦ Λ, ,: and the electrical connection of the driving skill The disadvantage of this device is that the electrical connection is crying: it is made by the cooperation of the two shells to cover the insulating body (1); when the door is opened, the inside of the mouth is required to be reserved. Therefore, J cannot meet the current short-term advantages of electronic products, and the manufacturing costs cannot be effectively reduced. In order to be able to solve the problems of the research and development and many practical experiences, the thin-type electrical connectors are proposed to improve the above-mentioned shortcomings and to comply with the 5 M346144 [new content] The purpose of this creation is to provide a thin electrical connector that reduces the overall height of the connector. In accordance with the purpose of the present invention, a thin electrical connector is provided that includes an insulative housing, a plurality of electrical terminals, and a housing. The insulating body has an accommodating space and a stopping portion. The electrical terminal is disposed in the accommodating space. The housing has a positioning member corresponding to the stopping portion, and the housing is fixed to the upper portion of the insulating body by the stopping portion and the positioning member. In the scent, the two sides of the insulating body are respectively provided with grooves corresponding to the positioning members for limiting the positioning members. As mentioned above, the thin electrical connector created by the present invention can reduce the overall height of the electrical connector to meet the trend of light weight and shortness of today's electronic products. [Embodiment] Hereinafter, an embodiment of a thin electrical connector I according to the present invention will be described with reference to the related drawings. Please refer to Fig. 2, which is a schematic diagram of an embodiment of the thin electrical connector of the present invention. In the figure, the thin electrical connector comprises an insulative housing 21, a plurality of electrical terminals 22 and a housing 23. In this embodiment, the thin electrical connector can transmit electrical signals using the transmission technique of LVDS. The insulative housing 21 has a rectangular parallelepiped shape, and has a top surface 211, a bottom surface 212, and two grooves 213 and two stop portions 214 disposed on the side of the top surface 211. The blocking portion 214 is disposed on the top surface 211. The side is corresponding to the upper side of the groove 213. The bottom surface 212 is provided with a plurality of protrusions 215 and a plurality of recesses 6 • M346144 traps = 216 ′ and the protrusions 215 , the recesses 216 and the top surface 211 define an accommodation space 217 . In the present embodiment, the insulative housing 21 is formed by injection molding using a plastic material. The front end of the electrical terminal 22 extends a pair of joint portions 221, and a welded portion 222 protrudes from the rear end. The abutting portion 221 is elongated and disposed in the accommodating space 2/7 for abutting a mating electrical connector (not shown), and the soldering portion is electrically connected to a circuit board (not shown). The housing 23 has a long strip shape, and has a clamping member 231 corresponding to the groove 213 at both ends, and a grounding terminal 232 corresponding to the electrical connector. The positioning member 231 is in the form of a long strip extending from one side of the housing 23 toward the insulative housing u. In the present embodiment, the casing 23 is made of a metal material to protect the insulating body 21. When the thin electrical connector is assembled, the mating portion 221 is inserted into the accommodating space 3 217 (7) so as to be positioned above the recessed portion 216, and is clamped and fixed in the accommodating space 217 by the adjacent dog 215. Then, the positioning member 231 is respectively slid into the corresponding groove 213 and the positioning member 23 is passed through a gap 218 defined by the blocking portion 214 and the groove 213 to cooperate with the positioning member 231. When the positioning member 231 completely passes through the gap 1;; one side of the body 23 stops sliding due to the top abutting stop portion 214. Then, the positioning member 231 is bent at an angle by a jig or a manual manner to abut against one side edge of the insulative housing 21. Therefore, the housing 23 is firmly fixed to the insulative housing 2 by the assistance of the stopper portion 214 and the positioning member 231, and is not loosened by collision or vibration. Since the light electrical connector of the present invention can be fixed to the insulative housing 21 only by a housing 23, without the need for an electrical connector as in the prior art, it is necessary to fix the electrical connector by connecting the upper and lower housings. It can reduce the overall height of the electrical connector and reduce the space required for installation. It is suitable for the increasingly thin and light electronic production port, 7 M346144 and the manufacturing cost is lower than the conventional electrical connector. In summary, the electrical connector of the prior art requires two housings to fix the insulating body. The thin electrical connector of the present invention only needs a housing to stabilize the fixed insulating body, thereby reducing the electrical connector. Overall height' and reduced manufacturing costs. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of this creation should be included in the scope of the appended patent application. [Simple diagram of the diagram] The diagram is an exploded view of the electrical connector of the prior art. The exploded view of the thin electrical connector of the second creator; the other is an exploded view of the body. Shell = hinge; and
寻生冤連接為之另一視角之組合圖。 【主要元件符號說明】 11 ·絕緣本體; 111 :容置空間; 12 :電性端子; 121 :對接部; 122 :焊接部; 13 ··上殼體; 14 :下殼體; 21 ··絕緣本體; 8 M346144 211 :頂面; 212 :底面; 213 :溝槽; 214 :擋止部; 215 :突起部; 216 :凹陷部; 217 :容置空間; 218 :間隙; 22 :電性端子; 221 :對接部; 222 :焊接部; 23 :殼體; 231 :定位件;及 232 :接地端子。A combination of the other perspectives of the search for a connection. [Description of main component symbols] 11 · Insulating body; 111 : accommodating space; 12 : Electrical terminal; 121 : butt joint; 122 : welded part; 13 · · upper case; 14 : lower case; 21 · · insulation Main body; 8 M346144 211: top surface; 212: bottom surface; 213: groove; 214: stopper; 215: protrusion; 216: recess; 217: accommodation space; 218: gap; 22: electrical terminal; 221: butt joint; 222: welded portion; 23: housing; 231: positioning member; and 232: grounding terminal.