1328321 九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種導電夾,特別是有關於一種具有一插孔及— 彈性元件之導電夾。 i 【先前技術】 -· 蓄電池是一種工業上常見的產品,用來提供電子設備足夠的電 力。第一圖即為一種習知的蓄電池100。一般人在使用蓄電池丨⑽時 通常^配合使用如第二圖所示的導電夾2〇〇 (俗稱鱷魚夾或歐洲夹) 鲁來將蓄電池1〇〇的電極接頭ιοί與電線(未圖示出)夾起來,進而達 成導電的作用。如第二圖所示,導電夾200的前半部通常成鑛齒狀, 因此與電極接頭101的接觸是屬於點接觸,如此一來,在夾持時容易 因移動電線或蓄電池1〇〇而使得導電夾2〇〇與電極接頭1〇1鬆脫進 而產生無法穩定傳送電力的問題。 【發明内容】 本發明之目的之一係在於提供一種具有一插孔及一彈性元之 電夾’以解決上述問題。 • _本發明係揭露一種導電夾,包括:一第一導電夾體,具有一第一 刖段、一第一中段及一第一後段;一第二導電夾體,具有一第二前段、 一第二中段及一第二後段,其中,該第一導電夾體之該第一中段係樞 接於該第二導電夾體之該第二中段,以及該第一導電失體之該第一前 -段與該第二導電夾體之該第二前段係相互抵靠以夾持一導電線材;一 插孔,設置於該第二導電失體之該第二前段;以及一彈性元件,設置 .-於該第二導電夹體之該第二後段。 本發明亦揭露一種導電夾,用以將一電池之電力傳送至一導電線 材,包括:一第一導電失體;一第二導電夾體,樞接於該第一導電夾 體’其中’該第一導電夾體與該第二導電夾體係相互抵靠以夾持該導 1328321 電線材;一插孔,設置於該第二導電失體;以及一彈性元件,設置於 該第二導電夾體,其中’當該電池之一電極接頭插入該插孔時,該彈 性元件係抵靠該電池以提供一彈性力而將該電極接頭固定於該插孔 内。 為使本發明之目的、特徵及(或)優點能更為明顯易懂,特舉出 : 較佳實施例,並配合本案所附圖式,詳細說明如後。 【實施方式】 如第三圖及第四圖所示,本發明係提供一種改良式的導電夾 # 300 ’其中,第三圖係為由頂面所視之導電夾300的立體圖,而第四圖 係為由底面所視之導電爽300的立體圖。本發明的導電夾係用來 將電池的電力傳送至導電線材。如圖所示,在本發明的一實施例中, 導電夾300係包括第一導電夾體301、第二導電失體3〇2、插^丨叩q、 彈性元件304及複數個導電孔305。第一導電夾體301具有第一前段 306、第一中段307及第一後段308,第二導電夾體3〇2具有第二前段 309、第二中段310及第二後段311。第一導電夾體301的第一中段3〇7 係樞接於第二導電夾體302的第二中段310。第一導電夾體3〇1的第 一前段306與第二導電夾體3〇2的第二前段309係相互抵靠以夾持導 # 電線材。插孔303設置於第二導電夾體302的第二前段3〇9下方。彈 性元件304設置於第二導電夹體3〇2的第二後段311下方。在本實施 例中,彈性元件3〇4係為一彈簧。 ? ^如第五圖及第六圖所示,本發明的導電夾300可以固定在習知的 蓄電池丨〇〇上,其中,第五圖係為導電夾300固定於蓄電池100時的 •立體圖,而第六圖係為導電夾300固定於蓄電池100時的側視圖。如 f所了,在本發明的—實施例中’當蓄電池_的電極接頭1。1插入 插孔303時,彈性元件3〇4係抵靠蓄電池1〇〇的頂面以提供彈性力, 進而使電極接頭1〇1緊密地固定於插孔303内,如此一來,當蓄電池 100的電力被傳送至導電線材的棘巾,不致發轉電夾3(J與電極 1328321 無法導電的情形。在本實施例中,電極接頭101係以 插子 1 30^ 更且,電極接頭101係以面接觸方式插入 垂+iff明中,導電孔305可以設置於第一導電夾體3〇1或第二導 置於m3如’在第四圖所示的實施例中’該等導電孔3G5係設 又,在本發明的一實施例中,如第三圖所示,導電夾3〇〇更可 絕緣件312及第二絕緣件313。第-絕緣件312係套設於第一 導電夾體301 #第-後段308,而第二絕緣件313係套設於第 失體302的第二後段31卜在本實施例+ ’第一絕緣件312及第二 皆為塑膠套。請注意,在本發明中,可以視情形需要而ί擇 疋否將第一絕緣件312及第二絕緣件313套設在導電夾3〇〇上。 本發明是-種可以方便導電崩定於電池的電極接頭之結構改良 没计’在本發明的-實施例中,導電夾前面的下方處言史計有一插孔, 可以與電池的電極接頭以面接觸方式固定及導電。另外,在導電夾 面的下方處設計有-彈性元件,可讀電池的頂面相接觸而產 力,以協助整個導電夾不易與電極接頭發生鬆脫的情形。如此一來, 當本發明的導電夾與電池的電極接定後,可以暫時 直接訂作在電極接頭上’因此當導電炎夾持電線時,就不 線或電池而使得導電夾與電極接頭發生鬆脫的情形,而發生無法導電 的情形。並且’整個導電夾上任意處皆可以設計—個或數個導電孔, 任何其他電線皆可以穿過導電孔並銲接於内,而達到延伸電線的效果。 —以上所述僅為本發明之較佳實施例,並非用以限定本發明之涵蓋 範圍。任何熟習此項技藝者’依據本案說明書全文(包括申請專利範 圍)揭露之精神所做之些許變化與修飾,皆應屬於本發明之涵蓋範圍。 1328321 .本發明之有效保護範園應以申請專利範圍所界定者為準。 【圖式簡單說明】 第一圖表示習知的蓄電池。 第二圖表示習知的導電夾。 第三圖為本發明的導電夾由頂面所視的立體圖。 : 第四圖為第三圖的導電夾由底面所視的立體圖。 第五圖為本發明的導電失固定於習知的蓄電池時的立體圖。 第六圖為第五圖的側視圖。 > 【主要元件符號說明】 蓄電池 101 電極接頭 200、300 導電夾 301 第一導電夾體 302 第二導電夾體 3〇3 插孔 3〇4 彈性元件 305 導電孔 ► 306 第一前段 307 第一中段 308 第一後段 309 第二前段 k 310 第二中段 _ 311 第二後段 312 第一絕緣件 313 第二絕緣件1328321 IX. Description of the Invention: [Technical Field] The present invention relates to a conductive clip, and more particularly to a conductive clip having a socket and an elastic member. i [Prior Art] -· The battery is an industrially common product used to provide sufficient power for electronic equipment. The first figure is a conventional battery 100. When using the battery pack (10), the average person usually uses the conductive clip 2〇〇 (commonly known as the alligator clip or the European clip) as shown in the second figure. Lue will connect the battery connector ιοί and the wire (not shown). Clipped up to achieve the effect of conduction. As shown in the second figure, the front half of the conductive clip 200 is usually in the form of a mineral tooth, so that the contact with the electrode joint 101 is a point contact, so that it is easy to move the wire or the battery when clamping. The conductive clip 2〇〇 and the electrode joint 1〇1 are loosened to cause a problem that power cannot be stably transmitted. SUMMARY OF THE INVENTION One object of the present invention is to provide an electric clip having a socket and an elastic element to solve the above problems. The invention discloses a conductive clip, comprising: a first conductive clip body having a first turn portion, a first middle portion and a first rear portion; and a second conductive clip having a second front portion and a first a second middle section and a second rear section, wherein the first middle section of the first conductive clip is pivotally connected to the second middle section of the second conductive clip, and the first front side of the first conductive lost body The segment and the second front segment of the second conductive clip abut each other to clamp a conductive wire; a socket disposed in the second front portion of the second conductive body; and an elastic member disposed. - in the second rear section of the second conductive clip. The present invention also discloses a conductive clip for transferring power of a battery to a conductive wire, comprising: a first conductive body; a second conductive body pivotally connected to the first conductive body The first conductive clip and the second conductive clip system abut against each other to clamp the lead 1328321 wire; a jack disposed on the second conductive body; and an elastic member disposed on the second conductive body Wherein when one of the battery electrode contacts is inserted into the socket, the resilient member abuts against the battery to provide an elastic force to secure the electrode connector within the receptacle. In order to make the objects, features, and/or advantages of the present invention more obvious, the preferred embodiments are described in the accompanying drawings. [Embodiment] As shown in the third and fourth figures, the present invention provides an improved conductive clip #300', wherein the third figure is a perspective view of the conductive clip 300 viewed from the top surface, and the fourth The figure is a perspective view of the conductive cool 300 as viewed from the bottom surface. The conductive clip of the present invention is used to transfer power from a battery to a conductive wire. As shown in the figure, in an embodiment of the invention, the conductive clip 300 includes a first conductive clip 301, a second conductive body 3〇2, a plug, an elastic member 304, and a plurality of conductive holes 305. . The first conductive clip 301 has a first front section 306, a first middle section 307 and a first rear section 308. The second conductive clip 3〇2 has a second front section 309, a second middle section 310 and a second rear section 311. The first middle section 3〇7 of the first conductive clip 301 is pivotally connected to the second middle section 310 of the second conductive clip 302. The first front section 306 of the first conductive clip 3〇1 and the second front section 309 of the second conductive clip 3〇2 abut against each other to hold the lead wire. The jack 303 is disposed under the second front section 3〇9 of the second conductive clip 302. The elastic member 304 is disposed under the second rear section 311 of the second conductive clip 3〇2. In the present embodiment, the elastic member 3〇4 is a spring. As shown in the fifth and sixth figures, the conductive clip 300 of the present invention can be fixed on a conventional battery pack, wherein the fifth figure is a perspective view of the conductive clip 300 when it is fixed to the battery 100. The sixth drawing is a side view of the conductive clip 300 when it is fixed to the battery 100. As in the embodiment of the present invention, when the electrode connector 1.1 of the battery is inserted into the socket 303, the elastic member 3〇4 is abutted against the top surface of the battery 1 to provide an elastic force, and further The electrode joint 1〇1 is tightly fixed in the insertion hole 303, so that when the electric power of the battery 100 is transmitted to the ratchet of the conductive wire, the electric clip 3 is not transmitted (J and the electrode 1328321 cannot be electrically conductive. In this embodiment, the electrode joint 101 is inserted into the vertical joint, and the conductive joint 305 is disposed in the first conductive clip 3〇1 or the second. The conductive pads 3G5 are disposed in the embodiment of the present invention. In an embodiment of the present invention, as shown in the third figure, the conductive clips 3 are more insulated. The first insulating member 312 is sleeved on the first conductive clip 301 #1 - the rear portion 308, and the second insulating member 313 is sleeved on the second rear portion 31 of the lost body 302. In the present embodiment, the 'first insulating member 312 and the second one are both plastic sleeves. Please note that in the present invention, depending on the situation, The first insulating member 312 and the second insulating member 313 are sleeved on the conductive clip 3〇〇. The present invention is a structure improvement that can facilitate the electroconductive ablation of the electrode joint of the battery. In the embodiment of the present invention, a lower portion of the front surface of the conductive clip has a socket, which can be fixed and electrically connected in surface contact with the electrode joint of the battery. In addition, an elastic member is designed under the conductive clip surface. The top surface of the readable battery is in contact with the force to assist the entire conductive clip to be loosened from the electrode connector. Thus, when the conductive clip of the present invention is connected to the electrode of the battery, it can be temporarily customized. On the electrode connector, 'When the conductive inflammation holds the wire, the wire clamp and the electrode connector are loosened due to the wire or the battery, and the conductive can not be generated. And 'any place on the conductive clip can be designed— One or several conductive holes, any other wire can pass through the conductive holes and be welded to achieve the effect of extending the wire. - The above is only a preferred embodiment of the present invention, not The scope of the present invention is defined by the scope of the present invention. Any changes and modifications made by those skilled in the art in light of the disclosure of the present specification (including the scope of the patent application) are intended to be included in the scope of the present invention. The effective protection Fan Park shall be defined by the scope of the patent application. [Simplified description of the drawings] The first figure shows a conventional battery. The second figure shows a conventional conductive clip. The third figure shows the conductive clip of the present invention. The perspective view of the top surface is as follows: The fourth figure is a perspective view of the conductive clip of the third figure as viewed from the bottom. The fifth figure is a perspective view of the conductive disconnection of the present invention when it is fixed to a conventional battery. Side view of the figure. > [Main component symbol description] Battery 101 Electrode connector 200, 300 Conductive clip 301 First conductive clip 302 Second conductive clip 3〇3 Jack 3〇4 Elastic element 305 Conductive hole ► 306 a front section 307 a first middle section 308 a first rear section 309 a second front section k 310 a second middle section _ 311 a second rear section 312 a first insulating member 313 a second insulating member