TW202010187A - Jumper and power distribution device - Google Patents
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- 238000009826 distribution Methods 0.000 title claims abstract description 27
- 239000004020 conductor Substances 0.000 claims description 90
- 229910000679 solder Inorganic materials 0.000 claims description 17
- 230000007935 neutral effect Effects 0.000 description 10
- 238000010586 diagram Methods 0.000 description 8
- 238000004519 manufacturing process Methods 0.000 description 8
- 238000005476 soldering Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 5
- 230000009286 beneficial effect Effects 0.000 description 3
- 238000009413 insulation Methods 0.000 description 3
- 238000004026 adhesive bonding Methods 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000012777 electrically insulating material Substances 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
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Abstract
Description
本發明是有關於一種跨接器與電源分配裝置,且特別是有關於一種跨接器與應用此跨接器的電源分配裝置。The invention relates to a jumper and a power distribution device, and in particular to a jumper and a power distribution device using the jumper.
在常見的電源分配器(Power Distribution Unit,PDU)中,插座的導電端子可概分為火線端子、零線端子以及地線端子,並鄰的兩個插座的兩個火線端子、兩個零線端子以及兩個地線端子各別需透過對應的導體串接,以使並鄰的兩個火線端子彼此電性連接、並鄰的兩個零線端子彼此電性連接以及並鄰的兩個地線端子彼此電性連接。In a common Power Distribution Unit (PDU), the conductive terminals of a socket can be roughly divided into live wire terminals, neutral wire terminals and ground wire terminals, and two live wire terminals and two neutral wires of two adjacent sockets The terminal and the two ground terminals need to be connected in series through corresponding conductors, so that the two adjacent live terminals are electrically connected to each other, the two adjacent neutral terminals are electrically connected to each other, and the two adjacent grounds The wire terminals are electrically connected to each other.
現有應用於電源分配器的串接作法是利用多條導電線材分別串接並鄰的兩個火線端子、並鄰的兩個零線端子以及並鄰的兩個地線端子,但此種串接作法容易衍生出線材斷裂、線材脫離、短路以及接觸不良等問題,使得產品可靠度不佳。另一方面,在此種串接作法的過程中,產線人員必須逐一使導電線材的兩端部個別對準並鄰的兩個火線端子、並鄰的兩個零線端子或並鄰的兩個地線端子,並加以焊接固定,操作上較為不便,故難以縮減組裝工時。The existing serial connection method applied to the power distributor is to use a plurality of conductive wires to serially connect two adjacent live terminals, two adjacent neutral terminals and two adjacent ground terminals, but this series connection It is easy to derive problems such as wire breakage, wire separation, short circuit and poor contact, which makes the product less reliable. On the other hand, in the process of this series connection method, the line production personnel must individually align the two ends of the conductive wire with the two adjacent live terminals, the two adjacent neutral terminals or the adjacent two The ground terminals are welded and fixed, which is inconvenient in operation, so it is difficult to reduce the assembly time.
本發明提供一種跨接器與電源分配裝置,有助於提高產品可靠度,並縮減組裝工時。The invention provides a jumper and a power distribution device, which helps to improve product reliability and reduce assembly man-hours.
本發明的跨接器適於配置在兩插座之間。各插座設有至少一個導電端子。跨接器包括絕緣本體以及至少一個導電體。導電體包括導電本體部、第一導電卡接部以及第二導電卡接部。導電本體部連接絕緣本體。第一導電卡接部與第二導電卡接部分別位於導電本體部的相對兩側,並且分別自絕緣本體的相對兩側延伸而出。第一導電卡接部卡接此兩插座的其一的導電端子,且第二導電卡接部卡接此兩插座的另一的導電端子,以使兩個導電端子彼此電性連接。The jumper of the present invention is suitable for being disposed between two sockets. Each socket is provided with at least one conductive terminal. The jumper includes an insulating body and at least one electrical conductor. The conductive body includes a conductive body part, a first conductive clamping part and a second conductive clamping part. The conductive body part is connected to the insulating body. The first conductive clamping portion and the second conductive clamping portion are respectively located on opposite sides of the conductive body portion, and extend from the opposite sides of the insulating body, respectively. The first conductive clamping portion clamps one of the conductive terminals of the two sockets, and the second conductive clamping portion clamps the other conductive terminal of the two sockets, so that the two conductive terminals are electrically connected to each other.
在本發明的一實施例中,上述的第一導電卡接部具有第一卡槽。第二導電卡接部具有第二卡槽。此兩導電端子的其一穿過第一卡槽,而此兩導電端子的另一穿過第二卡槽。In an embodiment of the invention, the above-mentioned first conductive clamping portion has a first clamping slot. The second conductive clamping portion has a second clamping slot. One of the two conductive terminals passes through the first slot, and the other of the two conductive terminals passes through the second slot.
在本發明的一實施例中,上述的第一導電卡接部還具有位於第一卡槽內的第一卡凸。第二導電卡接部還具有位於第二卡槽內的第二卡凸。各個導電端子具有卡孔。第一卡凸卡入此兩導電端子的其一的卡孔,且第二卡凸卡入此兩導電端子的另一的卡孔。In an embodiment of the invention, the above-mentioned first conductive engaging portion further has a first engaging protrusion located in the first engaging slot. The second conductive clamping portion also has a second clamping protrusion located in the second clamping slot. Each conductive terminal has a card hole. The first locking protrusion is snapped into one of the two conductive terminals, and the second locking protrusion is snapped into the other of the two conductive terminals.
在本發明的一實施例中,上述的第一導電卡接部包括第一限位部以及從第一限位部的相對兩側延伸而出的兩第一卡勾。此兩第一卡勾的其一朝向此兩第一卡勾的另一與第一限位部彎折。第二導電卡接部包括第二限位部以及從第二限位部的相對兩側延伸而出的兩第二卡勾。此兩第二卡勾的其一朝向此兩第二卡勾的另一與第二限位部彎折。In an embodiment of the invention, the above-mentioned first conductive clamping portion includes a first limiting portion and two first hooks extending from opposite sides of the first limiting portion. One of the two first hooks is bent toward the other of the two first hooks and the first limiting portion. The second conductive clamping portion includes a second limiting portion and two second hooks extending from opposite sides of the second limiting portion. One of the two second hooks is bent toward the other of the two second hooks and the second limiting portion.
在本發明的一實施例中,上述的此兩導電端子的其一穿過兩個第一卡勾與第一限位部之間,並接觸各個第一卡勾的末端。此兩導電端子的另一穿過兩第二卡勾與第二限位部之間,並接觸各個第二卡勾的末端。In an embodiment of the invention, one of the above two conductive terminals passes between the two first hooks and the first limiting portion and contacts the ends of the first hooks. The other of the two conductive terminals passes between the two second hooks and the second limiting portion, and contacts the ends of each second hook.
在本發明的一實施例中,上述的導電體的數量為多個。導電體包括兩個第一導電體與一個第二導電體。第二導電體位於兩個第一導電體之間。且各個第一導電體的導電本體部與第二導電體的導電本體部內埋於絕緣本體。In an embodiment of the invention, the number of the above-mentioned conductors is plural. The electrical conductor includes two first electrical conductors and one second electrical conductor. The second electrical conductor is located between the two first electrical conductors. The conductive body portion of each first electrical conductor and the conductive body portion of the second electrical conductor are embedded in the insulating body.
在本發明的一實施例中,上述的兩個第一導電體的兩個第一導電卡接部相對準。第二導電體的第一導電卡接部與兩個第一導電體的兩個第一導電卡接部之間的最短連線保持距離。In an embodiment of the invention, the two first conductive engaging portions of the two first conductive bodies are aligned. The shortest line between the first conductive engaging portion of the second electrical conductor and the two first conductive engaging portions of the two first electrical conductors maintains a distance.
在本發明的一實施例中,上述的兩個第一導電體的兩個第二導電卡接部相對準。第二導電體的第二導電卡接部與兩個第一導電體的兩個第二導電卡接部之間的最短連線保持距離。In an embodiment of the invention, the two second conductive clamping portions of the two first conductive bodies are aligned. The shortest connecting line between the second conductive engaging portion of the second electrical conductor and the two second conductive engaging portions of the two first electrical conductors maintains a distance.
在本發明的一實施例中,上述的兩個第一導電體的兩個第一導電卡接部的兩個第一卡槽相對準。此兩第一卡槽的其一的開口面對此兩第一卡槽的另一的開口。In an embodiment of the invention, the two first clamping slots of the two first conductive clamping portions of the two first electrical conductors are aligned. The opening surface of one of the two first clamping slots opens to the other of the two first clamping slots.
在本發明的一實施例中,上述的兩個第一導電體的兩個第二導電卡接部的兩個第二卡槽相對準。此兩第二卡槽的其一的開口面對此兩第二卡槽的另一的開口。In an embodiment of the invention, the two second clamping slots of the two second conductive clamping portions of the two first electrical conductors are aligned. The opening surface of one of the two second clamping slots opens to the other of the two second clamping slots.
在本發明的一實施例中,上述的絕緣本體在第一導電卡接部延伸而出的一側設有第一止擋部。絕緣本體在第二導電卡接部延伸而出的一側設有第二止擋部。In an embodiment of the invention, the above-mentioned insulating body is provided with a first stop portion on a side where the first conductive clamping portion extends. The insulating body is provided with a second stop portion on the side where the second conductive clamping portion extends.
本發明的電源分配裝置包括兩插座與上述的跨接器。各個插座上設有至少一導電端子,且此兩導電端子透過上述的跨接器彼此電性連接。The power distribution device of the present invention includes two sockets and the above jumper. Each socket is provided with at least one conductive terminal, and the two conductive terminals are electrically connected to each other through the jumper.
基於上述,本發明的電源分配裝置應用跨接器以使並鄰的兩個插座彼此電性連接,進一步來說,各個插座包括至少一個導電端子,且跨接器的導電體的相對兩端部可分別卡接至並鄰的兩個導電端子。基於導電體與此兩導電端子的卡接關係,跨接器不易與此兩導電端子脫離開來,故能防止產生斷路的情事,以提高產品可靠度。再者,產線人員可透過導電體與此兩導電端子的卡接配合,快速地將導電體卡合於此兩導電端子之間,並使此兩導電端子彼此電性連接。因此,本發明的跨接器的設計有利於產線人員的組裝作業,且能大幅縮減組裝工時。Based on the above, the power distribution device of the present invention uses a jumper to electrically connect two adjacent sockets to each other. Further, each socket includes at least one conductive terminal, and opposite ends of the conductor of the jumper It can be connected to two adjacent conductive terminals separately. Based on the clamping relationship between the conductor and the two conductive terminals, the jumper is not easy to separate from the two conductive terminals, so it can prevent the occurrence of a disconnection and improve product reliability. Furthermore, the production line personnel can quickly engage the conductive body between the two conductive terminals through the conductive body and the two conductive terminals, and electrically connect the two conductive terminals to each other. Therefore, the design of the jumper of the present invention is beneficial to the assembly work of the production line personnel, and can greatly reduce the assembly man-hours.
為讓本發明的上述特徵和優點能更明顯易懂,下文特舉實施例,並配合所附圖式作詳細說明如下。In order to make the above-mentioned features and advantages of the present invention more obvious and understandable, the embodiments are specifically described below in conjunction with the accompanying drawings for detailed description as follows.
圖1是本發明一實施例的跨接器的示意圖。圖2是圖1的跨接器的俯視示意圖。圖3A是圖1的電源分配裝置的局部示意圖。圖3B是圖3A的導電卡接部與導電端子的卡接處設有焊料的局部放大示意圖。請先參考圖1、圖2以及圖3A,在本實施例中,電源分配裝置10包括至少兩個插座(示意地繪示出並鄰的第一插座20a與第二插座20b)以及跨接器100,其中跨接器100配置在第一插座20a與第二插座20b之間,用以串接第一插座20a與第二插座20b。在其它實施例中,插座的數量可大於兩個,而跨接器可大於一個,進一步來說,插座的數量可為n,其中n為正整數,且n大於等於2,跨接器的數量則為n-1。FIG. 1 is a schematic diagram of a jumper according to an embodiment of the invention. FIG. 2 is a schematic top view of the jumper of FIG. 1. 3A is a partial schematic diagram of the power distribution device of FIG. 1. FIG. 3B is a partially enlarged schematic view of the position where solder is provided at the connection between the conductive clamping portion and the conductive terminal of FIG. 3A. Please refer to FIG. 1, FIG. 2 and FIG. 3A first. In this embodiment, the
第一插座20a與第二插座20b分別設有至少一個導電端子,此處是以每個插座設有三個導電端子舉例說明,但不限於此。進一步來說,第一插座20a設有三個導電端子22a,分別為火線端子、零線端子以及地線端子,相似地,第二插座20b設有三個導電端子22b,分別為火線端子、零線端子以及地線端子。其中,第一插座20a的火線端子與第二插座20b的火線端子相對準,並透過跨接器100的串接而電性連接。第一插座20a的零線端子與第二插座20b的零線端子相對準,並透過跨接器100的串接而電性連接。第一插座20a的地線端子與第二插座20b的地線端子相對準,並透過跨接器100的串接而電性連接。The
在本實施例中,跨接器100包括絕緣本體110以及至少一導電體120,此處,因應各個插座的導電端子的數量,導電體120的數量為三個且並列設置。絕緣本體110的材質可為橡膠、矽膠、塑膠或其它電性絕緣的材料,而每一個導電體120包括導電本體部121、第一導電卡接部122以及第二導電卡接部123。進一步來說,三個導電本體部121連接絕緣本體110,且內埋於絕緣本體110。每一個第一導電卡接部122與對應的第二導電卡接部123分別位於對應的導電本體部121的相對兩側,且分別自絕緣本體110的相對兩側延伸而出。也就是說,每一個第一導電卡接部122與對應的第二導電卡接部123皆外露於對應的絕緣本體110,以利於分別卡接相對準的兩火線端子、相對準的兩零線端子或相對準的兩地線端子。舉例來說,跨接器100可採用嵌件成型(insert molding)製作而成,但不限於此。在其它實施例中,導電本體部非內埋於絕緣本體,導電本體部可採用鎖固、膠合、卡接或其它適用的固定方式,固定於絕緣本體的外部。In this embodiment, the
具體而言,每一個導電體120可透過外露於絕緣本體110的第一導電卡接部122與第二導電卡接部123分別卡接相對準的一個導電端子22a與一個導電端子22b,以使每一個導電端子22a與對應的導電端子22b彼此電性連接。基於每一個導電體120與對應的導電端子22a及導電端子22b的卡接關係,跨接器100不易與這些導電端子22a及這些導電端子22b脫離開來,故能防止產生斷路的情事,以提高產品可靠度。再者,產線人員可透過每一個導電體120與對應的導電端子22a及導電端子22b的卡接配合,快速地將每一個導電體120卡合於對應的導電端子22a與導電端子22b之間,並使每一個導電端子22a與對應的導電端子22b彼此電性連接。因此,本實施例的跨接器100的設計有利於產線人員的組裝作業,以大幅縮減組裝工時。Specifically, each
請參考圖1、圖2、圖3A及圖3B,就其中一個導電體120與對應的導電端子22a及導電端子22b進行說明,在本實施例中,導電體120的第一導電卡接部122具有第一卡槽122a,且導電體120的第二導電卡接部123具有第二卡槽123a。導電端子22a穿過第一卡槽122a,且導電端子22b穿過第二卡槽123a。就組裝過程來說,產線人員先將第一導電卡接部122的第一卡槽122a對準導電端子22a,並將第二導電卡接部123的第二卡槽123a對準導電端子22b,接著,朝向第一插座20a與第二插座20b下壓跨接器100,導電端子22a便能穿過並卡合於第一卡槽122a,而導電端子22b便能穿過並卡合於第二卡槽123a。基於此結構配合,串接在第一插座20a與第二插座20b之間的跨接器100在第一方向D1上的移動自由度便受到限制。Please refer to FIG. 1, FIG. 2, FIG. 3A and FIG. 3B to describe one of the
承接上述,第一導電卡接部122還具有位於第一卡槽122a內的第一卡凸122b,且第二導電卡接部123還具有位於第二卡槽123a內的第二卡凸123b。相應於此,導電端子22a具有卡孔24a,且導電端子22b具有卡孔24b。在導電端子22a穿過第一卡槽122a後,第一卡凸122b卡入卡孔24a,在導電端子22b穿過第二卡槽123a後,第二卡凸123b卡入卡孔24b。藉此卡合關係所產生的結構干涉,有助於防止跨接器100與這些導電端子22a及這些導電端子22b脫離開來。除此之外,如圖3B所示,第一導電卡接部122與導電端子22a的卡接處設有焊料30,其中焊料30包覆第一導電卡接部122的至少一部分與導電端子22a的至少一部分,且填入第一卡槽122a與卡孔24a,以電性接合第一導電卡接部122與導電端子22a。藉此,提高第一導電卡接部122與導電端子22a的機械性連接與電性連接的穩固程度,並且,第一卡槽122a與卡孔24a的設計不僅有利於焊接作業的進行,也有助於提高焊料30與第一導電卡接部122及導電端子22a的接合強度。特別說明的是,其它導電卡接部與對應的導電端子的卡接處也可設有焊料,於此不逐一贅述。Following the above, the first conductive engaging
請參考圖1、圖2以及圖3A,在本實施例中,這些導電體120包括兩個第一導電體120a與一個第二導電體120b,且第二導電體120b位於此兩第一導電體120a之間。具體而言,此兩第一導電體120a的結構設計相同,且對稱設置於第二導電體120b的相對兩側。進一步來說,此兩第一導電體120a的第一卡槽122a相對準,且此兩第一卡槽122a的開口122a1面向彼此。相似地,此兩第一導電體120a的第二卡槽123a相對準,且此兩第二卡槽123a的開口123a1面向彼此。基於此結構設計,當跨接器100串接在第一插座20a與第二插座20b後,跨接器100在第二方向D2上的移動自由度便受到限制,其中第二方向D2與第一方向D1相交,且例如是互為垂直。另一方面,第二導電體120b的第一導電卡接部122與第二導電卡接部123可選擇不在卡槽內設置卡凸,且第二導電體120b的卡槽的開口可選擇面向任一個第一導電體120a。Please refer to FIG. 1, FIG. 2 and FIG. 3A. In this embodiment, the
請參考圖2,在本實施例中,此兩第一導電體120a的第一導電卡接部122相對準,且第二導電體120b的第一導電卡接部122與此兩第一導電體120a的第一導電卡接部122之間的最短連線L1在第一方向D1上保持一距離。相似地,此兩第一導電體120a的第二導電卡接部123相對準,且第二導電體120b的第二導電卡接部123與此兩第一導電體120a的第二導電卡接部123之間的最短連線L2在第一方向D1上保持一距離。也就是說,第二導電體120b在第一方向D1上相對於此兩第一導電體120a偏移。Please refer to FIG. 2. In this embodiment, the first conductive catching
承接上述,絕緣本體110在此兩第一導電體120a的第一導電卡接部122延伸而出的一側設有至少一第一止擋部111,進一步來說,每一個第一導電體120a的第一導電卡接部122與第二導電體120b的第一導電卡接部122之間設有一個第一止擋部111,藉由第一止擋部111將第二導電體120b的第一導電卡接部122與對應的第一導電體120a的第一導電卡接部122分隔開來,能阻止焊接作業時的焊料溢流,避免第二導電體120b的第一導電卡接部122與任一個第一導電體120a的第一導電卡接部122搭接而造成短路。相似的,絕緣本體110在此兩第一導電體120a的第二導電卡接部123延伸而出的一側設有至少一第二止擋部112。進一步來說,每一個第一導電體120a的第二導電卡接部123與第二導電體120b的第二導電卡接部123之間設有一個第二止擋部112,藉由第二止擋部112將第二導電體120b的第二導電卡接部123與對應的第一導電體120a的第二導電卡接部123分隔開來,能阻止焊接作業時的焊料溢流,避免第二導電體120b的第二導電卡接部123與任一個第一導電體120a的第二導電卡接部123搭接而造成短路。Following the above, the insulating
以下將列舉其它實施例作說明,相同的技術內容與技術功效不重複贅述,可參照前述實施例,僅就各實施例的差異進行說明。The following will list other embodiments for description. The same technical content and technical effects will not be repeated here. Reference may be made to the foregoing embodiments, and only the differences between the embodiments will be described.
圖4是本發明另一實施例的跨接器的示意圖。圖5是圖4的俯視示意圖。圖6A是圖4的電源分配裝置的局部示意圖。圖6B是圖6A的導電卡接部與導電端子的卡接處設有焊料的局部放大示意圖。4 is a schematic diagram of a jumper according to another embodiment of the invention. FIG. 5 is a schematic top view of FIG. 4. 6A is a partial schematic diagram of the power distribution device of FIG. 4. FIG. 6B is a partially enlarged schematic view of the position where solder is provided at the connection between the conductive clamping portion and the conductive terminal of FIG. 6A.
請參閱圖4、圖5、圖6A以及圖6B,本實施例的跨接器100A與上述實施例的跨接器100的主要差異在於:本實施例的跨接器100A例如是由三個絕緣本體110與三個導電體120組合而成。進一步來說,一個絕緣本體110與一個導電體120構成一個子跨接器101,而此三個子跨接器101在第二方向D2上依序排列,且位處中間的子跨接器101在第一方向上D1相對於另兩個子跨接器101偏移。Please refer to FIGS. 4, 5, 6A, and 6B. The main difference between the
就其中一個子跨接器101進行說明,在本實施例中,導電體120的第一導電卡接部122具有第一限位部122c以及從第一限位部122c的相對兩側延伸而出的兩個第一卡勾122d。導電體120的第二導電卡接部123具有第二限位部123c以及從第二限位部123c的相對兩側延伸而出的兩個第二卡勾123d。具體而言,此兩第一卡勾122d從第一限位部122c延伸而出並朝向彼此以及第一限位部122c彎折。相似地,此兩第二卡勾123d從第二限位部123c延伸而出並朝向彼此以及第二限位部123c的表面彎折。One of the sub-jumpers 101 will be described. In this embodiment, the first conductive engaging
進一步而言,在本實施例中,第一導電卡接部122的第一限位部122c與此兩第一卡勾122d共同圍繞出第一卡槽122a。第二導電卡接部123的第二限位部123c與此兩第二卡勾123d共同圍繞出第二卡槽123a。基於此結構設計,當本實施例的跨接器100A串接在第一插座20a與第二插座20b後,對其中一個子跨接器101而言,第一插座20a的導電端子22a穿過此兩第一卡勾122d與第一限位部122c之間(亦即穿過第一卡槽122a),且第一限位部122c抵貼導電端子22a的一表面,此兩第二卡勾122d的末端接觸導電端子22a的另一表面。相似地,插座20b的導電端子22b穿過此兩第二卡勾123d與第二限位部123c之間(亦即穿過第二卡槽123a),且第二限位部123c抵貼導電端子22b的一表面,第二卡勾123d的末端接觸導電端子22b的另一表面。藉由上述結構使對應的兩導電端子22a、22b彼此電性連接。除此之外,如圖6B所示,第一導電卡接部122與導電端子22a的卡接處設有焊料30,其中焊料30例如是位於此兩第一卡勾122d與導電端子22a之間,以電性接合第一導電卡接部122與導電端子22a。藉此,提高第一導電卡接部122與導電端子22a的機械性連接與電性連接的穩固程度。並且,第一卡槽122a、第一限位部122c以及第一卡勾122d的設計不僅有利於焊接作業的進行,也有助於提高焊料30與第一導電卡接部122及導電端子22a的接合強度。特別說明的是,其它導電卡接部與對應的導電端子的卡接處也可設有焊料,於此不逐一贅述。Further, in the present embodiment, the first limiting
承接上述,在本實施例中,每一個子跨接器101的絕緣本體110在第一導電卡接部122延伸而出的一側設有兩個第一止擋部111。每一個子跨接器101的絕緣本體110在第二導電卡接部123延伸而出的一側設有兩個第二止擋部112。藉由第一止擋部111分隔相鄰的兩個子跨接器101的第一導電卡接部122,能防上焊接作業時的焊料溢流。藉由第二止擋部112分隔相鄰的兩個子跨接器101的第二導電卡接部123,能防上焊接作業時的焊料溢流。Following the above, in this embodiment, the insulating
綜上所述,本發明的電源分配裝置應用跨接器以使並鄰的兩個插座電性連接,進一步來說,各個插座包括至少一個導電端子,且跨接器的導電體的相對兩端部可分別卡接至並鄰的兩個導電端子。基於導電體與此兩個導電端子的卡接關係,跨接器不易與此兩導電端子脫離開來,故能防止產生斷路的情事,以提高產品可靠度。再者,產線人員可透過導電體與此兩導電端子的卡接配合,快速地將導電體卡合於此兩導電端子之間,並使此兩導電端子彼此電性連接。因此,本發明的跨接器的設計有利於產線人員的組裝作業,且能大幅縮減組裝工時。In summary, the power distribution device of the present invention uses a jumper to electrically connect two adjacent sockets. Further, each socket includes at least one conductive terminal, and opposite ends of the conductor of the jumper The part can be respectively snapped to two adjacent conductive terminals. Based on the clamping relationship between the conductor and the two conductive terminals, the jumper is not easy to separate from the two conductive terminals, so it can prevent the occurrence of a disconnection and improve product reliability. Furthermore, the production line personnel can quickly engage the conductive body between the two conductive terminals through the conductive body and the two conductive terminals, and electrically connect the two conductive terminals to each other. Therefore, the design of the jumper of the present invention is beneficial to the assembly work of the production line personnel, and can greatly reduce the assembly man-hours.
雖然本發明已以實施例揭露如上,然其並非用以限定本發明,任何所屬技術領域中具有通常知識者,在不脫離本發明的精神和範圍內,當可作些許的更動與潤飾,故本發明的保護範圍當視後附的申請專利範圍所界定者為準。Although the present invention has been disclosed as above with examples, it is not intended to limit the present invention. Any person with ordinary knowledge in the technical field can make some changes and modifications without departing from the spirit and scope of the present invention. The scope of protection of the present invention shall be subject to the scope defined in the appended patent application.
10‧‧‧電源分配裝置20a、20b‧‧‧插座22a、22b‧‧‧導電端子24a、24b‧‧‧卡孔30‧‧‧焊料100、100A‧‧‧跨接器101‧‧‧子跨接器110‧‧‧絕緣本體111‧‧‧第一止擋部112‧‧‧第二止擋部120‧‧‧導電體120a‧‧‧第一導電體120b‧‧‧第二導電體121‧‧‧導電本體部122‧‧‧第一導電卡接部122a‧‧‧第一卡槽122a1、123a1‧‧‧開口122b‧‧‧第一卡凸122c‧‧‧第一限位部122d‧‧‧第一卡勾123‧‧‧第二導電卡接部123a‧‧‧第二卡槽123b‧‧‧第二卡凸123c‧‧‧第二限位部123d‧‧‧第二卡勾D1‧‧‧第一方向D2‧‧‧第二方向L1、L2‧‧‧最短連線10‧‧‧
圖1是本發明一實施例的跨接器的示意圖。 圖2是圖1的跨接器的俯視示意圖。 圖3A是圖1的電源分配裝置的局部示意圖。 圖3B是圖3A的導電卡接部與導電端子的卡接處設有焊料的局部放大示意圖。 圖4是本發明另一實施例的跨接器的示意圖。 圖5是圖4的跨接器的俯視示意圖。 圖6A是圖4的電源分配裝置的局部示意圖。 圖6B是圖6A的導電卡接部與導電端子的卡接處設有焊料的局部放大示意圖。FIG. 1 is a schematic diagram of a jumper according to an embodiment of the invention. FIG. 2 is a schematic top view of the jumper of FIG. 1. 3A is a partial schematic diagram of the power distribution device of FIG. 1. FIG. 3B is a partially enlarged schematic view of the position where solder is provided at the connection between the conductive clamping portion and the conductive terminal of FIG. 3A. 4 is a schematic diagram of a jumper according to another embodiment of the invention. FIG. 5 is a schematic top view of the jumper of FIG. 4. 6A is a partial schematic diagram of the power distribution device of FIG. 4. FIG. 6B is a partially enlarged schematic view of the position where solder is provided at the connection between the conductive clamping portion and the conductive terminal of FIG. 6A.
100‧‧‧跨接器 100‧‧‧Jumper
110‧‧‧絕緣本體 110‧‧‧Insulation body
111‧‧‧第一止擋部 111‧‧‧First stop
112‧‧‧第二止擋部 112‧‧‧Second stop
120‧‧‧導電體 120‧‧‧Conductor
120a‧‧‧第一導電體 120a‧‧‧First conductor
120b‧‧‧第二導電體 120b‧‧‧Second conductor
121‧‧‧導電本體部 121‧‧‧Conductive body
122‧‧‧第一導電卡接部 122‧‧‧The first conductive clamping part
123‧‧‧第二導電卡接部 123‧‧‧Second conductive clamping part
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