M395529 五、新型說明: 【新型所屬之技術領域】 本創作係關於蓄電池熔接機的技術領域,特別是具有夹具 導正機構且用以導正電橋位置的蓄電池錯片炼接機。 【先前技術】 現今蓄電池已被廣泛應用於工業與民生的設備與器具比 如是汽機車、電動車、發電機、通訊器材和不斷電電源供應器 等等。而蓄電池的種類很多,其中錯酸蓄電池是市面上通用性 較尚的蓄電池。其係利用兩個電極和電解液間的化學作用來產 生電力,而電極板是由錯製成’電解液為硫酸和水依比率調 配’因此製造蓄電池過程,需要將錯片炫接於一基板上以組成 電極板。 上述的鉛片可搭配熔接機而固定地結合於基板上,其中熔 接機會設置有夾具以夹持鉛片進行炫接;而相鄰的船片之間更 以電橋相連使相鄰鉛片形成電性相接。 然而’相鄰的電橋若未能對準,則炫接結合的效果不佳, 容易形成所謂的“假焊或噴鉛,,,進而造成接觸不良或電流不 導通的斷路情形。 【新型内容】 本創作提供一種蓄電池鉛片熔接機夾具導正電橋結構,其 具有能夠將相_橋導正對準,而有助於使電制的結合更加 準確與穩固。 3 根據以上所述,本創作所揭示的蓄電池錯片熔接機夾具導 電橋、、、。構’其包含:一熔接主機;一夾持機構配置在該溶接 主機,其具有―第—夾部及—第二夾部,且該第一夾部與該第 二夾部能触雜移;—導正機構結合娜接域且位於該第 一夾部及該第二夾部之間,該導正機構具有—導正裝置,該導 褒置的端為-自由端且形成有一導正口,更有一嵌合槽道 喊在該導正裝置且貫穿該自由端的兩側,進喊該後合槽道 與該導正口相通。 如此-來’可以使蓄電池她板嵌人触合槽道内,並利 用該導正口將位在隔板二側的電橋導正^互相對準,如此炼接 機作動後,可以讓相對的電橋準確結合。 以下即依本創作的目的、功效及結構組態,舉出較佳實施 例,並配合圖式詳細說明。 【實施方式】 請參閱第1圖,圖中揭露一炫接主機Π)的-端配接-連 接機㈣。又-導正機構心接於爾主機Μ結合該 m職㈣辦與3 動導正機構30位移。 U 機1G的—端具有—失持機構12, 該夾持機構η具有-第一失部12a及一 第-爽部以與該第二炎部12b_目對位移。且“ 請參閱第2圖’位於—1的連接機構2〇具有 M395529 一固定組件22及二配接組件24。其中固定組件22由一端板 222及二側板224和226所組成;而配接組件24由一限位板 242及一結合板244所組成。 上述的端板222係固定在熔接主機1〇的一端,而二側板 224與226分別連接該端板222且位在熔接主機1〇的側面。 二塊限位板242係分別固定在該侧板224與226上,特別 是,每一限位板242具有一限位缺口 246。而結合板244略呈 T形’其較大寬度的一端嵌入限位缺口 246内,且該端固定於 侧板224和226 導正機構30可由一導正裝置32、滑塊34與滑桿36組合 而成。更進一步而言,導正裝置32為板體構造,例如由相對 的第一板部32a與第一板部32b構成。導正裝置32的一端為 一自由端322且形成有-導正口 324 ; 一嵌合槽道326係形成 在該導正裝置32上,且位於第一板部32a與第二板部32b之 間’且錢合槽道326貫穿該自由端322的兩側,進而使得該 欲合槽道326與該導正口 324相通。 雖然導正裝置32以板體構造提供導正口似及敌合槽道 326 ’然而上揭構造僅為實施例之_,並侧赚制導正裝置 32之均等構造。 士調整衰置40包含-螺桿42與_調整扭44。該螺桿犯係 滑塊34且平行歸桿36,蝴4減在該螺 干一端用以驅動該螺桿42 〇如此導正裝置%可以位移。 5 M395529 請參閱第2、3圖,導正機構30係結合該熔接主機1〇及〆 或該連接機構20 ’且其位於第一夾部12a及第二失部12b之 間。而調整鈕44位於熔接主機10的侧面。 請參閱第4圖,本創作的使用使對應一蓄電池5〇,特別 是,蓄電池50的隔板52嵌入該導正裝置32的嵌合槽道326 内,而且該導正裝置32—端的導正口 324恰與位在隔板52 一 側的電橋54形成喪合狀。 換s之,藉由隔板52與喪合槽道326的嵌合與引導,可 以使導正口 324與電橋54嵌合;而導正口 324更可進一步使 電橋54透過隔板52上的穿孔56而相對;當第一夾部12&與 第二夾部Ub互相接近,則可以分別壓觸隔板52二侧的電橋 54,並藉由通電使二電橋54的接觸位置熔接結合。如此一來, 可使電橋54的熔接更加準確及牢固。 上述實施例僅為例示性說明本創作之技術及其功效,而非 用於限制本創作。任何熟於此項技術人士均可在不違背本創作 之技術原理及精神的情況下,對上述實施例進行修改及變化, 因此本創作之權利保護範圍應如後所述之申請專利範圍所列。 【圖式簡單說明】 第1圖係本創作的部份分解圖。 第2圖係本創作各部件的分解圖。 第3圖係本創作的組合外觀圖。 第4圖係本創作的使用狀態示意圖。 6 M395529 【主要元件符號說明】 10熔接主機 12夾持機構 12a第一夾部 12b第二夾部 20連接機構 22固定組件 222端板 224、226 側板 24配接組件 242限位板 244結合板 246.限位缺口 30導正機構 32導正裝置 32a第一板部 32b第二板部 322自由端 324導正口 326嵌合槽道 34滑塊 36滑桿 40調整裝置 42螺桿 44調整鈕 50蓄電池 52隔板 54電橋 56穿孔M395529 V. New description: [New technical field] This is the technical field of battery fusion splicing machine, especially the battery splicing machine with clamp guiding mechanism and used to guide the position of the bridge. [Prior Art] Today's batteries have been widely used in industrial and people's livelihood equipment and appliances such as steam locomotives, electric vehicles, generators, communication equipment, and uninterruptible power supplies. There are many types of batteries, and the wrong acid batteries are the more versatile batteries on the market. It uses the chemical interaction between the two electrodes and the electrolyte to generate electricity, and the electrode plate is made up of 'electrolyte is sulfuric acid and water ratio ratio'. Therefore, the process of manufacturing the battery needs to be spliced to a substrate. On top to form an electrode plate. The lead piece may be fixedly coupled to the substrate by a fusion splicer, wherein the welding opportunity is provided with a clamp to clamp the lead piece for splicing; and adjacent ship pieces are connected by a bridge to form adjacent lead sheets. Electrically connected. However, if the adjacent bridges are not aligned, the effect of the splicing and bonding is not good, and it is easy to form a so-called "sham welding or squirting," which causes a bad contact or a non-conducting open circuit. The present invention provides a battery lead-splicer fixture positive-conducting bridge structure, which has the ability to align the phase-bridge alignment, and helps to make the electrical connection more accurate and stable. 3 According to the above, this book The battery chip splicer fixture conductive bridge disclosed in the creation, comprises: a fusion splicing host; a clamping mechanism is disposed on the splicing host, which has a “first clamping portion” and a second clamping portion, and The first clamping portion and the second clamping portion are capable of contact movement; the guiding mechanism is coupled to the N-connecting region and located between the first clamping portion and the second clamping portion, the guiding mechanism has a guiding device, The end of the guiding device is a free end and is formed with a guiding port, and a fitting channel is called on the guiding device and runs through the two sides of the free end, and the rear channel is connected to the guiding port. So - come 'can make the battery her board inlay In the road, and using the guide port, the bridges on the two sides of the partition are aligned with each other, so that the relative bridge can be accurately combined after the operation of the splicer. The following is the purpose and function of the creation. And the structural configuration, the preferred embodiment will be described in detail with reference to the drawings. [Embodiment] Please refer to FIG. 1 , which discloses a splicing host Π)-end mating-connecting machine (4). The guiding mechanism is connected to the main body and is coupled with the displacement of the m (4) and the 3th guiding mechanism 30. The end of the U 1G has a lost mechanism 12, and the clamping mechanism η has a first missing portion 12a and A first-cooling portion is displaced from the second inflamed portion 12b_ and the "connecting mechanism 2" at "1" in FIG. 2 has a M395529-fixing assembly 22 and a second mating assembly 24. The fixing component 22 is composed of an end plate 222 and two side plates 224 and 226; and the mating component 24 is composed of a limiting plate 242 and a bonding plate 244. The end plate 222 is fixed to one end of the fusion splicing unit 1 ,, and the two side plates 224 and 226 are respectively connected to the end plate 222 and are located on the side of the splicing main body 1 。. Two limiting plates 242 are respectively fixed on the side plates 224 and 226. In particular, each limiting plate 242 has a limiting notch 246. The binding plate 244 is slightly T-shaped. One end of the larger width is embedded in the limiting notch 246, and the end is fixed to the side plates 224 and 226. The guiding mechanism 30 can be guided by a guiding device 32, a slider 34 and a sliding bar 36. Combined. Further, the guiding device 32 has a plate structure, and is constituted by, for example, the opposing first plate portion 32a and the first plate portion 32b. One end of the guiding device 32 is a free end 322 and is formed with a guiding port 324; a fitting channel 326 is formed on the guiding device 32 and located in the first plate portion 32a and the second plate portion 32b. And the money channel 326 extends through the two sides of the free end 322, so that the desired channel 326 communicates with the guiding port 324. Although the guiding device 32 provides the guiding port and the enclosing channel 326' in the plate structure, the above-mentioned structure is only an embodiment, and the equal structure of the guiding device 32 is earned. The adjustment of the attenuation 40 includes a screw 42 and an adjustment knob 44. The screw is engaged with the slider 34 and is parallel to the lever 36. The butterfly 4 is reduced at the end of the screw to drive the screw 42. Thus, the guiding device can be displaced. 5 M395529 Referring to Figures 2 and 3, the guiding mechanism 30 is coupled to the welding host 1〇 and/or the connecting mechanism 20' and is located between the first clamping portion 12a and the second lost portion 12b. The adjustment button 44 is located on the side of the fusion splicing unit 10. Referring to FIG. 4, the use of the present invention corresponds to a battery 5, in particular, the partition 52 of the battery 50 is embedded in the fitting channel 326 of the guiding device 32, and the guiding end of the guiding device 32-end The port 324 is formed into a commemorative shape with the bridge 54 located on the side of the partition 52. In other words, the guiding port 324 can be engaged with the bridge 54 by the fitting and guiding of the partition 52 and the funneling channel 326; and the guiding port 324 can further pass the bridge 54 through the partition 52. When the first clamping portion 12 & and the second clamping portion Ub are close to each other, the bridge 54 on both sides of the partition 52 can be pressed respectively, and the contact position of the two bridges 54 can be made by energization. Fusion bonding. In this way, the welding of the bridge 54 can be made more accurate and firm. The above embodiments are merely illustrative of the techniques of the present invention and their effects, and are not intended to limit the present invention. Anyone skilled in the art can modify and change the above embodiments without violating the technical principles and spirit of this creation. Therefore, the scope of protection of this creation should be as listed in the patent application scope mentioned later. . [Simple description of the diagram] Figure 1 is a partial exploded view of the creation. Figure 2 is an exploded view of the various components of the creation. Figure 3 is a combined appearance of the creation. Figure 4 is a schematic diagram of the state of use of the present creation. 6 M395529 [Description of main component symbols] 10 welding main body 12 clamping mechanism 12a first clamping part 12b second clamping part 20 connecting mechanism 22 fixing component 222 end plate 224, 226 side plate 24 mating component 242 limiting plate 244 bonding plate 246 Limit notch 30 guiding mechanism 32 guiding device 32a first plate portion 32b second plate portion 322 free end 324 guiding port 326 fitting channel 34 slider 36 sliding rod 40 adjusting device 42 screw 44 adjusting button 50 battery 52 partition 54 bridge 56 perforation