Technical field:
The utility model relates to an ↔≈♥electrical connector te€δ£rminal, in particular to an elect∑"​rical connector terminal whi↔☆ch is simultaneously stamped and conשnected by two rows of terminal★ s on two strips in a continuous dieε ↑ mode, and two rows of terminalsσ÷★× are simultaneously plated du$€ring electroplating.
A plurality of connector ₩​terminals are usuall₩β₹y provided in the el♦•÷ectrical connector, an"♣d the connector terminals are not o♦¶<>nly identical in shape but also gλ≈enerally arranged regularly in thλ≈e connector. Therefore, in order toπ₽σ↓ achieve high-efficiency®> automation of terminal production a"★↓nd subsequent electr¶₩•≤oplating and assembly work, me™'£←tal sheet strips are often used in ✘>• the production of co×↓nnectors, and the intermediate pro₽δ∑ducts in the form of terminal stri¥₽♥δps are continuously punched andβ≤σ← then used. The belt is carried and pos♦↕itioned for automated plat>±≈ing and assembly.
The utility model ai₹<↕ms to provide a terminal"α♥ strip assembly of an electrλπε↔ic connector, which can mak ♣¶≤e the terminal on which th>♥÷e bearing is not easily deformed during♦£€ packaging and handli☆β<ng, reduce the unnecessary damage of th₹±e terminal to control the cost, aφ•>≠nd increase the transmi↓©  ssion during electroplating. T≠‌he smoothness is to ensure the platαγ₹↓ing quality and save the gold salt©✘​, and the two-row strip can be simult↑₽aneously plated to increase the pla≥≈α≈ting capacity.
The purpose of the u‍"γtility model is to realize two rows o®≥f materials carrying a plural₽​♦ity of electrons, which are><© strip-shaped elongated ¶ metal materials, which are&↔₽₩ punched with a plurλλ$ality of perforations arranged at a cer÷€tain interval, and respectively One si×♦£λde of the belt extends to a ₹±±plurality of connecting÷←‍ portions between the two s‍♣ βtrips to respectively coα≤☆↓nnect with the corresponding ter<§•αminals, so that the tε'erminals are integrated with the st✘ ↑rip and are regularly ar ≤' ranged in two rows between the®☆≈™ two strips at a certaiα‌φn interval, The utility model is char♦±₩‍acterized in that a ₹$≤‍series connecting po'♥'♦rtion is further extended between t&φ×he two strips to integ☆ rally connect with the longer por★↕"tions of the terminals on the diffe≥©  rent strips, so that the two strips, βα✔ the plurality of terminals and the ser""±ies portion are integra←♠lly connected.
A terminal strip assembly is provide€Ωd, wherein a plurality of co"€ nnecting portions extending f×≈©rom one side of the strip δ✔§"to the two strips are re§∑spectively stamped on tΩ¶ he two elongated strip-shape©™♥™d metal strips arranged in par£π£↓allel, and the plurality of terminals  ≥ are respectively conneβ×₩ cted to the foregoing The par∑≥✘εts are connected so that the termi→✘nals are integrated w↕∞€≥ith the strip and are regularly arrange ₩'εd in two rows between the twπ★$o strips at a certain interval, ✔×characterized in that a tandem port∞→ion is extended between ←→♦the two strips, which is differenγδπ↕t from the strip. The longer p →<✘ortions of the strapped •↕terminals are integrally connγ♥ected and the two strips, thΩδe plurality of terminals and λ§the series are integrally connected.
The utility model rel£ ates to a terminal strip€<↑∞ assembly for an elect←₽∑ric connector, wherein the terminal s≥&£trip combination uses two strips arran¶Ω↑∞ged in opposite rows, each stri♦$≈✘p extending out of the join®≠↓↕t to be respectivelyφ↓ connected with the corresponding te←←φ↔rminal, so that the termi★ελεnals It is regularly arranged in two ro♥≈∏ws between the two strips at a ce×<rtain interval. Further, a ♦ series portion is further extended © between the two strips to integrally γ≥‍connect with the longer portions of th​<αe terminals on the different strips, ®₩βso that the two stripπλ≈s, the plurality of ter€©minals and the series porti≈↑£on are integrally connected.