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JP4083777B2 - Terminal pairs including low arc terminals - Google Patents
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JP4083777B2 - Terminal pairs including low arc terminals - Google Patents

Terminal pairs including low arc terminals Download PDF

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JP4083777B2
JP4083777B2 JP2006212585A JP2006212585A JP4083777B2 JP 4083777 B2 JP4083777 B2 JP 4083777B2 JP 2006212585 A JP2006212585 A JP 2006212585A JP 2006212585 A JP2006212585 A JP 2006212585A JP 4083777 B2 JP4083777 B2 JP 4083777B2
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terminal
contact
conductive layer
male
female
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JP2006339167A (en
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宏樹 平井
孝士 太田
良次 辻
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Sumitomo Wiring Systems Ltd
AutoNetworks Technologies Ltd
Sumitomo Electric Industries Ltd
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Sumitomo Wiring Systems Ltd
AutoNetworks Technologies Ltd
Sumitomo Electric Industries Ltd
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Description

本発明は自動車用ワイヤーハーネスなどに有用なコネクタに利用するための端子対に関するものである。   The present invention relates to a terminal pair for use in a connector useful for an automobile wire harness or the like.

自動車等に用いられるコネクタは、当該自動車等の保守・点検のため、数ヶ月〜数年に1度程度の頻度で外される場合がある。しかし、コネクタの端子同士が離れる瞬間に当該端子間にアーク放電が発生するおそれがある。特に近年はバッテリー電圧の高圧化のため、かなり大きなアークがとぶおそれがあり、これに起因して端子を傷めることが考えられる。例えば雄端子は、通常、棒状又は板状の形状を有しており、雌端子への挿入を容易にするためにその先端部は若干尖った形状となっているが、前記の着脱及びそれに伴うアーク放電の発生の繰り返しによって、尖っていた先端部は溶融し、根元方向に若干移動して冷えて固まるため、先端部は丸くなりかつ膨出してくる。すなわち、端子が著しく変形する虞があり、これによる接触不良や、最悪の場合には雌端子に挿入すること自体できなくなる虞がある。   A connector used in an automobile or the like may be removed at a frequency of about once every several months to several years for maintenance and inspection of the automobile or the like. However, an arc discharge may occur between the terminals at the moment when the terminals of the connector are separated. Particularly in recent years, there is a possibility that a considerably large arc may be jumped due to an increase in the battery voltage, and it is considered that the terminal is damaged due to this. For example, a male terminal usually has a rod-like or plate-like shape, and its tip is slightly sharpened to facilitate insertion into the female terminal. By repeating the occurrence of arc discharge, the pointed tip portion melts, moves slightly in the direction of the root, cools and solidifies, and the tip portion becomes round and bulges. That is, the terminal may be remarkably deformed, resulting in poor contact, and in the worst case, the terminal may not be inserted into the female terminal.

本発明は上記の様な事情に着目してなされたものであって、その目的は、端子離脱時におけるアーク放電の発生を有効に抑え、そのアーク放電に起因する変形や破損を抑止することができる端子対を提供することにある。   The present invention has been made paying attention to the above circumstances, and its purpose is to effectively suppress the occurrence of arc discharge at the time of terminal detachment and to suppress deformation and breakage caused by the arc discharge. It is to provide a terminal pair that can be used.

本発明者らは、前記課題を解決するために鋭意研究を重ねた結果、雄端子が雌端子から離脱するときに最後に離れる部分(例えば先端部)の少なくとも外側部分を絶縁体で構成してその表面を導電層で被覆するようにすると、この導電層から前記雌端子が離れる直前まで端子間で電気を導通可能であり、かつ、端子が離れる際には前記導電層の内側にある絶縁体によってアークの発生量を著しく低減でき、端子の変形を抑制できることを見出し、本発明を完成した。   As a result of intensive studies to solve the above problems, the inventors of the present invention have constituted at least the outer part of the part (for example, the tip part) that is finally separated when the male terminal is detached from the female terminal with an insulator. When the surface is covered with a conductive layer, electricity can be conducted between the terminals until the female terminal is separated from the conductive layer, and when the terminal is separated, an insulator inside the conductive layer is provided. As a result, it was found that the amount of arc generated can be significantly reduced and the deformation of the terminal can be suppressed, and the present invention has been completed.

本発明は、雌端子と、この雌端子と嵌合することによって当該雌端子と通電可能な雄端子とからなる端子対であって、前記雄端子は、全体が導体で構成された端子本体部分と、この雄端子のうち前記雌端子から離脱するときに最後に離れる部位である最終接触部を含む領域の少なくとも外側部分を構成する絶縁体と、この絶縁体の表面を覆い、かつ前記端子本体部分と電気的につながる導電層とを有していて、この導電層が前記最終接触部で前記雌端子と最後に離れるように構成されている低アーク性端子であり、前記雌端子は、前記雄端子と完全に嵌合した状態で、前記導電層が設けられていない前記端子本体部分直接接触する電気接触部と、この電気接触部よりも先端側の位置で前記雄端子と接触し、かつ、両端子が離脱する際に前記電気接触部よりも後に前記雄端子の最終接触部で前記導電層から離れるアーク放電用接触部とを有するものである。
The present invention relates to a terminal pair comprising a female terminal and a male terminal that can be energized with the female terminal by fitting with the female terminal, wherein the male terminal is a terminal main body part entirely composed of a conductor. when the insulator constituting at least the outer portion of the region including the final contact portion is a portion away in the end when detached from the female terminal of the male terminals, covering the surface of the insulator, and the terminal body have a conductive layer leads to partial electrical, low arc resistance terminals the conductive layer is formed away the female terminal and the last the final contact portion, said female terminal, the in a state fitted perfectly with the male terminal, before contact with the electrical contact portion Kishirube conductive layer is in direct contact with the terminal body portion is not provided, and the male terminal at a position frontward of the electrical contact portion of this And when both terminals are detached, Those having a arcing contact portions away from said conductive layer at the final contact portion of the male terminal after the gas-contacting portion.

この構成によれば、端子嵌合状態での当該端子間の導通は、雄端子の導電層を通じてではなくそれ以外の端子本体部分(全体が導体で構成された部分)と雌端子の電気接触部との間で直接行われるので、雌端子が導電層にのみ接触して接続が行われる場合よりも信頼性が高まる。
According to this configuration, the electrical connection between the terminals in the terminal fitting state is not through the conductive layer of the male terminal, but the other terminal main body part (part composed entirely of a conductor) and the female terminal electrical contact part. since take place directly between the, increases reliability than if the female terminal connection contacts only the conductive layer is performed.

また、雌端子のうち雄端子の最終接触部で導電層から離れることによりアーク放電が行われる接触部が電気接触部とは別の部位のアーク放電用接触部であるため、当該電気接触部を有効に保護して端子対の寿命を延ばし、また端子間の接続信頼性をより高めることができる。
In addition, since the contact portion where the arc discharge is performed by leaving the conductive layer at the final contact portion of the male terminal among the female terminals is a contact portion for arc discharge different from the electrical contact portion, the electrical contact portion is It can be effectively protected to extend the life of the terminal pair, and the connection reliability between the terminals can be further improved.

より具体的には、前記雌端子の前端部に、前端が撓み変形可能なアーク放電用ばね接触片が形成され、このアーク放電用ばね接触片の前端が撓み変形した状態で前記雄端子の導電層に接触するように構成されているものが、好適である。この構成によれば、アーク放電を雌端子の本体部分よりも前方に離れた位置で行わせることができ、当該雌端子の保護をより確実に行うことができるとともに、前記アーク放電用ばね接触片の弾性変形による弾発力を利用して当該ばね接触片と導電層との接触をより確実にすることができる。   More specifically, an arc discharge spring contact piece whose front end can be bent and deformed is formed at the front end portion of the female terminal, and the male terminal is electrically conductive in a state where the front end of the arc discharge spring contact piece is bent and deformed. What is configured to contact the layer is preferred. According to this configuration, arc discharge can be performed at a position farther forward than the main body portion of the female terminal, the female terminal can be protected more reliably, and the arc discharge spring contact piece It is possible to make the contact between the spring contact piece and the conductive layer more reliable by utilizing the elastic force generated by the elastic deformation of.

以上のように本発明は、端子対を構成する雄端子の最終接触部の少なくとも外側部分を絶縁体で構成し、さらにその表面を端子本体部分と電気的につながる導電層で被覆したものであるため、端子間にアークが発生してもそのアークの発生量を著しく低減でき、端子の変形を抑制できる。また、端子嵌合状態での当該端子間の導通は、導電層を通じてではなくそれ以外の端子本体部分(全体が導体で構成された部分)と雌端子の電気接触部との間で直接行われるので、雌端子が導電層にのみ接触して接続が行われる場合よりも信頼性が高まる。しかも、アーク放電が行われるアーク放電用接触部が前記電気接触部とは別の部位であるため、当該電気接触部を有効に保護して端子対の寿命を延ばし、また端子間の接続信頼性をより高めることができる。 As described above, in the present invention, at least the outer portion of the final contact portion of the male terminal constituting the terminal pair is made of an insulator, and the surface thereof is covered with a conductive layer electrically connected to the terminal body portion. Therefore, even if an arc is generated between the terminals, the amount of arc generated can be significantly reduced, and deformation of the terminal can be suppressed. In addition, conduction between the terminals in the terminal fitting state is directly performed not between the conductive layers but between the other terminal main body portion (a portion made entirely of a conductor) and the electrical contact portion of the female terminal. Therefore, the reliability is improved as compared with the case where the female terminal contacts only the conductive layer and the connection is made. Moreover, since for arc discharge contact portion arc discharge is performed is a separate part from said electrical contact portion, extends the life of the terminal pair to effectively protect the electrical contact portion, also the connection reliability between the terminals Can be further enhanced.

以下、本発明に係る端子対に関して、添付図面を参照しつつ詳細に説明する。図1は本発明の端子を説明するための概略側面図であり、図2は雄端子の部分拡大断面図であり、図3は雄端子と雌端子との嵌合状態を示す部分拡大断面図であり、図4は雄端子と雌端子とが離脱するときの拡大断面図である。   Hereinafter, the terminal pair according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a schematic side view for explaining a terminal of the present invention, FIG. 2 is a partially enlarged sectional view of a male terminal, and FIG. 3 is a partially enlarged sectional view showing a fitting state of a male terminal and a female terminal. FIG. 4 is an enlarged cross-sectional view when the male terminal and the female terminal are separated.

図1(a)に示すように、雄端子1は、端子本体を構成する箱型部1bと、この箱型部1bから前方に延出する雄型電気接触部(雄タブ)1aとを有し、その端子本体全体が例えば銅系金属といった高い導電性を有する材料で形成されており、この雄端子1は樹脂製のハウジング3と共に、雄型コネクタを形成している。一方、雌端子2は、箱型部2bを有し、その内側に接触用バネ片2aと、このバネ片2aと対向して前記雄タブ1bを挟持可能な第2の接触片2a’とが形成されており、この雌端子2も、前記雄端子1と同様に、樹脂製のハウジング4に収容され、雌型コネクタを形成している。そして、図1(b)及び図3に示すように両端子1,2を嵌合することによって前記雄タブ1aと前記接触用バネ片2a及び第2接触片2a’からなる雌型電気接触部2Aとが互いに接触し、その接触によって端子1,2間での電気的導通が行われる。   As shown in FIG. 1 (a), the male terminal 1 has a box-shaped part 1b constituting the terminal body and a male electric contact part (male tab) 1a extending forward from the box-shaped part 1b. The entire terminal body is formed of a material having high conductivity such as copper-based metal, and the male terminal 1 and the resin housing 3 form a male connector. On the other hand, the female terminal 2 has a box-shaped portion 2b, and a contact spring piece 2a on the inner side thereof and a second contact piece 2a ′ capable of sandwiching the male tab 1b facing the spring piece 2a. Similarly to the male terminal 1, the female terminal 2 is also housed in a resin housing 4 to form a female connector. Then, as shown in FIGS. 1 (b) and 3, a female electrical contact portion comprising the male tab 1a, the contact spring piece 2a and the second contact piece 2a ′ by fitting both terminals 1 and 2 together. 2A comes into contact with each other, and electrical contact between the terminals 1 and 2 is performed by the contact.

ところで、このように嵌合している雄端子1と雌端子2とを離脱すると、雄タブ1aと雌型接触部2A間にアークが発生する虞がある。例えば、図4に示すように、雄端子1を雌端子2から後方に離脱させようとするとき、まず雄タブ1aと接触用バネ片2aとが離れ、次いで雄タブ1aと第2接触片2a’とが離れる。そして雄端子1と雌端子2とが最終的に離れるとき、すなわち図4の例では雄タブ1aと第2接触片2a’とが離れるとき、両端子間にアークが発生して、両端子を損傷する虞がある。   By the way, if the male terminal 1 and the female terminal 2 which are fitted in this way are separated, an arc may be generated between the male tab 1a and the female contact portion 2A. For example, as shown in FIG. 4, when the male terminal 1 is to be separated backward from the female terminal 2, the male tab 1a and the contact spring piece 2a are separated first, and then the male tab 1a and the second contact piece 2a. 'And leave. When the male terminal 1 and the female terminal 2 are finally separated, that is, when the male tab 1a and the second contact piece 2a ′ are separated in the example of FIG. 4, an arc is generated between the two terminals, There is a risk of damage.

そこでこの端子対では、雄端子1において、端子が離脱するときに最後に離れる部分(以下、最終接触部と称する場合がある)1eを含む領域を絶縁層1cで被覆しており(図2、図4参照)、さらに、この絶縁層1cを、雄端子1の本体部分(導体部分)と電気的に接続される導電層(この例では、導電性金属層)1dによって被覆している。このように最終接触部1eを絶縁層1c及び導電層1dで被覆すると、雌端子2から雄端子1が離れる直前までは導電層1dを媒介として雌端子2と雄端子1とを通電できると共に、両端子1,2が離れる時にアークが発生した場合には、前記導電層1dの内側に位置する絶縁層1cによってアークの発生量を著しく低減でき、雄端子1及び雌端子2の変形を抑制できる。   Therefore, in this terminal pair, in the male terminal 1, a region including a portion 1e that is finally separated when the terminal is detached (hereinafter sometimes referred to as a final contact portion) 1e is covered with an insulating layer 1c (FIG. 2, In addition, the insulating layer 1c is covered with a conductive layer (in this example, a conductive metal layer) 1d that is electrically connected to the main body portion (conductor portion) of the male terminal 1 (see FIG. 4). When the final contact portion 1e is covered with the insulating layer 1c and the conductive layer 1d as described above, the female terminal 2 and the male terminal 1 can be energized through the conductive layer 1d until immediately before the male terminal 1 is separated from the female terminal 2. When an arc is generated when both terminals 1 and 2 are separated, the amount of arc generation can be significantly reduced by the insulating layer 1c located inside the conductive layer 1d, and deformation of the male terminal 1 and the female terminal 2 can be suppressed. .

アーク低減の理由及び端子変形を抑制できる理由としては次のことが考えられる。   The following can be considered as reasons for reducing the arc and suppressing the terminal deformation.

[第1の理由]
従来のように裸の端子間で一旦アークが発生すると、タブから次々と金属蒸気が供給されるため、さらにアークが強くなるのに対して、端子(図では雄タブ1a)が絶縁層で被覆されていると、タブ母体からの金属蒸気が遮断される。従って、金属蒸気の供給源はタブ母体に比べて厚みの小さな導電層だけに限られ、金属蒸気の供給がすぐにストップしてアークが小さくなる。
[First reason]
Once an arc is generated between bare terminals as in the prior art, metal vapor is supplied one after another from the tabs, so that the arc becomes stronger, whereas the terminals (male tab 1a in the figure) are covered with an insulating layer. If so, the metal vapor from the tab matrix is blocked. Therefore, the supply source of the metal vapor is limited only to the conductive layer having a thickness smaller than that of the tub matrix, and the supply of the metal vapor is immediately stopped to reduce the arc.

[第2の理由]
裸の端子間で一旦アークが発生すると、アークによってタブが溶融して変形するのに対して、端子が絶縁層及び導電層で被覆されていると、アークが発生しても損傷は表面の導電層にとどめられ、絶縁層より内側のタブ母体の形状は保持されるため、良好な嵌合性能を維持できる。
[Second reason]
Once an arc is generated between the bare terminals, the tab melts and deforms due to the arc. On the other hand, if the terminal is covered with an insulating layer and a conductive layer, even if the arc is generated, the damage is caused by the surface conduction. Since the shape of the tab matrix inside the insulating layer is maintained by the layer, good fitting performance can be maintained.

なお、絶縁層1cは少なくとも前記最終接触部1eに形成されていればよく、その具体的な形成部位は特に限定されない。ただし、嵌合状態で相手方の端子と接触する部分のうち、少なくとも一部には絶縁層を形成しないのが望ましい。例えば、図3に示す例では、雄端子1と雌端子2とがしっかりと嵌合した状態において、雄タブ1aは接触用バネ片2a及び第2接触片2a’と接触している(以下、雄端子1aのうち、接触用バネ片2aとの接触部を接触部1fと称し、第2接触片2a’との接触部を接触部1f’と称する)。そして前記接触部1f、1f’のうちの一部(図3の例では、接触部1fの全領域、及び接触部1f’のうち根元側の領域)には絶縁層1cが形成されていない。嵌合状態での接触部に絶縁層1cを形成しないことにより、雄端子1は雌端子2と直接又は導電層1dを挟んで接触可能であり、嵌合状態での導電性を低下させる虞がない。   The insulating layer 1c only needs to be formed at least on the final contact portion 1e, and the specific formation site is not particularly limited. However, it is desirable not to form an insulating layer on at least a portion of the portion that contacts the counterpart terminal in the fitted state. For example, in the example shown in FIG. 3, the male tab 1 a is in contact with the contact spring piece 2 a and the second contact piece 2 a ′ in a state where the male terminal 1 and the female terminal 2 are firmly fitted (hereinafter, referred to as “the male tab 1 a”). Of the male terminal 1a, a contact portion with the contact spring piece 2a is referred to as a contact portion 1f, and a contact portion with the second contact piece 2a ′ is referred to as a contact portion 1f ′). In addition, the insulating layer 1c is not formed on a part of the contact portions 1f and 1f '(in the example of FIG. 3, the entire region of the contact portion 1f and the region on the root side of the contact portion 1f'). By not forming the insulating layer 1c at the contact portion in the fitted state, the male terminal 1 can contact the female terminal 2 directly or across the conductive layer 1d, and there is a possibility that the conductivity in the fitted state is lowered. Absent.

また前記絶縁層1cは、通常、前記最終接触部1eを含む所定の領域に形成されているが、少なくとも以下の領域に形成されているのが好ましい。   The insulating layer 1c is usually formed in a predetermined region including the final contact portion 1e, but is preferably formed at least in the following region.

最終接触部1eから距離1mm以内の領域
好ましくは最終接触部1eから距離3mm以内の領域
さらに好ましくは最終接触部1eから5mm以内の領域
前記領域を絶縁層1cで被覆することにより、アークが絶縁層1cを超えて直接端子1に走るのを確実に防止できる。
An area within a distance of 1 mm from the final contact portion 1e, preferably an area within a distance of 3mm from the final contact portion 1e, and more preferably an area within 5mm from the final contact portion 1e, so that the arc is covered with an insulating layer 1c. It is possible to surely prevent running directly to the terminal 1 exceeding 1c.

なお雄端子1の場合、通常、先端部1g又はその近傍(図の例では、部位1e)が最終接触部になることが多い。そのため、雄端子1aに絶縁層を形成する場合には、先端部1gから根元方向に向けて長さ1mm以上、好ましくは長さ3mm以上の領域を絶縁層1cで被覆するのが簡便である。   In the case of the male terminal 1, the tip end portion 1g or the vicinity thereof (part 1e in the example in the figure) is usually the final contact portion in many cases. Therefore, when an insulating layer is formed on the male terminal 1a, it is convenient to cover the region having a length of 1 mm or more, preferably 3 mm or more from the tip 1g in the root direction with the insulating layer 1c.

絶縁層1cの種類はアークを低減できる限り特に限定されないが、例えば、金属蒸着層[Al(アルマイト)層、SiO層、Si層、TiO層など]、黒色処理層(CuO層)、クロメート処理層などの金属系絶縁層;絶縁性樹脂などの樹脂系絶縁層が挙げられる。 The type of the insulating layer 1c is not particularly limited as long as the arc can be reduced. For example, a metal deposition layer [Al 2 O 3 (alumite) layer, SiO 2 layer, Si 3 N 4 layer, TiO 2 layer, etc.], black treatment layer (CuO layer), metal-based insulating layers such as chromate treatment layers; resin-based insulating layers such as insulating resins.

なお前記金属層は、必ずしも蒸着等によって形成する必要はなく、金属めっきによる方法、金属箔化した後に端子に貼り付ける方法等により形成してもよい。   Note that the metal layer is not necessarily formed by vapor deposition or the like, and may be formed by a method by metal plating, a method of sticking to a terminal after forming a metal foil, or the like.

また前記絶縁性樹脂は溶媒と共に塗料(ペイント系塗料、エナメル系塗料、ワニス系塗料など)とし、種々のコーティング方法(スプレーコーティング、ディッピングなど)によって端子に塗布し、必要に応じて焼き付け処理してもよい。さらに絶縁性樹脂は粉末塗装してもよく、フィルム成形後、端子に貼り付けてもよい。   The insulating resin is used as a paint (paint paint, enamel paint, varnish paint, etc.) together with a solvent, applied to terminals by various coating methods (spray coating, dipping, etc.), and baked if necessary. Also good. Furthermore, the insulating resin may be powder-coated, or may be attached to the terminal after film formation.

絶縁層1cの厚みは、通常、0.5〜500μm程度、好ましくは5〜50μm程度である。   The thickness of the insulating layer 1c is usually about 0.5 to 500 μm, preferably about 5 to 50 μm.

また絶縁層の電気抵抗は、通常、1×1016Ω以上であるが、タブに用いる金属(銅系金属)よりも電気抵抗が高ければ、アークを低減できる。すなわち絶縁層はアークを低減できる限り若干電気を通してもよく、その場合絶縁層の電気抵抗は、例えば、1Ω以上、好ましくは20Ω以上である。 In addition, the electric resistance of the insulating layer is usually 1 × 10 16 Ω or more, but the arc can be reduced if the electric resistance is higher than the metal (copper metal) used for the tab. That is, the insulating layer may conduct electricity as much as possible to reduce the arc. In this case, the electric resistance of the insulating layer is, for example, 1Ω or more, preferably 20Ω or more.

一方、導電層1dは前記絶縁層1cを被覆している限り形成部位は特に限定されないが、導電層1dを端子1と確実に電気的に接続するためには、通常、絶縁層1cの表面のみならず、絶縁層1cの外縁部から少なくとも長さ0.1mm(好ましくは、少なくとも長さ1mm)の領域を被覆するのがより好ましい。また、端子1(又はタブ1a)全体を導電層1dで被覆してもよいが、全体を被覆しない場合は、導電層1dによる被覆領域は、通常、前記絶縁層1cの外縁部から長さ3mm以内程度が好適である。   On the other hand, as long as the conductive layer 1d covers the insulating layer 1c, the formation site is not particularly limited. However, in order to securely connect the conductive layer 1d to the terminal 1, normally only the surface of the insulating layer 1c is used. Rather, it is more preferable to cover a region having a length of at least 0.1 mm (preferably at least 1 mm) from the outer edge of the insulating layer 1c. Further, the entire terminal 1 (or tab 1a) may be covered with the conductive layer 1d. However, when the whole is not covered, the area covered by the conductive layer 1d is usually 3 mm in length from the outer edge of the insulating layer 1c. Within about is preferable.

導電層の種類としては、例えば、導電性金属(Sn、Ni、Al、Ag、Auなど)のめっき層、導電性ポリマー層(アルカリ金属をドープしたポリアニリン層など)などが挙げられる。なお、金属めっきによって金属層を形成する場合、無電解めっきでは金属層の強度が弱い場合がある。そのため、無電解めっきする場合には、その表面をさらに他のめっき法(電解めっき法、溶融めっき法)によって被覆してもよい。   Examples of the conductive layer include a plating layer of conductive metal (Sn, Ni, Al, Ag, Au, etc.), a conductive polymer layer (polyaniline layer doped with alkali metal, etc.), and the like. In addition, when forming a metal layer by metal plating, the strength of a metal layer may be weak in electroless plating. Therefore, when electroless plating is performed, the surface may be further coated with another plating method (electrolytic plating method, hot dipping method).

導電層は薄膜(例えば、厚み500μm以下、好ましくは100μm以下、さらに好ましくは35μm以下)であるのが好ましい。導電層の厚みが薄いほど、アークが発生したときの金属蒸気の供給量を低減でき、アークの発生量自体を低減できる。なお導電層は、通常、0.01μm以上、好ましくは0.1μm以上である。   The conductive layer is preferably a thin film (for example, a thickness of 500 μm or less, preferably 100 μm or less, more preferably 35 μm or less). As the conductive layer is thinner, the amount of metal vapor supplied when an arc is generated can be reduced, and the amount of arc generated itself can be reduced. The conductive layer is usually 0.01 μm or more, preferably 0.1 μm or more.

絶縁層1cと導電層1dとの組合わせは特に限定されず、絶縁層1cの表面を導電層1dで直接被覆可能な組合わせのみならず、絶縁層1cの表面を導電層1dで直接被覆できない組合わせであってもよい。直接被覆できない場合は、絶縁層1cと導電層1dとの間に中間層を介在させて、絶縁層1cを導電層1dで被覆する。以下、組合わせについて例示する。   The combination of the insulating layer 1c and the conductive layer 1d is not particularly limited, and not only the combination that can directly cover the surface of the insulating layer 1c with the conductive layer 1d, but also the surface of the insulating layer 1c cannot be directly covered with the conductive layer 1d. A combination may be used. When direct coating is not possible, the insulating layer 1c is covered with the conductive layer 1d with an intermediate layer interposed between the insulating layer 1c and the conductive layer 1d. Hereinafter, the combination will be exemplified.

[絶縁層1cの表面を導電層1dで直接被覆可能な組合わせ]
絶縁層1c:樹脂系絶縁層(エナメル層など)
導電層1d:導電性樹脂層
[中間層を介在させる組合わせ]
絶縁層1c:黒色処理層、クロメート処理層、樹脂系絶縁層(エナメル層など)など
導電層1d:導電性金属のめっき層(電解めっき層など)
前記中間層としては、無電解めっき層(例えば、Ni、Sn、Alなどの無電解めっき層)が挙げられる。
[Combination that can directly cover the surface of the insulating layer 1c with the conductive layer 1d]
Insulating layer 1c: Resin-based insulating layer (such as enamel layer)
Conductive layer 1d: conductive resin layer [combination with intermediate layer interposed]
Insulating layer 1c: Black treatment layer, chromate treatment layer, resin insulation layer (enamel layer, etc.), etc. Conductive layer 1d: Conductive metal plating layer (electrolytic plating layer, etc.)
Examples of the intermediate layer include electroless plating layers (for example, electroless plating layers such as Ni, Sn, and Al).

なお、絶縁層及び導電層は、雄端子に代えて雌端子に形成してもよく、雄端子及び雌端子の両方に形成してもよい。例えば、上記図示の例において雌端子に導電層を形成する場合、第2接触片2a’が最終接触部2eを有するため、この部位2eを含む領域に絶縁層及び導電層を形成してもよい。なお端子の形状によっては、バネ片2aが最終接触部を有する場合もある。その場合は、バネ片2aに絶縁層及び導電層を形成してもよい。   The insulating layer and the conductive layer may be formed on the female terminal instead of the male terminal, or may be formed on both the male terminal and the female terminal. For example, when the conductive layer is formed on the female terminal in the illustrated example, since the second contact piece 2a ′ has the final contact portion 2e, the insulating layer and the conductive layer may be formed in a region including the portion 2e. . Depending on the shape of the terminal, the spring piece 2a may have a final contact portion. In that case, an insulating layer and a conductive layer may be formed on the spring piece 2a.

本発明の端子は、最終接触部が絶縁層で被覆されているため、たとえアークが発生してもすぐに消失し、アークによる損傷は導電層で止まり、端子自体は損傷しない。そして導電層の一部が損傷して絶縁層が露出しても、残存している導電層部分で通電し(すなわち別の箇所からアークがとび)かつそのアークを低減できるため、導電層が略完全に剥離するまでは複数回(例えば、3〜200回程度)繰り返して使用できる。そのため、この端子を例えば自動車用のワイヤーハーネスに使用すると、高電圧が負荷されているにも拘わらず、保守、整備程度の取り外しでは導電層が略完全に剥離する可能性が低く、有利である。   In the terminal of the present invention, since the final contact portion is covered with the insulating layer, even if an arc is generated, the terminal disappears immediately, damage caused by the arc stops at the conductive layer, and the terminal itself is not damaged. Even if a part of the conductive layer is damaged and the insulating layer is exposed, current can be passed through the remaining conductive layer part (that is, the arc skips from another location) and the arc can be reduced. It can be used repeatedly several times (for example, about 3 to 200 times) until it completely peels. Therefore, when this terminal is used for, for example, a wire harness for automobiles, it is advantageous that the conductive layer is almost completely peeled off when it is removed for maintenance or maintenance even though a high voltage is applied. .

前記雄端子1は、それ全体を単一の材料で一体に形成することも可能であるが、例えば前記図1に示すように雄タブ1aの先端側特定部位の限られた領域のみに絶縁層1cを局所的に施すには、予め面倒なマスキング処理をしておく手間が必要となる。また、当該絶縁層1cの上に良好な導電層1d(めっき層)を施すには、当該絶縁層1cの表面をエッチング処理することがきわめて好ましいが、全体が一体に形成された雄端子1に絶縁層1cが設けられている場合、当該雄端子1の本体部分は腐食させずに絶縁層1cの表面のみを十分にエッチング処理することは非常に難しい。   The male terminal 1 can be integrally formed of a single material as a whole. For example, as shown in FIG. 1, an insulating layer is formed only in a limited region of a specific portion on the tip side of the male tab 1a. In order to apply 1c locally, it is necessary to perform troublesome masking processing in advance. In order to apply a good conductive layer 1d (plating layer) on the insulating layer 1c, it is extremely preferable to etch the surface of the insulating layer 1c. When the insulating layer 1c is provided, it is very difficult to sufficiently etch only the surface of the insulating layer 1c without corroding the main body portion of the male terminal 1.

そこで、本発明にかかる端子においては、例えば図5に示す雄端子1のように、端子本体部12と端子先端部11とを各々別々に製造してから両者を合体させるようにすることが、より好ましい。   Therefore, in the terminal according to the present invention, for example, like the male terminal 1 shown in FIG. 5, it is possible to manufacture the terminal body 12 and the terminal tip 11 separately, and then combine them together. More preferred.

図示の端子本体部12は、通常の端子と同様に単一の金属板で構成されているが、その前端には端子先端部嵌合用の電気接触部12bが形成されている。この電気接触部12bは、図例では偏平な矩形状の断面を有し、その両側面には係止孔12dが形成されている。   The terminal body 12 shown in the figure is composed of a single metal plate as with a normal terminal, but an electrical contact portion 12b for fitting a terminal tip is formed at the front end. The electric contact portion 12b has a flat rectangular cross section in the illustrated example, and locking holes 12d are formed on both side surfaces thereof.

一方、端子先端部11は、前記雄タブ1aに相当する形状のタブ部11aを有し、このタブ部11aの後端面中央から後方に嵌合部11bが突出するとともに、同後端面の左右両側部から後方に被係止腕11cが延び、両被係止腕11cの後端外側面に被係止突起11dが形成されている。嵌合部11b及び被係止腕11cは前記電気接触部12b内にほぼ隙間なく嵌入される厚み寸法を有しており、その嵌入状態で図6に示すように前記各被係止突起11dが電気接触部12bの係止孔12dに嵌まり込むことにより、端子先端部11が端子本体部12の前側に係止されて雄端子1全体が組み上げられるようになっている。   On the other hand, the terminal front end portion 11 has a tab portion 11a having a shape corresponding to the male tab 1a, and a fitting portion 11b protrudes rearward from the center of the rear end surface of the tab portion 11a. A locked arm 11c extends rearward from the portion, and a locked projection 11d is formed on the rear outer surface of both locked arms 11c. The fitting portion 11b and the locked arm 11c have a thickness dimension that allows the fitting portion 11b and the locked arm 11c to be fitted into the electrical contact portion 12b with almost no gap. By fitting into the locking hole 12d of the electrical contact portion 12b, the terminal tip portion 11 is locked to the front side of the terminal body portion 12, and the entire male terminal 1 is assembled.

ここで、前記端子先端部11は、図6に示すように、絶縁材料からなる母体の表面に導電層1dが設けられた構成となっており、例えば当該母体を一体成形した後、その表面をエッチング処理してからその上に導電層1dを形成することにより、(マスキング処理をすることなく)簡単に製造することが可能となっている。   Here, as shown in FIG. 6, the terminal tip 11 has a structure in which a conductive layer 1d is provided on the surface of a base made of an insulating material. For example, after the base is integrally molded, By forming the conductive layer 1d thereon after the etching process, it can be easily manufactured (without masking process).

前記母体を構成する材料は、耐熱性の高いものが好ましく、アルミナや窒化アルミニウム等のセラミック系材料、エポキシ系やフェノール系等の熱硬化性樹脂、PEEK、PPS等の熱可塑性樹脂が好適である。金属めっきとしては、上述と同様、例えば銅やニッケルによる無電解めっきや、当該無電解めっきとスズ等による電解めっきまたは溶融めっきとの組み合わせを採用することができる。また、当該金属めっきに代え、蒸着、導電性塗料の塗布、金属箔や導電性フィルムの貼着、金属コーティングや焼き付け、等の手段をとることも可能である。   The material constituting the matrix is preferably a material having high heat resistance, and ceramic materials such as alumina and aluminum nitride, thermosetting resins such as epoxy and phenol, and thermoplastic resins such as PEEK and PPS are suitable. . As the metal plating, as described above, for example, electroless plating with copper or nickel, or a combination of the electroless plating and electrolytic plating or hot dip plating with tin or the like can be employed. Moreover, it can replace with the said metal plating, and can also take means, such as vapor deposition, application | coating of a conductive paint, sticking of metal foil or a conductive film, metal coating, baking.

前記導電性塗料としては、例えばグリースやオイル等の比較的粘度の高い媒体にCu,Al,Ag,Auといった金属粉体を混入させたものが、好適である。その他、流動性を有する導電材料として、室温近傍で液相をなす金属(例えばHg,K,Cs)や、電解性水溶液(例えば塩化ニッケル、塩化コバルト、塩化マンガンの水溶液)を絶縁材料からなる母体の表面に塗布するようにしてもよい。塗布後の端子使用時にも流動性を保ち得る塗料を塗布するようにすれば、仮に端子先端部でアーク放電が発生してそのアーク放電発生部分の塗料が飛んでしまっても、その欠損個所を補うように当該個所に対して周囲から塗料が流れ込むため、長期にわたって良好なアーク防止効果を維持することが期待できる。   As the conductive coating material, for example, a material in which a metal powder such as Cu, Al, Ag, or Au is mixed in a relatively high viscosity medium such as grease or oil is preferable. In addition, as a conductive material having fluidity, a matrix made of an insulating material such as a metal (for example, Hg, K, Cs) that forms a liquid phase near room temperature or an electrolytic aqueous solution (for example, an aqueous solution of nickel chloride, cobalt chloride, or manganese chloride). You may make it apply | coat to the surface of. By applying a paint that can maintain fluidity when the terminal is used after application, even if arc discharge occurs at the tip of the terminal and the paint at the arc discharge occurs, the missing part can be removed. Since the paint flows from the surroundings to the place so as to compensate, it can be expected to maintain a good arc prevention effect over a long period of time.

また、前記母体は必ずしも全体が絶縁材料で成形されていなくてもよく、例えばアルミニウムや銅からなる母体の表面に酸化皮膜を形成して絶縁層を構築するようにしてもよい。その他、樹脂コーティングやエナメルの焼き付けといった手段をとることも可能である。ただし、前記のように端子先端部11の母体全体を絶縁材料で成形するようにすると、何らかの要因で絶縁層が破断されてしまうといったおそれがなく、より確実にアーク抑止機能を維持することができるとともに、改めて絶縁層を形成する必要がなくなり、工数を削減できる利点が得られる。   In addition, the whole base does not necessarily have to be formed of an insulating material. For example, an insulating layer may be constructed by forming an oxide film on the surface of a base made of aluminum or copper. In addition, it is possible to take measures such as resin coating and enamel baking. However, if the entire base of the terminal tip 11 is formed of an insulating material as described above, there is no risk that the insulating layer will be broken for some reason, and the arc suppression function can be more reliably maintained. In addition, there is no need to form an insulating layer again, and the advantage of reducing the number of steps can be obtained.

また、本発明にかかる端子は、前記のようなタブ状のものに限られず、その具体的な形状及び構造は種々設定が可能である。その一例として、図7及び図8は、円筒状の電気接触面をもつ雄端子1及び雌端子2を示したものである。   Moreover, the terminal concerning this invention is not restricted to the above tab-shaped things, The concrete shape and structure can be variously set. As an example, FIGS. 7 and 8 show a male terminal 1 and a female terminal 2 having cylindrical electrical contact surfaces.

図において、雄端子1は端子先端部11と端子本体部12とに分割されている。   In the figure, the male terminal 1 is divided into a terminal tip portion 11 and a terminal body portion 12.

端子先端部11は、円柱状の電気接触部11fと、この電気接触部11fから後方に延びる小径の連結軸11eとを一体に有し、電気接触部11fの先端11gは先尖り状(円錐台状)に形成されている。   The terminal tip portion 11 integrally includes a cylindrical electric contact portion 11f and a small-diameter connecting shaft 11e extending rearward from the electric contact portion 11f, and the tip 11g of the electric contact portion 11f has a pointed shape (conical frustum). Formed).

端子本体部12は、円筒状の電気接触部12eを有し、その後方に連結軸バレル12f及び電線バレル12gを有している。電気接触部12eは、前記連結軸11eが挿入可能な内径と、前記電気接触部11fの外径に等しい外径とを有し、この電気接触部12eに前側から挿入された連結軸11eが前記連結軸バレル12fによって把持されることにより、端子本体部12と端子先端部11とが一体化されるとともに、前記電線バレル12gによって電線が保持された状態で当該電線と雄端子1とが電気的に接続されるようになっている。   The terminal body 12 has a cylindrical electrical contact portion 12e, and has a connecting shaft barrel 12f and an electric wire barrel 12g behind it. The electric contact portion 12e has an inner diameter into which the connecting shaft 11e can be inserted and an outer diameter equal to the outer diameter of the electric contact portion 11f. The connecting shaft 11e inserted into the electric contact portion 12e from the front side By being gripped by the connecting shaft barrel 12f, the terminal body 12 and the terminal tip 11 are integrated, and the electric wire and the male terminal 1 are electrically connected with the electric wire held by the electric wire barrel 12g. To be connected to.

雌端子2は、前記電気接触部11f,12eが隙間なく嵌入される円筒状の電気接触部2dを有し、その後方に導線バレル2f及びインシュレーションバレル2gが形成されている。   The female terminal 2 has a cylindrical electrical contact portion 2d into which the electrical contact portions 11f and 12e are fitted without a gap, and a conductor barrel 2f and an insulation barrel 2g are formed behind the cylindrical electrical contact portion 2d.

このような構造においても、前記端子先端部11の母体の少なくとも表面部分を絶縁材料で構成し、その外側に導電層を形成することにより、前記と同様のアーク抑止効果を得ることができる。すなわち、電気接触部11f,12eが電気接触部2dに嵌入されている完全嵌合状態から離脱する際、薄い導電層が形成された電気接触部11fの先端部分が最後に電気接触部2dから離れるようにすることにより、その離れた瞬間に発生するアークを有効に抑止して雄端子1を保護することができる。   Even in such a structure, it is possible to obtain the same arc suppression effect as described above by forming at least the surface portion of the base of the terminal tip 11 with an insulating material and forming a conductive layer on the outside thereof. That is, when the electric contact portions 11f and 12e are released from the completely fitted state where the electric contact portions 11d are inserted into the electric contact portion 2d, the tip portion of the electric contact portion 11f formed with the thin conductive layer is finally separated from the electric contact portion 2d. By doing so, it is possible to protect the male terminal 1 by effectively suppressing the arc generated at that moment away.

前記端子先端部11の成形方法は、母体を成形してからその表面に導電層を配するものに限られない。例えば、図21(a)に示すように、導電層を構成する筒体(一般には薄肉の金属筒)15の内側にアルミナや窒化ケイ素といったセラミックの粉末16を充填しておき、これをプレスによる延伸等で端子本体部の目標形状(例えば図21(b)に示すような形状)に成形し、かつ、当該セラミック粉末16を焼結して前記筒体15と一体化させることによっても、絶縁材料製の母体の表面に導電層をもつ端子先端部を簡単に製造することが可能である。かかる成形法は、前記絶縁材料として、セラミックの他、ナイロンABS等の合成樹脂を用いる場合にも適用が可能である。   The method for forming the terminal tip 11 is not limited to the method in which the base is molded and then the conductive layer is disposed on the surface thereof. For example, as shown in FIG. 21A, a ceramic powder 16 such as alumina or silicon nitride is filled inside a cylinder (generally a thin metal cylinder) 15 constituting a conductive layer, and this is obtained by pressing. Insulation can also be achieved by forming the terminal body into a target shape (for example, a shape as shown in FIG. 21B) by stretching or the like, and sintering the ceramic powder 16 and integrating it with the cylindrical body 15. It is possible to easily manufacture a terminal tip having a conductive layer on the surface of a base material made of material. Such a molding method can be applied to the case where a synthetic resin such as nylon ABS is used in addition to ceramic as the insulating material.

なお、前記雄端子1における端子先端部11と端子本体部12との連結構造は図示のものに限られない。例えば図9に示すように、端子先端部11の連結軸11eの外周面に凹部11hを形成しておき、この凹部11hに対して端子本体部12の円筒状電気接触部12eの外周壁から内側へ係止爪12hを食い込ませるようにしてもよい。   The connection structure between the terminal tip 11 and the terminal main body 12 in the male terminal 1 is not limited to the illustrated one. For example, as shown in FIG. 9, a concave portion 11h is formed on the outer peripheral surface of the connecting shaft 11e of the terminal tip portion 11, and the inner side from the outer peripheral wall of the cylindrical electrical contact portion 12e of the terminal body portion 12 with respect to the concave portion 11h. You may make it bite the latching claw 12h.

前記図7及び図8と同様にして雄端子1を端子先端部13と端子本体部14とに分割した別の例を図10〜図20に示す。   FIGS. 10 to 20 show another example in which the male terminal 1 is divided into the terminal tip portion 13 and the terminal main body portion 14 in the same manner as in FIGS.

ここに開示する雄端子1は、図10〜図13に示すように、その端子先端部13が合成樹脂等の絶縁材料により母体が一体成形され、その表面にめっき等による導電層1dが設けられたものであり、略直方体状の頭部13aと、この頭部13aから後方に延びる嵌入部13bとを一体に有する全体形状を有し、嵌入部13bの断面形状は頭部13aの断面形状よりも一回り小さくなっている。さらに、頭部13aの後半部から嵌入部13bにかけて、その上面には、軸方向に延びる凹溝13cが形成されている。   As shown in FIGS. 10 to 13, the male terminal 1 disclosed herein has a base body integrally formed of an insulating material such as a synthetic resin at the terminal tip portion 13, and a conductive layer 1 d by plating or the like is provided on the surface thereof. And has an overall shape integrally including a substantially rectangular parallelepiped head portion 13a and a fitting portion 13b extending rearward from the head portion 13a. The cross-sectional shape of the fitting portion 13b is more than that of the head portion 13a. Is one size smaller. Furthermore, a concave groove 13c extending in the axial direction is formed on the upper surface from the rear half of the head 13a to the fitting portion 13b.

端子本体部14は、高い導電性をもつ金属板を折り曲げることにより全体が形成されたもので、箱状に形成された本体部分14aから前方に筒状(図例では略角筒状)の電気接触部14bが延び、この電気接触部14b内に前記端子先端部13の嵌入部13bが嵌入された状態で固定されている。詳しくは、当該嵌入部13bの後部底面に凹部13dが形成される一方、電気接触部14bの底壁後部に上方に突出する係止爪14dが形成され、この係止爪14dが前記凹部13dに嵌まり込むことにより端子先端部14が端子本体部13に係止されるようになっている。   The terminal main body 14 is formed as a whole by bending a highly conductive metal plate, and has a cylindrical shape (substantially rectangular tube shape in the illustrated example) forward from the box-shaped main body portion 14a. The contact portion 14b extends, and is fixed in a state where the fitting portion 13b of the terminal tip portion 13 is fitted into the electric contact portion 14b. Specifically, a recess 13d is formed on the rear bottom surface of the fitting portion 13b, and a locking claw 14d protruding upward is formed on the rear portion of the bottom wall of the electrical contact portion 14b. The locking claw 14d is formed in the recess 13d. The terminal tip portion 14 is locked to the terminal main body portion 13 by fitting.

さらに、前記電気接触部14bの底壁からは前記端子先端部13の頭部13aを下から支持するための舌片14tが延長される一方、同電気接触部14bの天壁からは前方にばね接触片14cが延長されている。このばね接触片14cの前端部は撓み変形(弾性変形)可能であり、当該先端部下面には下方に突出する接点用突起14pが形成されている。そして、この電気接触部14b内に前記端子先端部13の嵌入部13bが嵌入される際にこの端子先端部13の凹溝13c内に前記ばね接触片14cが侵入し、かつ、このばね接触片14cの先端部が上方に撓み変形した状態で当該先端部に設けられた接点用突起14cが凹溝13cの前部底面上の導電層1dに圧接するように構成されている。   Further, a tongue piece 14t for supporting the head portion 13a of the terminal tip portion 13 from below is extended from the bottom wall of the electrical contact portion 14b, while a spring is moved forward from the top wall of the electrical contact portion 14b. The contact piece 14c is extended. The front end portion of the spring contact piece 14c can be flexibly deformed (elastically deformed), and a contact protrusion 14p protruding downward is formed on the lower surface of the tip portion. And when the fitting part 13b of the said terminal front-end | tip part 13 is inserted in this electrical contact part 14b, the said spring-contact piece 14c penetrate | invades in the concave groove 13c of this terminal front-end | tip part 13, and this spring contact piece The contact protrusion 14c provided on the tip portion is in pressure contact with the conductive layer 1d on the front bottom surface of the groove 13c in a state where the tip portion of 14c is bent upward and deformed.

端子本体部14は、その本体部分14aよりも後方の位置に導線バレル14e及びインシュレーションバレル14fを順に有している。導線バレル14eは、絶縁電線30の先端に露出した中心導線31を抱き込むように当該中心導線31と圧着され、これにより当該中心導線31と端子本体部14とが電気的に接続される。インシュレーションバレル14fは、前記中心導線31よりも後方の位置で絶縁電線30の絶縁被覆32を抱き込むように保持する。   The terminal main body 14 has a conducting wire barrel 14e and an insulation barrel 14f in order at a position behind the main body portion 14a. The conducting wire barrel 14e is pressure-bonded to the central conducting wire 31 so as to embrace the central conducting wire 31 exposed at the tip of the insulated wire 30, and thereby the central conducting wire 31 and the terminal main body portion 14 are electrically connected. The insulation barrel 14f holds the insulation coating 32 of the insulated wire 30 so as to embrace it at a position behind the center conducting wire 31.

この雄端子1と対をなす雌端子2を図14〜図16に示す。この雌端子2は、前記雄端子1の端子本体部14と同様、高い導電性をもつ金属板を折り曲げることにより全体が形成されたもので、箱状の電気接続部20と、その後方に形成された導線バレル2e及びインシュレーションバレル2fとを一体に有している。これら導線バレル2e及びインシュレーションバレル2fは、前記雄端子1の導線バレル14e及びインシュレーションバレル14fと同様、接続すべき絶縁電線40の中心導線41及び絶縁被覆42をそれぞれ抱き込むように保持するものである。   The female terminal 2 which makes a pair with the male terminal 1 is shown in FIGS. The female terminal 2 is formed as a whole by bending a highly conductive metal plate, like the terminal main body portion 14 of the male terminal 1, and is formed at the box-shaped electrical connection portion 20 and behind it. The conductive wire barrel 2e and the insulation barrel 2f are integrally provided. The conductor barrel 2e and the insulation barrel 2f hold the central conductor 41 and the insulation coating 42 of the insulated wire 40 to be connected, like the conductor barrel 14e and the insulation barrel 14f of the male terminal 1, respectively. It is.

前記電気接続部20には、前記雄端子1に対する電気接触部として、電気接続部20の天壁下面に軸方向に延びる突条21が形成される一方、底壁前端から上側に略180°曲げ返されたばね接触片22が形成され、このばね接触片22の後端部(撓み可能な自由端部)の上面に接点用突起22aが突設されている。そして、この接点用突起22aと前記突条21とで上下から挟まれるようにしながら前記雄端子1が電気接続部20内に嵌入されるようになっている。   The electrical connection portion 20 is formed with a protrusion 21 extending in the axial direction on the lower surface of the top wall of the electrical connection portion 20 as an electrical contact portion with respect to the male terminal 1, and is bent approximately 180 ° upward from the bottom wall front end. The returned spring contact piece 22 is formed, and a contact protrusion 22a is provided on the upper surface of the rear end portion (flexible free end portion) of the spring contact piece 22. The male terminal 1 is inserted into the electrical connection portion 20 while being sandwiched between the contact protrusion 22a and the protrusion 21 from above and below.

さらに、この雌端子2の特徴として、前記電気接続部20の左右側壁から前方にアーク放電用接触部である固定接触片24及びばね接触片26が延びている。   Further, as a feature of the female terminal 2, a fixed contact piece 24 and a spring contact piece 26, which are contact portions for arc discharge, extend from the left and right side walls of the electrical connection portion 20 to the front.

固定接触片24は、電気接触部20の左側側壁からそのまま前方に延長されたもので、その前端には内側に突出する接点用突出部24aが形成されている。ばね接触片26は、その上下及び前側がスリット25で囲まれ、かつ、前端部が若干内側寄りに傾斜されており、当該前端部が左右方向に撓み変形可能となっている。さらに、前記スリット25よりも前側の金属板部分は外向きに略180°折り返され、前記ばね接触片26を外側から保護する保護板部27を形成している。そして、前記ばね接触片26と固定接触片24とで前記雄端子1が左右両側から挟み込まれるようになっている。   The fixed contact piece 24 is directly extended forward from the left side wall of the electric contact portion 20, and a contact protrusion 24 a protruding inward is formed at the front end thereof. The spring contact piece 26 is surrounded by the slit 25 on the upper and lower sides and the front side, and the front end portion is inclined slightly inward, so that the front end portion can be bent and deformed in the left-right direction. Further, the metal plate portion on the front side of the slit 25 is folded outward by approximately 180 ° to form a protective plate portion 27 that protects the spring contact piece 26 from the outside. The male terminal 1 is sandwiched from the left and right sides by the spring contact piece 26 and the fixed contact piece 24.

次に、この端子対の作用を説明する。   Next, the operation of this terminal pair will be described.

まず、図17及び図18に示すように両端子1,2同士が完全に嵌合された状態では、雌端子2の電気接続部20におけるばね接触片22が下方に撓み変形した状態で当該ばね接触片22の接点用突起22aと突条21とで雄端子1の電気接触部14が上下から挟み込まれ、前記ばね接触片22の弾発力によってその接点用突起22aと突条21とがそれぞれ電気接触部14の底壁及び天壁に圧接している。この圧接部分を通じて端子1,2間の電気的導通が確保される。   First, as shown in FIGS. 17 and 18, in a state where both terminals 1 and 2 are completely fitted, the spring contact piece 22 in the electrical connection portion 20 of the female terminal 2 is bent downward and deformed. The electrical contact portion 14 of the male terminal 1 is sandwiched from above and below by the contact protrusions 22a and the protrusions 21 of the contact piece 22, and the contact protrusions 22a and the protrusions 21 are caused by the elastic force of the spring contact pieces 22, respectively. The electric contact portion 14 is in pressure contact with the bottom wall and the top wall. Electrical continuity between the terminals 1 and 2 is ensured through this pressure contact portion.

なお、雄端子1においては、端子本体部14のばね接触片14cが撓み変形しながらその弾発力で当該ばね接触片14cの接点用突起14pが端子先端部13の表面の導電層1dに圧接しているため、この圧接によって当該導電層1dと端子本体部14との導通も確保されている。また、図示の端子本体部14においては、端子先端部13との電気的導通を確保するためのばね接触片14cと、端子先端部13を機械的に係止するための係止部(係止爪14d)とが別部位となっており、前記ばね接触部14cに強度的負担がかからないので、その変形等を抑制して接続信頼性を高めることが可能となっている。   In the male terminal 1, the spring contact piece 14 c of the terminal main body portion 14 is bent and deformed, and the contact projection 14 p of the spring contact piece 14 c is pressed against the conductive layer 1 d on the surface of the terminal tip portion 13 by its elastic force. Therefore, conduction between the conductive layer 1d and the terminal main body 14 is ensured by this pressure contact. Further, in the terminal main body portion 14 shown in the figure, a spring contact piece 14c for ensuring electrical continuity with the terminal tip portion 13 and a locking portion (locking) for mechanically locking the terminal tip portion 13 are provided. Since the claw 14d) is a separate part and the spring contact portion 14c is not burdened with strength, it is possible to suppress the deformation and the like and to improve the connection reliability.

次に、この完全嵌合状態から端子1,2同士の離脱作業が開始されると、まず、突条21と電気接触部14の天壁との接触が解除され(図19)、次いで、電気接触部14における舌片14tとばね接触片22の接点用突起22aとの接触も解除されるが、その時点でもまだ、雌端子2の固定接触片24及びばね接触片26と端子先端部頭部13aの表面に設けられた導電層1dとの接触は保たれており、かつ、この導電層1dと端子本体部14との導通が確保されているので、前記の接触が解除された接点同士の間にアーク放電は発生しない。   Next, when the operation of detaching the terminals 1 and 2 is started from this completely fitted state, first, the contact between the protrusion 21 and the top wall of the electrical contact portion 14 is released (FIG. 19), and then the electrical The contact between the tongue piece 14t in the contact portion 14 and the contact protrusion 22a of the spring contact piece 22 is also released, but even at that time, the fixed contact piece 24 and the spring contact piece 26 of the female terminal 2 and the terminal tip portion head are still present. Since the contact with the conductive layer 1d provided on the surface of 13a is maintained and the conduction between the conductive layer 1d and the terminal main body 14 is ensured, the contact between the contact points where the contact is released There is no arcing in between.

そして、前記固定接触片24及びばね接触片26と導電層1dとが離れる瞬間(図20)に、その導電層1dと固定接触片24またはばね接触片26との間にアーク放電が発生する可能性があるが、前記導電層1dは金属めっき等で構成された極めて薄い膜であるため、前記アーク放電が生じたとしても軽微であり、端子は有効に保護される。しかも、前記導電層1dに端子本体部14が接触する部位は、当該端子本体部14に後端がつながっているばね接触片14cの前端部に形成された接点用突起14pであり、この接触部位と前記導電層1dが雌端子2から最後に離れる部位(先端部)との距離が短いので、前記雌端子2と離れる直前に導電層1dを電流が流れる径路が短く、当該電流による発熱が有効に抑止される。   Then, at the moment when the fixed contact piece 24 and the spring contact piece 26 are separated from the conductive layer 1d (FIG. 20), an arc discharge may occur between the conductive layer 1d and the fixed contact piece 24 or the spring contact piece 26. However, since the conductive layer 1d is an extremely thin film made of metal plating or the like, even if the arc discharge occurs, the terminal is effectively protected. In addition, the portion where the terminal main body portion 14 is in contact with the conductive layer 1d is a contact protrusion 14p formed at the front end portion of the spring contact piece 14c whose rear end is connected to the terminal main body portion 14 and this contact portion. And the conductive layer 1d is finally separated from the female terminal 2 (the front end), so the path through which the current flows through the conductive layer 1d immediately before leaving the female terminal 2 is short, and the heat generated by the current is effective. To be suppressed.

以上示した構造のように、アーク放電を雌端子2における正規の電気接触部(図例では突条21及びばね接触片22)とは別のアーク放電用接触部(図例では固定接触片24及びばね接触片26)で発生させるようにすれば、前記正規の電気接触部をアークから有効に保護することができ、端子間の接続信頼性をより高めることが可能になる。   As in the structure described above, arc discharge is different from the regular electrical contact portion (in the illustrated example, the protrusion 21 and the spring contact piece 22) in the female terminal 2, and the arc discharge contact portion (in the illustrated example, the fixed contact piece 24). If it is generated by the spring contact piece 26), the regular electrical contact portion can be effectively protected from the arc, and the connection reliability between the terminals can be further improved.

以下、実施例を挙げて本発明をより具体的に説明するが、本発明はもとより下記実施例によって制限を受けるものではなく、前・後記の趣旨に適合し得る範囲で適当に変更を加えて実施することも勿論可能であり、それらはいずれも本発明の技術的範囲に包含される。   EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited by the following examples, but may be appropriately modified within a range that can meet the purpose described above and below. Of course, it is possible to implement them, and they are all included in the technical scope of the present invention.

実施例1
図1〜4の雄コネクタ及び雌コネクタを形成した。ただし、絶縁層としてポリイミド層(厚み=10μm、電気抵抗=1×1016Ω以上)を、中間層(図示せず)として無電解めっきしたNi層を、導電層として電解めっきしたSn層(厚み=10μm)を形成した。
Example 1
The male connector and the female connector of FIGS. 1-4 were formed. However, a polyimide layer (thickness = 10 μm, electrical resistance = 1 × 10 16 Ω or more) as an insulating layer, an electroless plated Ni layer as an intermediate layer (not shown), and an Sn layer (thickness) electroplated as a conductive layer = 10 μm).

雄コネクタ1及び雌コネクタ2を接続し、42Vの電圧を負荷した状態で、雌コネクタ2から雄コネクタ1を抜いた。アークの放電時間は正確な計測ができない程短く、約0.1秒程度であった。放電後、雄端子の先端の導電層は若干破壊していたが、端子形状自体には異常は認められなかった。   The male connector 1 and the female connector 2 were connected, and the male connector 1 was removed from the female connector 2 with a voltage of 42V applied. The arc discharge time was so short that accurate measurement was impossible, and was about 0.1 seconds. After the discharge, the conductive layer at the tip of the male terminal was slightly destroyed, but no abnormality was observed in the terminal shape itself.

比較例1
導電層、中間層及び絶縁層を形成しない以外は、実施例1と同様にした。
Comparative Example 1
Example 1 was performed except that the conductive layer, the intermediate layer, and the insulating layer were not formed.

実施例1と同様にしてアークの放電時間を調べたところ、約1秒であった。放電後、雄端子の先端は丸くなっていた。   When the arc discharge time was examined in the same manner as in Example 1, it was about 1 second. After the discharge, the tip of the male terminal was rounded.

本発明の端子及びコネクタの概略側面図である。It is a schematic side view of the terminal and connector of this invention. 図1の雄端子の部分拡大断面図である。It is a partial expanded sectional view of the male terminal of FIG. 図1の雄端子及び雌端子の嵌合状態を示す部分拡大断面図である。It is a partial expanded sectional view which shows the fitting state of the male terminal of FIG. 1, and a female terminal. 雄端子と雌端子とが離脱する状態を示す部分拡大断面図である。It is a partial expanded sectional view which shows the state which a male terminal and a female terminal detach | leave. 端子本体部と先端部とが別々に製造される雄端子の例を示す分解斜視図である。It is a disassembled perspective view which shows the example of the male terminal by which a terminal main-body part and a front-end | tip part are manufactured separately. 図5の雄端子の組み上げ状態を示す一部断面平面図である。It is a partial cross section top view which shows the assembly state of the male terminal of FIG. 円筒状の電気接触面をもつ雄端子の例を示す分解斜視図である。It is a disassembled perspective view which shows the example of the male terminal which has a cylindrical electrical contact surface. 図7の雄端子とこれに嵌合される雌端子とを示す斜視図である。It is a perspective view which shows the male terminal of FIG. 7, and the female terminal fitted by this. 端子本体部への端子先端部の係止構造例を示す一部断面正面図である。It is a partial cross section front view which shows the example of a latching structure of the terminal front-end | tip part to a terminal main-body part. 端子本体部と先端部とが別々に製造される雄端子とこれに嵌合される雌端子の他の例を示す分解斜視図である。It is a disassembled perspective view which shows the other example of the male terminal by which a terminal main-body part and a front-end | tip part are manufactured separately, and the female terminal fitted to this. 図10に示す雄端子の端子本体部と先端部とが合体された状態を示す斜視図である。It is a perspective view which shows the state with which the terminal main-body part and front-end | tip part of the male terminal shown in FIG. 10 were united. 図11に示す雄端子の断面正面図である。It is a cross-sectional front view of the male terminal shown in FIG. 図11に示す雄端子の断面平面図である。It is a cross-sectional top view of the male terminal shown in FIG. 図10に示す雌端子を前方から見た斜視図である。It is the perspective view which looked at the female terminal shown in FIG. 10 from the front. 図14に示す雌端子の断面正面図である。It is a cross-sectional front view of the female terminal shown in FIG. 図14に示す雌端子の断面平面図である。It is a cross-sectional top view of the female terminal shown in FIG. 図10に示す端子対の完全嵌合状態を示す断面正面図である。It is a cross-sectional front view which shows the complete fitting state of the terminal pair shown in FIG. 前記端子対の完全嵌合状態を示す断面平面図である。It is a cross-sectional top view which shows the perfect fitting state of the said terminal pair. 前記端子対の離脱作業が開始された状態を示す断面正面図である。It is a cross-sectional front view which shows the state by which the separation | extraction operation | work of the said terminal pair was started. 前記端子対が完全に離脱される直前の状態を示す断面平面図である。FIG. 6 is a cross-sectional plan view showing a state immediately before the terminal pair is completely detached. (a)は雄端子の端子本体部を製造するにあたって筒体の内側にセラミック粉末を充填した状態を示す断面図、(b)はその充填物を端子本体部の目標形状に変形した状態を示す断面図である。(A) is sectional drawing which shows the state which filled the ceramic powder inside the cylinder in manufacturing the terminal main-body part of a male terminal, (b) shows the state which changed the filler into the target shape of the terminal main-body part. It is sectional drawing.

符号の説明Explanation of symbols

1 雄端子
1c 絶縁層
1d 導電層
1e,2e 最終接触部
1f 先端部
11,13 端子先端部
12,14 端子本体部
14c ばね接触片(ばね接触部)
14d 係止爪(係止部)
15 筒体
16 セラミック粉末
2 雌端子
21 突条(電気接触部)
22a 接点用突起(電気接触部)
24 固定接触片(アーク放電用接触部)
26 ばね接触片(アーク放電用接触部)
3,4 ハウジング
DESCRIPTION OF SYMBOLS 1 Male terminal 1c Insulation layer 1d Conductive layer 1e, 2e Final contact part 1f Tip part 11,13 Terminal tip part 12,14 Terminal body part 14c Spring contact piece (spring contact part)
14d Locking claw (locking part)
15 cylinder 16 ceramic powder 2 female terminal 21 ridge (electric contact part)
22a Contact protrusion (electrical contact)
24 Fixed contact piece (arc discharge contact part)
26 Spring contact piece (arc discharge contact)
3, 4 housing

Claims (2)

雌端子と、この雌端子と嵌合することによって当該雌端子と通電可能な雄端子とからなる端子対であって、
前記雄端子は、全体が導体で構成された端子本体部分と、この雄端子のうち前記雌端子から離脱するときに最後に離れる部位である最終接触部を含む領域の少なくとも外側部分を構成する絶縁体と、この絶縁体の表面を覆い、かつ前記端子本体部分と電気的につながる導電層とを有していて、この導電層が前記最終接触部で前記雌端子と最後に離れるように構成されている低アーク性端子であり、
前記雌端子は、前記雄端子と完全に嵌合した状態で、前記導電層が設けられていない前記端子本体部分直接接触する電気接触部と、この電気接触部よりも先端側の位置で前記雄端子と接触し、かつ、両端子が離脱する際に前記電気接触部よりも後に前記雄端子の最終接触部で前記導電層から離れるアーク放電用接触部とを有することを特徴とする低アーク性端子を含む端子対。
A terminal pair consisting of a female terminal and a male terminal that can be energized by fitting with the female terminal,
The male terminal is an insulation that constitutes at least an outer part of a region including a terminal main body part entirely composed of a conductor and a final contact part which is a part of the male terminal that is finally separated when the male terminal is detached from the female terminal. and body, covering the surface of the insulator, and the have a terminal body portion and electrically to the lead conductive layer is configured so that this conductive layer is separated into the female terminal and the last the final contact portion Is a low arc terminal
The female terminal, the state fully fitted and male terminal, before an electrical contact portion in direct contact with the terminal body portion Kishirube conductive layer is not provided, the position of the tip side of the electrical contact portion of this in contact with the male terminal, and characterized by having an arc discharge contact portions away from said conductive layer at the final contact portion of the male terminal later than the electrical contact portion when the terminals are disengaged Terminal pair including low arc terminal.
請求項1記載の低アーク性端子を含む端子対において、前記雌端子の前端部に、前端が撓み変形可能なアーク放電用ばね接触片が形成され、このばね接触片の前端が撓み変形した状態で前記雄端子の導電層に接触するように構成されていることを特徴とする低アーク性端子を含む端子対。
2. The terminal pair including the low arc terminal according to claim 1, wherein a front end portion of the female terminal is formed with a spring contact piece for arc discharge whose front end is deflectable and deformed, and the front end of the spring contact piece is bent and deformed. A terminal pair including a low-arc terminal, wherein the terminal pair is configured to contact the conductive layer of the male terminal.
JP2006212585A 2000-11-28 2006-08-03 Terminal pairs including low arc terminals Expired - Fee Related JP4083777B2 (en)

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JP5755506B2 (en) 2011-06-02 2015-07-29 矢崎総業株式会社 Terminal fitting
JP5755972B2 (en) * 2011-08-29 2015-07-29 株式会社東海理化電機製作所 Male terminal and terminal set
JP5704404B2 (en) * 2011-10-25 2015-04-22 住友電装株式会社 Pin terminal
JP5965265B2 (en) * 2012-09-24 2016-08-03 矢崎総業株式会社 Terminal
EP3211722B1 (en) * 2016-02-23 2020-04-22 TE Connectivity Germany GmbH Contact stud and contact assembly in particular for car technology
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JP6792424B2 (en) 2016-11-18 2020-11-25 日本航空電子工業株式会社 Connector device
JP2018185932A (en) * 2017-04-25 2018-11-22 住友電装株式会社 Male terminal
CN108565581A (en) * 2018-03-30 2018-09-21 东莞市美金兴能源有限公司 Plug-in connector

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