JP6793144B2 - connector - Google Patents

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Publication number
JP6793144B2
JP6793144B2 JP2018072287A JP2018072287A JP6793144B2 JP 6793144 B2 JP6793144 B2 JP 6793144B2 JP 2018072287 A JP2018072287 A JP 2018072287A JP 2018072287 A JP2018072287 A JP 2018072287A JP 6793144 B2 JP6793144 B2 JP 6793144B2
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locking
detection member
connector
housing
main body
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JP2019033062A (en
Inventor
大樹 雨宮
大樹 雨宮
大▲高▼ 一人
一人 大▲高▼
恭平 神村
恭平 神村
翔 河野
翔 河野
亨 黒澤
亨 黒澤
岩堀 好裕
好裕 岩堀
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Yazaki Corp
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Yazaki Corp
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Priority to US16/052,607 priority Critical patent/US10283904B2/en
Priority to CN201810872804.9A priority patent/CN109390784B/en
Priority to DE102018212911.8A priority patent/DE102018212911A1/en
Publication of JP2019033062A publication Critical patent/JP2019033062A/en
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Description

本発明は、コネクタに関する。 The present invention relates to a connector.

従来、コネクタにおいては、相手方コネクタとの嵌合状態が完全なるものであるのか否かを作業者等に判断させるための技術が知られている。例えば、コネクタは、仮係止位置と本係止位置との間でのハウジングに対する相対移動が可能な検知部材を備えている(下記の特許文献1、2)。その検知部材は、コネクタと相手方コネクタとの間(コネクタ間)の嵌合状態が完全なるものでなければ(所謂嵌合解除状態であれば)、仮係止位置から本係止位置まで移動させることができず、その嵌合状態が完全なるものであれば(所謂完全嵌合状態であれば)、仮係止位置から本係止位置まで移動させることができる。作業者等は、そのようなハウジングに対する検知部材の相対的な位置関係に基づいて、コネクタ間の嵌合状態が完全なるものであるのか否かを判断することができる。 Conventionally, in the case of a connector, a technique has been known for causing an operator or the like to determine whether or not the mating state with the mating connector is perfect. For example, the connector includes a detection member capable of relative movement with respect to the housing between the temporary locking position and the main locking position (Patent Documents 1 and 2 below). The detection member is moved from the temporary locking position to the main locking position unless the mating state between the connector and the mating connector (between the connectors) is perfect (in the so-called disengagement state). If it cannot be done and the fitting state is perfect (so-called perfect fitting state), it can be moved from the temporary locking position to the main locking position. The operator or the like can determine whether or not the fitting state between the connectors is perfect based on the relative positional relationship of the detection member with respect to such a housing.

特開2002−260781号公報JP-A-2002-260781 特開平8−31517号公報Japanese Unexamined Patent Publication No. 8-31517

ところで、両ハウジングの係止を解除する際に、検知部材を操作して完全嵌合状態のときに、本係止位置から仮係止位置にまで移動させ、さらにロックアームに設けられたロックアーム操作部を操作してハウジングに設けられた係止部と相手方ハウジングに設けられた被係止部との係止を解除させ、さらに互いのコネクタを引き離す方向に動かすことでコネクタ同士の離脱を行うのだが、検知部材を本係止位置から仮係止位置まで移動させる移動操作と両ハウジングの係止を解除する係止解除操作をそれぞれ異なる部材で行うため、両ハウジングの係止解除までの作業性に問題があった。 By the way, when releasing the locking of both housings, when the detection member is operated to be in a completely fitted state, the locking arm is moved from the main locking position to the temporary locking position, and further, the lock arm provided on the lock arm is provided. By operating the operation unit to release the lock between the locking portion provided on the housing and the locked portion provided on the mating housing, and further moving the connectors in a direction to separate them from each other, the connectors are separated from each other. However, since the movement operation for moving the detection member from the main locking position to the temporary locking position and the unlocking operation for releasing the locking of both housings are performed by different members, the work until the locking of both housings is released. There was a problem with sex.

本発明は、上記に鑑みてなされたものであって、コネクタ同士の離脱を容易に行うことができるコネクタを提供することを目的とする。 The present invention has been made in view of the above, and an object of the present invention is to provide a connector capable of easily disconnecting the connectors from each other.

上述した課題を解決し、目的を達成するために、本発明は、端子と、前記端子が収容及び保持され、相手方コネクタとの嵌合状態が完全嵌合状態のときに係止部を相手方ハウジングに設けられた被係止部に係止させ解除可能にロックすることにより前記相手方ハウジングが係合されるハウジングと、前記ハウジングに組み付けられ、嵌合状態が完全嵌合状態のときに位置することができる本係止位置と前記本係止位置よりも離脱方向側の位置である係止解除位置との間で前記ハウジングに対する嵌合方向及び離脱方向に相対移動が可能な検知部材と、を備え、前記ハウジングは、本体部と、前記本体部と嵌合方向と直交する方向である対向方向に対向し、かつ、前記本係止位置において前記係止部を前記本体部とともに挟み込むロック用壁部と、前記本体部に固定される可撓性のロックアームと、を有し、前記ロックアームは、前記検知部材が取り付け可能であり、前記係止部と、一端が前記本体部の外周面に固定されて前記嵌合方向に延在し、他端に前記係止部を有する基部と、一端が前記係止部に接続されて前記ロックアームに沿って離脱方向に延在する解除レバー部と、を有し、前記解除レバー部は、前記本体部の外周面と前記対向方向に対向し、前記ハウジング単体での状態において、前記本体部との間に隙間が形成されている支持部と、前記支持部よりも前記離脱方向側に位置し、前記ロックアームが弾性変形することで、前記支持部が前記本体部の外周面と接触した直後には前記本体部の外周面と接触せず、前記ロックアームがさらに弾性変形することで、前記本体部の外周面と接触する接触部と、を有し、前記検知部材は、前記本係止位置において、少なくとも一部が前記ロック用壁部と前記係止部との間に位置し、前記係止解除位置において、前記ロック用壁部と前記係止部との間に位置せず、前記支持部を挟んで前記本体部に対向するとともに前記係止部より前記離脱方向側に位置する検知部材操作部を有する、ことを特徴とする。 In order to solve the above-mentioned problems and achieve the object, the present invention holds the locking portion in the mating housing when the terminal and the terminal are accommodated and held and the mating state with the mating connector is a perfect mating state. It is positioned when the mating state is fully fitted with the housing to which the mating housing is engaged by locking and unlocking the locked portion provided in the housing and the housing. A detection member capable of relative movement in the fitting direction and the disengagement direction with respect to the housing between the main locking position where the device can be engaged and the unlocking position which is a position on the disengagement direction side from the main locking position. The housing is a locking wall portion that faces the main body portion in a direction opposite to the main body portion in a direction orthogonal to the fitting direction, and sandwiches the locking portion together with the main body portion at the main locking position. And a flexible lock arm fixed to the main body portion, and the detection member can be attached to the lock arm, and the locking portion and one end thereof are on the outer peripheral surface of the main body portion. A base that is fixed and extends in the mating direction and has the locking portion at the other end, and a release lever portion that is connected to the locking portion and extends in the detaching direction along the lock arm. The release lever portion faces the outer peripheral surface of the main body portion in the facing direction, and in the state of the housing alone, a support portion having a gap formed between the main body portion and the support portion . The lock arm is elastically deformed from the support portion in the detaching direction, so that the support portion does not come into contact with the outer peripheral surface of the main body immediately after it comes into contact with the outer peripheral surface of the main body. The lock arm further elastically deforms to have a contact portion that comes into contact with the outer peripheral surface of the main body portion, and the detection member has at least a part of the lock wall portion at the main locking position. It is located between the locking portion, and at the unlocking position, it is not located between the locking wall portion and the locking portion, but faces the main body portion with the support portion interposed therebetween and said. It is characterized by having a detection member operating portion located on the detaching direction side from the locking portion.

本発明にかかるコネクタは、コネクタ同士の離脱を容易に行うことができるという効果を奏する。 The connector according to the present invention has an effect that the connectors can be easily separated from each other.

図1は、実施形態のコネクタを示す斜視図であって、相手方コネクタとの嵌合前の状態を示す図である。FIG. 1 is a perspective view showing the connector of the embodiment, and is a view showing a state before fitting with the mating connector. 図2は、実施形態のコネクタを相手方コネクタ側から見た正面図である。FIG. 2 is a front view of the connector of the embodiment as viewed from the other side of the connector. 図3は、実施形態のコネクタを示す分解斜視図である。FIG. 3 is an exploded perspective view showing the connector of the embodiment. 図4は、実施形態のコネクタを示す斜視図であって、相手方コネクタとの嵌合完了後の完全嵌合状態を示す。FIG. 4 is a perspective view showing the connector of the embodiment, and shows a complete fitting state after the fitting with the mating connector is completed. 図5は、図2のX−X線断面図である。FIG. 5 is a cross-sectional view taken along line XX of FIG. 図6は、完全嵌合状態のコネクタと相手方コネクタを中央で二分割した図4のY−Y線断面図である。FIG. 6 is a cross-sectional view taken along the line YY of FIG. 4 in which the connector in the fully fitted state and the mating connector are divided into two at the center. 図7は、実施形態の検知部材を示す斜視図である。FIG. 7 is a perspective view showing the detection member of the embodiment. 図8は、図6の本係止位置に至る前の仮係止位置及び嵌合解除状態のときの解除位置の検知部材の移動途中の状態を示す図である。FIG. 8 is a diagram showing a state in which the detection member of the temporary locking position before reaching the main locking position of FIG. 6 and the release position in the disengagement state is being moved. 図9は、図6の本係止位置に至る前の仮係止位置及び嵌合解除状態のときの解除位置の検知部材の図である。FIG. 9 is a diagram of a detection member of the temporary locking position before reaching the main locking position of FIG. 6 and the releasing position in the disengaged state. 図10は、図2のZ−Z線断面図であって、仮係止位置及び解除位置の検知部材の図である。FIG. 10 is a cross-sectional view taken along the line ZZ of FIG. 2, which is a diagram of a detection member for a temporary locking position and a releasing position. 図11は、図9の支持部と本体部が当接した状態を示す図である。FIG. 11 is a diagram showing a state in which the support portion and the main body portion of FIG. 9 are in contact with each other. 図12は、図9の検知部材を操作して支持部を中心に係止部を回動させた状態を示す図である。FIG. 12 is a diagram showing a state in which the locking portion is rotated around the support portion by operating the detection member of FIG.

以下に、本発明にかかるコネクタの実施形態を図面に基づいて詳細に説明する。なお、この実施形態によりこの発明が限定されるものではない。 Hereinafter, embodiments of the connector according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

[実施形態]
図1〜図12のX方向は、本実施形態におけるコネクタ1及び相手方コネクタCの挿抜方向であり、ハウジング20および相手方ハウジングChの前後方向である。Y方向は、本実施形態におけるコネクタ1及び相手方コネクタCの配列方向であり、挿抜方向と直交し、ハウジング20および相手方ハウジングChの幅方向である。Z方向は、本実施形態におけるコネクタ1及び相手方コネクタCの上下方向であり、挿抜方向および配列方向と直交する方向である。X1方向はコネクタ1の嵌合方向で、X2方向はコネクタ1の離脱方向である。Z1方向は両コネクタの上方向で、Z2方向は両コネクタの下方向である。以下の説明で用いる各方向は、特に断りのない限り、各部が相互に組み付けられた状態での方向を表すものとする。 [Embodiment]
The X direction of FIGS. 1 to 12 is the insertion / extraction direction of the connector 1 and the mating connector C in the present embodiment, and is the front-rear direction of the housing 20 and the mating housing Ch. The Y direction is the arrangement direction of the connector 1 and the mating connector C in the present embodiment, orthogonal to the insertion / extraction direction, and the width direction of the housing 20 and the mating housing Ch. The Z direction is the vertical direction of the connector 1 and the mating connector C in the present embodiment, and is a direction orthogonal to the insertion / extraction direction and the arrangement direction. The X1 direction is the mating direction of the connector 1, and the X2 direction is the detaching direction of the connector 1. The Z1 direction is the upward direction of both connectors, and the Z2 direction is the downward direction of both connectors. Unless otherwise specified, each direction used in the following description shall represent a direction in which each part is assembled to each other.

本実施形態におけるコネクタ1は、図1に示すように、例えば、自動車等に使用されるワイヤハーネス等に適用される。ここでは、コネクタ1は、ワイヤハーネスを構成する複数の電線を接続する電線対電線接続用の接続機構であり、例えば、エアバック回路において用いられる。このコネクタ1は、図示しない端子と、この端子を収容及び保持するハウジング20と、を備える。 As shown in FIG. 1, the connector 1 in this embodiment is applied to, for example, a wire harness or the like used in an automobile or the like. Here, the connector 1 is a wire-to-wire connection mechanism for connecting a plurality of wires constituting a wire harness, and is used, for example, in an airbag circuit. The connector 1 includes a terminal (not shown) and a housing 20 that accommodates and holds the terminal.

端子は、金属等の導電性材料によって所定形状に成形され、電線の端末の芯線が圧着や溶着等の所定の接続形態で物理的且つ電気的に接続される。端子は、相手方コネクタCの相手方端子が接続される端子接続部と、電線の芯線が接続される電線接続部と、を有する。本実施形態では、このコネクタ1の端子を雌端子として成形し、相手方コネクタCの相手方端子を雄端子として成形している。但し、端子と相手方端子は、互いに嵌合された上で物理的且つ電気的に接続されるものであるならば、その何れが雌端子であってもよく雄端子であってもよい。 The terminal is formed into a predetermined shape by a conductive material such as metal, and the core wire of the terminal of the electric wire is physically and electrically connected in a predetermined connection form such as crimping or welding. The terminal has a terminal connection portion to which the counterpart terminal of the counterpart connector C is connected and an electric wire connection portion to which the core wire of the electric wire is connected. In the present embodiment, the terminal of the connector 1 is formed as a female terminal, and the other terminal of the other connector C is formed as a male terminal. However, the terminal and the mating terminal may be either a female terminal or a male terminal as long as they are physically and electrically connected after being fitted to each other.

ハウジング20は、図2及び図3に示すように、合成樹脂等の絶縁性材料によって所定形状に成形され、本体部21と、フード22と、環状空間部23と、操作溝24と、収容空間部25と、係止体26と、ハウジング突出体27と、規制レール28とを有する。 As shown in FIGS. 2 and 3, the housing 20 is formed into a predetermined shape by an insulating material such as synthetic resin, and has a main body 21, a hood 22, an annular space 23, an operation groove 24, and a storage space. It has a portion 25, a locking body 26, a housing protrusion 27, and a regulation rail 28.

本体部21は、図5に示すように、複数個の端子を収容及び保持するために複数の端子収容室21aが設けられている。それぞれの端子収容室21aは、端子を1つずつ収容及び保持し、挿抜方向に沿って端子を1つずつ収容及び保持するように形成されている。端子収容室21aは、嵌合方向側に開口部を有しており、この開口部を介して内方の端子の端子接続部を外方に露出させる。相手方端子は、コネクタ嵌合工程において、その開口部から端子収容室21aに挿入され、端子の端子接続部に嵌合される。この端子収容室21aにおいては、離脱方向側にも開口部を有しており、内方で端子の電線接続部に接続されている電線が離脱方向側の開口部から外方に引き出される。本実施形態のそれぞれの端子収容室21aは、角筒状のフード22の内方に配置された方体状の本体部21の内方に格子状に並べて配置され、かつ、フード22から離脱方向側に突出させている。 As shown in FIG. 5, the main body 21 is provided with a plurality of terminal accommodating chambers 21a for accommodating and holding a plurality of terminals. Each terminal accommodating chamber 21a is formed so as to accommodate and hold one terminal at a time, and to accommodate and hold one terminal at a time along the insertion / removal direction. The terminal accommodating chamber 21a has an opening on the fitting direction side, and the terminal connection portion of the inner terminal is exposed to the outside through the opening. In the connector fitting step, the mating terminal is inserted into the terminal accommodating chamber 21a through the opening thereof and fitted into the terminal connection portion of the terminal. The terminal accommodating chamber 21a also has an opening on the detachment direction side, and the electric wire connected to the electric wire connection portion of the terminal on the inside is pulled out from the opening on the detachment direction side. The terminal accommodating chambers 21a of the present embodiment are arranged side by side in a grid pattern inside the square main body 21 arranged inside the square tubular hood 22, and are arranged in a grid pattern, and are in a direction of detachment from the hood 22. It protrudes to the side.

フード22は、図1および図2に示すように、筒状であり、本体部21が内方に配置されるように形成される。フード22は、その筒軸方向が、挿抜方向に沿うように配置する。フード22は、嵌合方向側に開口部22aを有している。相手方コネクタCは、その開口部22aから挿入される。本実施形態におけるフード22は、角筒状に形成されており、内方に配置された方体状の本体部21の内方に端子収容室21aが格子状に並べて配置され、かつ、端子収容室21aを離脱方向側に突出させている。 As shown in FIGS. 1 and 2, the hood 22 has a tubular shape and is formed so that the main body 21 is arranged inward. The hood 22 is arranged so that its tubular axis direction is along the insertion / removal direction. The hood 22 has an opening 22a on the fitting direction side. The mating connector C is inserted through the opening 22a. The hood 22 in the present embodiment is formed in a square tube shape, and the terminal accommodating chambers 21a are arranged in a grid pattern inside the square main body 21 arranged inward, and the terminals are accommodated. The chamber 21a is projected toward the departure direction.

環状空間部23は、図1に示すように、本体部21とフード22との間に形成されており、コネクタ1と相手方コネクタCとの間のコネクタ嵌合工程に際して、相手方コネクタCにおける相手方ハウジングChの筒状のフードChfが本体部21を内方に包み込むように収容される。そのフードChfの内方には、複数個の相手方端子が収容及び保持されている。 As shown in FIG. 1, the annular space portion 23 is formed between the main body portion 21 and the hood 22, and is formed in the mating housing in the mating connector C during the connector fitting process between the connector 1 and the mating connector C. The tubular hood Chf of Ch is housed so as to wrap the main body 21 inward. A plurality of counterparty terminals are housed and held inside the hood Chf.

操作溝24は、図5に示すように、後述する検知部材40の一部を外方に露出させるように形成されており、検知部材40に対する作業者等の操作を行うために設けられている。操作溝24は、操作空間部24aと、側壁24aと、可動空間部24bとを有している。操作空間部24aは、操作溝24において、検知部材40を外方に露出させている空間部分であり、作業者等が操作を行う際に利用される。操作空間部24aは、側壁24aを有している。側壁24aは、配列方向において対向して一対形成されており、ハウジング20の外壁の一部を成している。可動空間部24bは、操作溝24において、検知部材40と本体部21の外周面との間に設けられている空間であり、嵌合方向側において環状空間部23と連通している。 As shown in FIG. 5, the operation groove 24 is formed so as to expose a part of the detection member 40, which will be described later, to the outside, and is provided for an operator or the like to operate the detection member 40. .. The operation groove 24 has an operation space portion 24a, a side wall 24a 1, and a movable space portion 24b. The operation space portion 24a is a space portion in the operation groove 24 in which the detection member 40 is exposed to the outside, and is used when an operator or the like performs an operation. The operation space portion 24a has a side wall 24a 1 . The side walls 24a 1 are formed in pairs facing each other in the arrangement direction, and form a part of the outer wall of the housing 20. The movable space portion 24b is a space provided between the detection member 40 and the outer peripheral surface of the main body portion 21 in the operation groove 24, and communicates with the annular space portion 23 on the fitting direction side.

収容空間部25は、図5に示すように、操作空間部24aよりも嵌合方向側に配置するように形成されており、操作空間部24aの嵌合方向側に連通している。収容空間部25は、ロック用壁部25aと、側壁部25bと、を有している。ロック用壁部25aは、上下方向において環状空間部23側とは反対側で、本体部21に対して上方向に対向するよう形成されており、検知部材40の一部を収容する。側壁部25bは、ロック用壁部25aの両端部に繋ぐよう形成されており、配列方向において対向して一対形成されている。また、ロック用壁部25a及び側壁部25bは、ハウジング20の外壁の一部を成している。 As shown in FIG. 5, the accommodation space portion 25 is formed so as to be arranged on the fitting direction side with respect to the operation space portion 24a, and communicates with the fitting direction side of the operation space portion 24a. The accommodation space portion 25 has a lock wall portion 25a and a side wall portion 25b. The lock wall portion 25a is formed so as to face the main body portion 21 in the upward direction on the side opposite to the annular space portion 23 side in the vertical direction, and accommodates a part of the detection member 40. The side wall portions 25b are formed so as to be connected to both end portions of the locking wall portion 25a, and are formed in pairs facing each other in the arrangement direction. Further, the locking wall portion 25a and the side wall portion 25b form a part of the outer wall of the housing 20.

係止体26は、図2に示すように、収容空間部25の一対の側壁部25bからそれぞれ個別に立設し、配列方向において対向して一対形成されている。一方の係止体26は、他方の係止体26に向けて突出させて形成されている。 As shown in FIG. 2, the locking bodies 26 are individually erected from the pair of side wall portions 25b of the accommodation space portion 25, and are formed in pairs facing each other in the arrangement direction. One locking body 26 is formed so as to project toward the other locking body 26.

ハウジング突出体27は、図3に示すように、操作空間部24aの一対の側壁24aから個別に立設し、配列方向において対向して一対形成されている。一方の突出体27は、他方の突出体27に向けて突出させて形成されている。本実施形態における突出体27は、方体状に形成されている。ハウジング突出体27は、嵌合方向から見た場合に、根元側であるハウジング突出体27が立設している側壁24a側よりも先端側である他方の突出体27側が上下方向において短く、すなわち上下方向における長さである厚さが薄く形成されている。 As shown in FIG. 3, the housing protrusions 27 are individually erected from the pair of side walls 24a 1 of the operation space portion 24a, and are formed in pairs facing each other in the arrangement direction. One projecting body 27 is formed so as to project toward the other projecting body 27. The projecting body 27 in the present embodiment is formed in a square shape. When viewed from the fitting direction, the housing projecting body 27 is shorter in the vertical direction on the other projecting body 27 side, which is the tip side than the side wall 24a 1 side on which the housing projecting body 27 on the root side stands. That is, the thickness, which is the length in the vertical direction, is formed thin.

規制レール28は、図2に示すように、各側壁部25bにそれぞれ形成されている。規制レール28は、検知部材40の後述する壁体42とそれぞれ対向するように突出しており、検知部材移動工程において、本係止用係止突起46と上下方向と向き合うことができるように形成及び配置される。従って、検知部材40が収容空間部25に挿入された際に、各本係止用係止突起46が各規制レール28と上方向において接触することで、検知部材40のハウジング20に対する下方向への移動が規制される。特に、検知部材40が本係止位置にある際に、検知部材40を下方向に押しても、検知部材40がハウジング20に対する下方向への移動することが抑制されるので、上下方向において過度の荷重がかかった状態で、仮係止解除部45が相手方ハウジングChの筒状のフードChfと接触することを抑制することができる。これにより、コネクタ1の耐久性を向上することができる。 As shown in FIG. 2, the regulation rail 28 is formed on each side wall portion 25b. The regulation rail 28 projects so as to face the wall body 42 described later of the detection member 40, and is formed so as to face the locking projection 46 for locking in the vertical direction in the detection member moving step. Be placed. Therefore, when the detection member 40 is inserted into the accommodation space 25, each of the locking projections 46 for locking comes into contact with each regulation rail 28 in the upward direction, so that the detection member 40 moves downward with respect to the housing 20. Movement is restricted. In particular, even if the detection member 40 is pushed downward when the detection member 40 is in the main locking position, the detection member 40 is suppressed from moving downward with respect to the housing 20, so that it is excessive in the vertical direction. It is possible to prevent the temporary locking release portion 45 from coming into contact with the tubular hood Chf of the mating housing Ch when a load is applied. Thereby, the durability of the connector 1 can be improved.

ここで、コネクタ1と相手方コネクタCとが互いに挿入し終えた状態であって、端子と相手方端子との間の物理的且つ電気的な接続が成立している状態を完全嵌合状態という。一方、コネクタ嵌合工程において完全嵌合状態となる前まで、あるいはコネクタ解除工程において完全嵌合状態の後におけるコネクタ1と相手方コネクタCとの間(以下、「コネクタ間」ともいう。)の嵌合状態のことを嵌合解除状態という。 Here, a state in which the connector 1 and the mating connector C have been inserted into each other and a physical and electrical connection between the terminal and the mating terminal is established is referred to as a perfect fitting state. On the other hand, the fitting between the connector 1 and the mating connector C (hereinafter, also referred to as "connector-to-connector") before the complete fitting state in the connector fitting step or after the complete fitting state in the connector releasing step. The combined state is called the unfitted state.

図6に示すように、コネクタ1と相手方コネクタCとの間には、これらが完全嵌合状態のときにハウジング20と相手方ハウジングChとを互いに係合させ、その完全嵌合状態を保持させる保持構造30が設けられている。保持構造30は、コネクタ間の所謂ロック構造であり、図6に示すように、コネクタ1と相手方コネクタCとの嵌合状態が完全嵌合状態のときにハウジング20と相手方ハウジングChとを互いに係合させ、その完全嵌合状態を保持させる。保持構造30は、ロックアーム31と、被係止構造32とからなる。 As shown in FIG. 6, between the connector 1 and the mating connector C, the housing 20 and the mating housing Ch are engaged with each other when they are in the fully fitted state, and the fully fitted state is maintained. The structure 30 is provided. The holding structure 30 is a so-called lock structure between the connectors, and as shown in FIG. 6, the housing 20 and the mating housing Ch are engaged with each other when the mating state of the connector 1 and the mating connector C is in a completely mating state. It is fitted and the fully fitted state is maintained. The holding structure 30 includes a lock arm 31 and a locked structure 32.

ロックアーム31は、図5に示すように、本体部21における4つの外周面の内の1つに対して一体化されるよう形成されており、相手方ハウジングChに係止されることで、完全嵌合状態を保持させる。ロックアーム31は、本体部21に固定されるものであり、可撓性を持たせており、検知部材40を取り付け可能となっている。また、ロックアーム31は、基部31a、係止部31b、解除レバー部31c、支持部31d、ガイド部31f、ロックアーム突出体31gを有している。 As shown in FIG. 5, the lock arm 31 is formed so as to be integrated with one of the four outer peripheral surfaces of the main body 21, and is completely locked by the mating housing Ch. Hold the mated state. The lock arm 31 is fixed to the main body 21 and has flexibility so that the detection member 40 can be attached. Further, the lock arm 31 has a base portion 31a, a locking portion 31b, a release lever portion 31c, a support portion 31d, a guide portion 31f, and a lock arm projecting body 31g.

基部31aは、離脱方向側の一端が下方に曲がって本体部21の上方向側の外周面に固定され、かつ嵌合方向側の他端が嵌合方向に延在するよう形成されている。 The base portion 31a is formed so that one end on the detaching direction side is bent downward and fixed to the outer peripheral surface on the upward side of the main body portion 21, and the other end on the fitting direction side extends in the fitting direction.

係止部31bは、基部31aの嵌合方向側の他端に形成され、ロック用壁部25aと下方向において対向するように形成されている。係止部31bは、相手方ハウジングCに設けられた被係止部32aに係止するものであり、係止を解除可能に、相手方ハウジングCをハウジング20に対してロックするものである。 The locking portion 31b is formed at the other end of the base portion 31a on the fitting direction side, and is formed so as to face the locking wall portion 25a in the downward direction. The locking portion 31b locks to the locked portion 32a provided on the mating housing C, and locks the mating housing C to the housing 20 so that the locking can be released.

解除レバー部31cは、嵌合方向側の一端が係止部31bに接続され、離脱方向側の他端が離脱方向に延在するよう形成されている。解除レバー部31cは、ロックアーム31の両側壁が嵌合方向に延びる半矢じり形状に形成されており、この側壁を構成している。解除レバー部31cは、上下方向から見た場合に、ロックアーム31の両側壁の離脱方向側の他端が連結部31iにより連結されることで構成されている。また、解除レバー部31cは、支持部31dと接触部31hとを有している。 The release lever portion 31c is formed so that one end on the fitting direction side is connected to the locking portion 31b and the other end on the release direction side extends in the release direction. The release lever portion 31c is formed in a half arrowhead shape in which both side walls of the lock arm 31 extend in the fitting direction, and constitutes the side wall thereof. The release lever portion 31c is configured such that the other ends of both side walls of the lock arm 31 on the detachment direction side are connected by the connecting portion 31i when viewed from the vertical direction. Further, the release lever portion 31c has a support portion 31d and a contact portion 31h.

支持部31dは、ハウジング20単体での状態において、本体部21との間に隙間が形成されている。支持部31dは、本体部21の外周面と上下方向に対向するものであり、配列方向から見た場合に、基部31aの離脱方向側の一端と重なるよう形成されている。 A gap is formed between the support portion 31d and the main body portion 21 in the state of the housing 20 alone. The support portion 31d faces the outer peripheral surface of the main body portion 21 in the vertical direction, and is formed so as to overlap one end of the base portion 31a on the detachment direction side when viewed from the arrangement direction.

接触部31hは、ロックアーム31が弾性変形をすることで、支持部31dが本体部21の外周面と接触した直後には本体部21の外周面と接触せず、ロックアーム31がさらに弾性変形することで、本体部21の外周面と接触するものである。ロックアーム31は、接触部31hが本体部21の外周面と接触することで、下方向側への弾性変形が規制されるので、ロックアーム31の過度の撓みを抑制することができ、ロックアーム31が塑性することを抑制することができる。ここで、解除レバー部31cの下方向側端面は、幅方向から見た場合に、接触部31hと支持部31dとを結んだ直線よりも、上方向側に突出する湾曲面であることが好ましい。これにより、支持部31dが本体部21の外周面と接触したのち、接触部31hが本体部21の外周面と接触する前に、下方向側他面と接触することが抑制できる。 Since the lock arm 31 is elastically deformed , the contact portion 31h does not come into contact with the outer peripheral surface of the main body 21 immediately after the support portion 31d comes into contact with the outer peripheral surface of the main body 21, and the lock arm 31 is further elastically deformed. By doing so, it comes into contact with the outer peripheral surface of the main body 21. Since the contact portion 31h of the lock arm 31 comes into contact with the outer peripheral surface of the main body portion 21 to regulate the elastic deformation downward, the lock arm 31 can suppress excessive bending of the lock arm 31. It is possible to prevent 31 from plasticizing. Here, the downward end surface of the release lever portion 31c is preferably a curved surface that projects upward from the straight line connecting the contact portion 31h and the support portion 31d when viewed from the width direction. .. As a result, it is possible to prevent the support portion 31d from coming into contact with the outer peripheral surface of the main body 21, and then the contact portion 31h from coming into contact with the other surface on the downward side before coming into contact with the outer peripheral surface of the main body 21.

ガイド部31fは、図2に示すように、取り付けた検知部材40のロックアーム31からの離脱(挿抜方向とは異なる向きへの離脱)を抑えることができるように一対形成されている。本実施形態のガイド部31fは、解除レバー部31cに設けられている。 As shown in FIG. 2, the guide portions 31f are formed in pairs so as to prevent the attached detection member 40 from being detached from the lock arm 31 (disengagement in a direction different from the insertion / extraction direction). The guide portion 31f of the present embodiment is provided on the release lever portion 31c.

ロックアーム突出体31gは、図3に示すように、側壁24aに向かい合うよう方体状に一対形成されている。本実施形態のロックアーム突起体31gは、解除レバー部31cに設けられている。ロックアーム突出体31gは、嵌合方向から見た場合に、根元側である解除レバー部31側よりも先端側である対向する側壁24a側が上下方向において短く、すなわち上下方向における長さである厚さが薄く形成されている。 As shown in FIG. 3, the lock arm projecting bodies 31g are formed in a pair in a square shape so as to face the side wall 24a 1 . The lock arm protrusion 31g of the present embodiment is provided on the release lever portion 31c. When viewed from the fitting direction, the lock arm projecting body 31g has a side wall 24a 1 side facing the tip side, which is the tip side of the release lever portion 31 side, which is the root side, shorter in the vertical direction, that is, a length in the vertical direction. It is thinly formed.

被係止構造32は、相手方ハウジングCに設けられ、係止部31bが解除可能に係止されるように形成されている。被係止構造32は、被係止部32aと解除操作部32bとを有している。 The locked structure 32 is provided in the mating housing C and is formed so that the locking portion 31b can be unlocked. The locked structure 32 has a locked portion 32a and a release operation portion 32b.

被係止部32aは、図1に示すように、フードChfの外壁面から突出させた突出体であり、コネクタ嵌合工程において、挿抜方向において係止部31bと向き合うことができるように形成されている。被係止部32aは、完全嵌合状態のときに、係止部31bよりも離脱方向側に位置するように、フードChfの外壁面に対して形成されている。係止部31bおよび被係止部32aは、完全嵌合状態のときに、挿抜方向で互いに接触させてもよく、挿抜方向で間隔が空いていてもよい。但し、間隔を空ける場合には、その間隔が詰まって係止部31bと被係止部32aとが接触した際に、完全嵌合状態が損なわれないような間隔を設定する。この例示の被係止部32aは、方体状に形成している。 As shown in FIG. 1, the locked portion 32a is a projecting body protruding from the outer wall surface of the hood Chf, and is formed so as to face the locking portion 31b in the insertion / removal direction in the connector fitting step. ing. The locked portion 32a is formed with respect to the outer wall surface of the hood Chf so as to be located on the side in the disengagement direction with respect to the locking portion 31b in the completely fitted state. The locking portion 31b and the locked portion 32a may be brought into contact with each other in the insertion / removal direction in the completely fitted state, or may be spaced apart in the insertion / removal direction. However, when there is a gap, the gap is set so that the perfect fitting state is not impaired when the gap is narrowed and the locking portion 31b and the locked portion 32a come into contact with each other. The locked portion 32a of this example is formed in a square shape.

解除操作部32bは、図1に示すように、フードChfの外壁面から突出させた突出体であり、コネクタ嵌合工程において、挿抜方向において係止部31bと向き合うことができるように形成されている。解除操作部32bは、完全嵌合状態のときに、係止部31bよりも嵌合方向側に位置するように、フードChfの外壁面に対して形成されている。係止部31bおよび解除操作部32bは、完全嵌合状態のときに、挿抜方向で互いに接触させてもよく、挿抜方向で間隔が空いていてもよい。この例示の解除操作部32bは、方体状に形成されており、嵌合方向側に斜面が形成されている。 As shown in FIG. 1, the release operation portion 32b is a projecting body protruding from the outer wall surface of the hood Chf, and is formed so as to face the locking portion 31b in the insertion / removal direction in the connector fitting step. There is. The release operation portion 32b is formed with respect to the outer wall surface of the hood Chf so as to be located on the fitting direction side with respect to the locking portion 31b in the completely fitted state. The locking portion 31b and the releasing operation portion 32b may be brought into contact with each other in the insertion / removal direction in the fully fitted state, or may be spaced apart in the insertion / removal direction. The release operation portion 32b of this example is formed in a square shape, and a slope is formed on the fitting direction side.

本実施形態のコネクタ1は、図6に示すように、挿抜方向においてハウジング20に対して相対移動が可能に形成され、作業者等が相手方コネクタCとの完全嵌合状態を判断するための検知部材40を有する。検知部材40は、ロックアーム31に組み付ける。検知部材40は、ロックアーム31よりもハウジング20の外方寄りに配置され、かつ、少なくとも離脱方向側が操作溝24の操作空間部24aに配置されるように、ハウジング20に対して組み付ける。従って、操作空間部24aにおいては、検知部材40の少なくとも離脱方向側が外部に露出している。本実施形態のコネクタ1においては、操作空間部24aを検知部材40の相対移動操作のための空間としても利用する。このため、検知部材40においては、離脱方向側が相対移動操作のための操作部として利用される。また、検知部材40は、基体41、壁体42、被ガイド部43、検知部材操作部44、仮係止解除部45、本係止用係止突起46、検知部材突起体47、規制突起体48を有している。 As shown in FIG. 6, the connector 1 of the present embodiment is formed so as to be relatively movable with respect to the housing 20 in the insertion / removal direction, and a detection for an operator or the like to determine a completely fitted state with the mating connector C. It has a member 40. The detection member 40 is assembled to the lock arm 31. The detection member 40 is assembled to the housing 20 so that it is arranged closer to the outside of the housing 20 than the lock arm 31 and at least the side in the detaching direction is arranged in the operation space portion 24a of the operation groove 24. Therefore, in the operation space portion 24a, at least the detachment direction side of the detection member 40 is exposed to the outside. In the connector 1 of the present embodiment, the operation space portion 24a is also used as a space for the relative movement operation of the detection member 40. Therefore, in the detection member 40, the detachment direction side is used as an operation unit for the relative movement operation. Further, the detection member 40 includes a base 41, a wall body 42, a guided portion 43, a detection member operation portion 44, a temporary locking release portion 45, a locking projection 46 for main locking, a detection member projection 47, and a regulation projection. Has 48.

基体41は、図7に示すように、ハウジング20に対して検知部材40を取り付けた後に、ロックアーム31の基部31aに対して間隔を空けて配置されるよう形成されている。基体41は、例えば、一方の平面を下方向で基部31aに向かい合わせた矩形の片体形状の成形体であってもよく、その片体形状の成形体に様々な切欠きや溝等を形成したものであってもよい。 As shown in FIG. 7, the base 41 is formed so as to be arranged at intervals with respect to the base portion 31a of the lock arm 31 after the detection member 40 is attached to the housing 20. The substrate 41 may be, for example, a rectangular piece-shaped molded body having one plane facing downward toward the base portion 31a, and various notches, grooves, or the like are formed in the piece-shaped molded body. It may be the one that has been used.

壁体42は、基体41の配列方向の両端部からそれぞれの側壁24a側に向かって一対形成されている。被ガイド部43は、壁体42の先端にそれぞれ形成されており、検知部材移動工程において、嵌合方向でロックアーム31のガイド部31fと向き合うことができるように形成及び配置され、ガイド部31fと被ガイド部43との係止により、ハウジング20に対する検知部材40の嵌合方向への相対移動を案内する。本実施形態では、ロックアーム31に検知部材40を取り付け、この検知部材40とロックアーム31との間にガイド部31fと被ガイド部43からなるガイド構造51を設ける。このガイド構造51においては、解除レバー部31cにガイド部31fとしてのガイド溝を設けると共に、検知部材40に被ガイド部43としてのガイド突起を設ける。また、各壁体42は、側壁24a側の面に案内面42aがそれぞれ形成されている。各案内面42aは、下方向に向かうにともない、側壁24a側と反対側に向かう傾斜面である。各案内面42aは、検知部材40をハウジング20に挿入する際において、被ガイド部43がガイド部31fを下方向に乗り越える時に、側壁24aと接触するように形成されている。従って、権利部材40は被ガイド部43がガイド部31fを下方向に乗り越える時に、各壁体42が側壁24a側に向かって幅方向に広がるが、その際に案内面42aが側壁24aに接触することとなるので、ハウジング20に対する検知部材40を挿入を容易に行うことができる。 The wall bodies 42 are formed in pairs from both ends of the base 41 in the arrangement direction toward the side walls 24a 1 side. The guided portion 43 is formed at the tip of the wall body 42, and is formed and arranged so as to face the guide portion 31f of the lock arm 31 in the fitting direction in the detection member moving step. And the guided portion 43 are engaged with each other to guide the relative movement of the detection member 40 with respect to the housing 20 in the fitting direction. In the present embodiment, the detection member 40 is attached to the lock arm 31, and a guide structure 51 including a guide portion 31f and a guided portion 43 is provided between the detection member 40 and the lock arm 31. In the guide structure 51, the release lever portion 31c is provided with a guide groove as the guide portion 31f, and the detection member 40 is provided with a guide protrusion as the guided portion 43. Further, each wall body 42 has a guide surface 42a formed on a surface on the side wall 24a 1 side. Each guide surface 42a is an inclined surface that faces the side opposite to the side wall 24a 1 side as it goes downward. Each guide surface 42a is formed so as to come into contact with the side wall 24a 1 when the guided portion 43 gets over the guide portion 31f downward when the detection member 40 is inserted into the housing 20. Therefore, when the guided portion 43 gets over the guide portion 31f downward, each wall body 42 of the right member 40 expands in the width direction toward the side wall 24a 1 side, and at that time, the guide surface 42a becomes the side wall 24a 1 . Since they come into contact with each other, the detection member 40 can be easily inserted into the housing 20.

検知部材操作部44は、図1に示すように、操作空間部24aにおいて、上方向に基体41から突出させるよう形成されており、検知部材40の相対移動を作業者等が行う際に利用される。検知部材操作部44は、ハウジング20のロック用壁部25aよりも外方に突出させ、解除操作面44aと、嵌合操作面44bと、を有している。解除操作面44aは、嵌合方向側に位置し、離脱方向と向かい合うよう形成されており、嵌合操作面44bは、離脱方向側に位置し、嵌合方向と向かい合うよう形成されている。嵌合操作面44bは、図5に示すように、嵌合操作部44の上方向側端面から下方向に向かうにともない離脱方向側に突出する傾斜面として形成されている。検知部材40を嵌合方向に移動させる際に、作業者は、嵌合操作面44bを嵌合方向に押すこととなるが、嵌合操作面が傾斜面となっているため、検知部材40は嵌合方向および下方向に向かう力が作用することとなる。従って、検知部材40を嵌合方向に移動させる際に、仮係止解除部45が上方向に浮き上がることを抑制することができる。なお、嵌合操作面44bは、上下方向において複数の凹部が連続して形成されていてもよい。各凹部は、幅方向から見た場合に、下方向側に位置する第一凹部面と、上方向側に位置する第二凹部面とを有し、第一凹部面の長さが第二凹部面よりも長く形成されている。また、第一凹部面は、嵌合操作面44b全体の傾斜角度よりも深く、すなわち嵌合方向側に向かう傾斜面に形成されている。検知部材操作部44は、係止解除位置において、支持部31dを挟んで本体部21に対向するとともに係止部31bより離脱方向側に位置するように、形成されている。 As shown in FIG. 1, the detection member operation unit 44 is formed so as to protrude upward from the base 41 in the operation space unit 24a, and is used when an operator or the like relatively moves the detection member 40. To. The detection member operation unit 44 is projected outward from the lock wall portion 25a of the housing 20, and has a release operation surface 44a and a fitting operation surface 44b. The release operation surface 44a is located on the fitting direction side and is formed so as to face the detaching direction, and the fitting operation surface 44b is located on the detaching direction side and is formed so as to face the fitting direction. As shown in FIG. 5, the fitting operation surface 44b is formed as an inclined surface that projects downward from the upward side end surface of the fitting operation portion 44 in the detaching direction side. When moving the detection member 40 in the fitting direction, the operator pushes the fitting operation surface 44b in the fitting direction, but since the fitting operation surface is an inclined surface, the detection member 40 Forces acting in the mating direction and downward will act. Therefore, when the detection member 40 is moved in the fitting direction, it is possible to prevent the temporary locking release portion 45 from being lifted upward. The fitting operation surface 44b may have a plurality of recesses continuously formed in the vertical direction. Each recess has a first recess surface located on the lower side and a second recess surface located on the upper side when viewed from the width direction, and the length of the first recess surface is the second recess. It is formed longer than the surface. Further, the first concave surface is formed to be deeper than the inclination angle of the entire fitting operation surface 44b, that is, an inclined surface toward the fitting direction side. The detection member operating portion 44 is formed so as to face the main body portion 21 with the support portion 31d interposed therebetween and to be located on the disengagement direction side from the locking portion 31b at the unlocking position.

仮係止解除部45は、図7に示すように、基体41の嵌合方向側の端部から本体部21に向けて突出させるよう形成されており、検知部材移動工程において、嵌合方向でロックアーム31の係止部31bと向き合うことができるように形成及び配置される。 As shown in FIG. 7, the temporary locking release portion 45 is formed so as to project from the end portion of the base 41 on the fitting direction side toward the main body portion 21, and is formed in the fitting direction in the detection member moving step. It is formed and arranged so as to face the locking portion 31b of the lock arm 31.

本係止用係止突起46は、図3に示すように、検知部材40の各壁体42の嵌合方向側にそれぞれ形成されている。本係止用係止突起46は、ハウジング20のそれぞれの側壁部25bに対向するように突出しており、検知部材移動工程において、嵌合方向でハウジング20の係止体26と向き合うことができるように形成及び配置される。 As shown in FIG. 3, the locking projections 46 for locking are formed on the fitting direction side of each wall body 42 of the detection member 40. The locking projections 46 for locking project so as to face each side wall portion 25b of the housing 20 so that they can face the locking body 26 of the housing 20 in the fitting direction in the detection member moving step. Formed and placed in.

検知部材突出体47は、図3および図7に示すように、側壁24aに向かい合うよう方体状に一対形成されている。本実施形態の検知部材突出体47は、検知部材操作部44に設けられている。検知部材突出体47は、嵌合方向から見た場合に、根元側である検知部材操作部44側よりも先端側である対向する側壁24a側が上下方向において短く、すなわち上下方向における長さである厚さが薄く形成されている。ここで、検知部材突起部47は、検知部材40が係止解除位置において、上方向においてハウジング突出体27と対向し、下方向においてロックアーム突出体31gと対向する。つまり、検知部材突出体47は、係止解除位置において上下方向においてハウジング突出体27とロックアーム突出体31gとに挟まれる。このとき、検知部材突出体47の先端側は、上下方向においてハウジング突出体27およびロックアーム突出体31gの根元側に位置することとなる。従って、嵌合方向から見た場合に、ハウジング突出体27、ロックアーム突出体31gおよび検知部材突出体47を合わせた上下方向における長さは、ハウジング突出体27、ロックアーム突出体31gおよび検知部材突出体47が矩形形状である場合と比較して、短くすることができる。これにより、コネクタ1の上下方向における長さを抑制することができ、コネクタ1の小型化を図ることができる。 As shown in FIGS. 3 and 7, a pair of detection member projecting bodies 47 are formed in a square shape so as to face the side wall 24a 1 . The detection member projecting body 47 of the present embodiment is provided in the detection member operation unit 44. Detecting member projecting member 47, when viewed from the mating direction, the side wall 24a 1 side which faces a front end side of the detection member operation portion 44 side is a base side is short in the vertical direction, i.e. the length in the vertical direction A certain thickness is formed thin. Here, the detection member protrusion 47 faces the housing protrusion 27 in the upward direction and the lock arm protrusion 31g in the downward direction when the detection member 40 is in the unlocked position. That is, the detection member projecting body 47 is sandwiched between the housing projecting body 27 and the lock arm projecting body 31g in the vertical direction at the unlocking position. At this time, the tip end side of the detection member projecting body 47 is located on the root side of the housing projecting body 27 and the lock arm projecting body 31g in the vertical direction. Therefore, when viewed from the fitting direction, the total length of the housing protrusion 27, the lock arm protrusion 31g, and the detection member protrusion 47 in the vertical direction is the housing protrusion 27, the lock arm protrusion 31g, and the detection member. It can be shortened as compared with the case where the projecting body 47 has a rectangular shape. As a result, the length of the connector 1 in the vertical direction can be suppressed, and the size of the connector 1 can be reduced.

規制突起体48は、図6および図7に示すように、基体41の下方向側の面である下面から下方向に突出して形成されている。規制突起体48は、基体41の下面のうち、検知部材40が本係止位置において、上下方向から見た場合に、係止部31bあるいは被係止部32の少なくとも一方の一部と重なる位置に形成されている。従って、規制突起体48は、検知部材40が本係止位置において、一部が係止部31bあるいは被係止部32のいずれかと重なるので、規制突起体48がない場合と比較して、上下方向における検知部材40との隙間を狭くすることができる。これにより、完全嵌合状態において係止部31bが被係止部32aを離脱方向に乗り越えようとしても、上下方向において係止部31bが規制突起体48と接触することとなり、係止部31bが被係止部32aを離脱方向に乗り越えることが抑制されるので、完全嵌合状態を確実に維持することができる。 As shown in FIGS. 6 and 7, the regulation protrusion 48 is formed so as to project downward from the lower surface, which is the lower surface of the substrate 41. The regulation protrusion 48 is located on the lower surface of the substrate 41 so that the detection member 40 overlaps at least one part of the locking portion 31b or the locked portion 32 when viewed from above and below at the main locking position. Is formed in. Therefore, since the detection member 40 partially overlaps with either the locking portion 31b or the locked portion 32 at the main locking position, the regulating protrusion 48 is moved up and down as compared with the case where the regulating protrusion 48 is not provided. The gap with the detection member 40 in the direction can be narrowed. As a result, even if the locking portion 31b tries to get over the locked portion 32a in the disengaging direction in the completely fitted state, the locking portion 31b comes into contact with the regulating protrusion 48 in the vertical direction, and the locking portion 31b Since it is suppressed from getting over the locked portion 32a in the disengagement direction, the completely fitted state can be reliably maintained.

検知部材40は、ハウジング20に対して仮係止位置、本係止位置及び解除位置との間で相対移動(検知部材移動工程)させることができる。仮係止位置とは、コネクタ1と相手方コネクタCとの間の嵌合状態が嵌合解除状態のときのハウジング20に対する検知部材40の位置のことであり、検知部材40がロック用壁部25aと係止部31bとの間に位置しない位置である。本実施形態における仮係止位置は、係止解除位置でもある。この例示の仮係止位置及び係止解除位置は、ハウジング20に対して検知部材40が組み付けられたときの位置でもある。このため、仮係止位置はコネクタ1と相手方コネクタCとが互いに挿入される前の状態も含まれており、係止解除位置はコネクタ1と相手方コネクタCとが互いに離脱された後の状態も含まれている。本係止位置は、コネクタ1と相手方コネクタCとの間の嵌合状態が完全嵌合状態のときのハウジング20に対する検知部材40の位置のことであり、検知部材40の少なくとも一部がロック用壁部25aと係止部31bとの間に位置する位置である。本実施形態における検知部材40は、ハウジング20に対して挿抜方向に相対移動し得るものであり、仮係止位置から嵌合方向へと相対移動させることで本係止位置まで到達し、本係止位置から離脱方向へ相対移動させることで、係止解除位置まで到達する。 The detection member 40 can be moved relative to the housing 20 between the temporary locking position, the main locking position, and the releasing position (detection member moving step). The temporary locking position is the position of the detection member 40 with respect to the housing 20 when the mating state between the connector 1 and the mating connector C is the unfitting state, and the detection member 40 is the locking wall portion 25a. It is a position that is not located between the locking portion 31b and the locking portion 31b. The temporary locking position in the present embodiment is also the unlocking position. The temporary locking position and the unlocking position in this example are also positions when the detection member 40 is assembled to the housing 20. Therefore, the temporary locking position includes the state before the connector 1 and the mating connector C are inserted into each other, and the unlocking position also includes the state after the connector 1 and the mating connector C are separated from each other. include. This locking position is the position of the detection member 40 with respect to the housing 20 when the mating state between the connector 1 and the mating connector C is in the completely mating state, and at least a part of the detection member 40 is for locking. It is a position located between the wall portion 25a and the locking portion 31b. The detection member 40 in the present embodiment can move relative to the housing 20 in the insertion / extraction direction, and reaches the main locking position by relatively moving from the temporary locking position to the fitting direction. By moving relative to the release direction from the stop position, the lock release position is reached.

次に、コネクタ1及び相手方コネクタCの嵌合について説明する。図5に示すように、検知部材40が仮係止位置の状態で、相手方ハウジングChをハウジング20の環状空間部23に挿入するようコネクタ1を嵌合方向に移動させる。コネクタ1が嵌合方向に移動することで係止部31bと被係止部32aとが当接する。係止部31b及び被係止部32aは、当接した後、コネクタ1が嵌合方向に移動し続けることで、係止部31bが被係止部32aによって上方向へと押動され、ロックアーム31を撓ませながら係止部31bが完全嵌合状態となる位置まで被係止部32aを乗り越える。また、作業者等は、ロックアーム31における係止部31bを上方向へと撓ませた後、コネクタ1が嵌合方向に移動し続けることで、被係止部32aを完全嵌合状態となる位置まで移動させてもよい。 Next, the fitting of the connector 1 and the mating connector C will be described. As shown in FIG. 5, with the detection member 40 in the temporarily locked position, the connector 1 is moved in the fitting direction so as to insert the mating housing Ch into the annular space 23 of the housing 20. As the connector 1 moves in the mating direction, the locking portion 31b and the locked portion 32a come into contact with each other. After the locking portion 31b and the locked portion 32a come into contact with each other, the connector 1 continues to move in the mating direction, so that the locking portion 31b is pushed upward by the locked portion 32a and locked. While bending the arm 31, the locked portion 32a is overcome to a position where the locking portion 31b is in a completely fitted state. Further, the operator or the like bends the locking portion 31b of the lock arm 31 upward, and then the connector 1 continues to move in the fitting direction, so that the locked portion 32a is in a completely fitted state. You may move it to the position.

なお、被係止部32aが係止部31bを上方向へと押動した後、コネクタ1が嵌合方向に移動し続けることで、仮係止解除部45が被係止部32aに接触する。そして、コネクタ1の嵌合方向への移動が進むことで、被係止部32aが仮係止解除部45に対して上方向に向けた力を作用させる。その際、検知部材40においては、基体41が離脱方向側の根元を支点にして撓み始める。 After the locked portion 32a pushes the locked portion 31b upward, the connector 1 continues to move in the mating direction, so that the temporarily locked release portion 45 comes into contact with the locked portion 32a. .. Then, as the connector 1 moves in the fitting direction, the locked portion 32a exerts an upward force on the temporarily locked release portion 45. At that time, in the detection member 40, the base 41 begins to bend with the root on the detachment direction side as a fulcrum.

完全嵌合状態となる位置では、図9に示すように、撓ませられていたロックアーム31が弾性復帰し、挿抜方向において係止部31bと被係止部32aとが向かい合うことになる。保持構造30においては、コネクタ1と相手方コネクタCとの間の抜去動作が抑制されるので、完全嵌合状態で保持される。また、検知部材40においては、仮係止解除部45が係止部31bを乗り越えることができる位置まで、基体41が撓む。 At the position where the fully fitted state is reached, as shown in FIG. 9, the bent lock arm 31 elastically returns, and the locking portion 31b and the locked portion 32a face each other in the insertion / removal direction. In the holding structure 30, since the pulling-out operation between the connector 1 and the mating connector C is suppressed, the holding structure 30 is held in a completely fitted state. Further, in the detection member 40, the base 41 bends to a position where the temporary locking release portion 45 can get over the locking portion 31b.

ロックアーム31においては、図9に示すように、完全嵌合状態となる位置まで嵌合方向に移動することによって、係止部31bが解除操作部32bに近づいていく。係止部31bと解除操作部32bとの間においては、完全嵌合状態となる位置での間隔を詰めることによって、係止部31bの嵌合方向側への動きを解除操作部32bの端部で係止する。その係止部31bと解除操作部32bの端部とを利用して、完全嵌合状態におけるロックアーム31の嵌合方向側への移動が規制される。 In the lock arm 31, as shown in FIG. 9, the locking portion 31b approaches the releasing operation portion 32b by moving in the fitting direction to a position where the lock arm 31 is in a completely fitted state. By narrowing the distance between the locking portion 31b and the releasing operation portion 32b at the position where the locking portion 31b is in a completely fitted state, the movement of the locking portion 31b toward the fitting direction is prevented from the end portion of the releasing operating portion 32b. Lock with. The movement of the lock arm 31 toward the fitting direction in the fully fitted state is restricted by using the locking portion 31b and the end portion of the releasing operation portion 32b.

次に、仮係止位置における、ハウジング20に対する検知部材40の相対移動方向への移動の規制について説明する。検知部材40とハウジング20との間には、図5に示すように、ハウジング20に対する検知部材40の相対移動方向(挿抜方向)への移動を仮係止位置で規制する仮係止構造が設けられている。仮係止構造は、ロックアーム突出体31g及び壁体42により、検知部材40の離脱方向側への動きを係止するとともに、係止部31b及び仮係止解除部45により、検知部材40の嵌合方向側への動きを係止する。 Next, regulation of movement of the detection member 40 with respect to the housing 20 in the relative movement direction at the temporary locking position will be described. As shown in FIG. 5, a temporary locking structure is provided between the detection member 40 and the housing 20 to regulate the movement of the detection member 40 with respect to the housing 20 in the relative movement direction (insertion / extraction direction) at the temporary locking position. Has been done. In the temporary locking structure, the movement of the detection member 40 toward the detachment direction is locked by the lock arm projecting body 31g and the wall body 42, and the detection member 40 is locked by the locking portion 31b and the temporary locking release portion 45. Locks the movement toward the mating direction.

検知部材40の離脱方向側への移動を仮係止位置で規制する構造について説明する。ロックアーム突出体31gは、図3に示すように、壁体42よりも離脱方向側に配置し、壁体42の離脱方向側の端部に対して挿抜方向で対向させることにより、壁体42の離脱方向側への移動をロックアーム突出体31gで規制する。ロックアーム突出体31gと壁体42とによって、仮係止位置でのロックアーム31(ハウジング20)に対する検知部材40の離脱方向側への移動を規制する。ロックアーム突出体31gと壁体42は、検知部材40が仮係止位置のときに、挿抜方向で互いに接触させてもよく、挿抜方向で間隔が空いていてもよい。 A structure for restricting the movement of the detection member 40 in the detachment direction side at the temporary locking position will be described. As shown in FIG. 3, the lock arm projecting body 31g is arranged on the detaching direction side of the wall body 42, and is opposed to the end portion of the wall body 42 on the detaching direction side in the insertion / removal direction. The movement of the lock arm in the detaching direction side is restricted by the lock arm projecting body 31 g. The lock arm projecting body 31g and the wall body 42 restrict the movement of the detection member 40 with respect to the lock arm 31 (housing 20) at the temporarily locked position in the detaching direction side. The lock arm projecting body 31g and the wall body 42 may be brought into contact with each other in the insertion / removal direction when the detection member 40 is in the temporary locking position, or may be spaced apart in the insertion / removal direction.

検知部材40の嵌合方向側への移動を仮係止位置で規制する構造について説明する。仮係止解除部45は、相手方コネクタCが挿入される前の仮係止位置において、その収容空間部25の中で嵌合方向側への移動を規制する。係止部31bは、図5に示すように、相手方コネクタCが挿入される前で且つ検知部材40が仮係止位置のときに、仮係止解除部45に対して挿抜方向で対向させるように配置することにより、仮係止解除部45の嵌合方向側への移動を規制する。係止部31bと仮係止解除部45とによって、相手方コネクタCが挿入される前で且つ検知部材40が仮係止位置のときに、ロックアーム31(ハウジング20)に対する検知部材40の嵌合方向側への移動を規制する。係止部31bと仮係止解除部45は、そのときに、挿抜方向で互いに接触させてもよく、挿抜方向で間隔が空いていてもよい。 A structure for restricting the movement of the detection member 40 in the mating direction side at the temporary locking position will be described. The temporary locking release portion 45 regulates the movement of the temporary locking release portion 45 in the accommodation space portion 25 toward the fitting direction at the temporary locking position before the mating connector C is inserted. As shown in FIG. 5, the locking portion 31b is opposed to the temporary locking release portion 45 in the insertion / removal direction before the mating connector C is inserted and when the detection member 40 is in the temporary locking position. By arranging it in, the movement of the temporary locking release portion 45 toward the fitting direction is restricted. By the locking portion 31b and the temporary locking release portion 45, the detection member 40 is fitted to the lock arm 31 (housing 20) before the mating connector C is inserted and when the detection member 40 is in the temporary locking position. Regulate movement in the direction. At that time, the locking portion 31b and the temporary locking releasing portion 45 may be brought into contact with each other in the insertion / removal direction, or may be spaced apart in the insertion / removal direction.

次に、検知部材40における、仮係止位置から本係止位置への相対移動について説明する。図9に示すように、完全嵌合状態において、検知部材40が仮係止位置の状態で、仮係止解除部45を、係止部31bを越えて嵌合方向側に動かすことにより、検知部材40は、仮係止位置から本係止位置へとハウジング20に対して相対移動する。これにより、検知部材40の一部である基体41がロック用壁部25aと係止部31bとの間に位置する。 Next, the relative movement of the detection member 40 from the temporary locking position to the main locking position will be described. As shown in FIG. 9, in the fully fitted state, the detection member 40 is in the temporarily locked position, and the temporary locking release portion 45 is moved beyond the locking portion 31b toward the mating direction for detection. The member 40 moves relative to the housing 20 from the temporary locking position to the main locking position. As a result, the substrate 41, which is a part of the detection member 40, is located between the locking wall portion 25a and the locking portion 31b.

また、検知部材40の側壁24a側の端部には、基体41と壁体42と被ガイド部43とによって囲まれた挿抜方向に沿う溝が形成される。検知部材40は、ロックアーム31に組み付けられた際に、そのロックアーム31が検知部材40の溝に収容されることで、ロックアーム31に保持されている。このように構成することによって、検知部材40のロックアーム31に対する挿抜方向への相対移動に際して案内が可能になるとともに、検知部材40の31からの離脱(相対移動方向とは異なる向きへの離脱)を抑制することができる。 Further, a groove along the insertion / removal direction surrounded by the base 41, the wall body 42, and the guided portion 43 is formed at the end portion of the detection member 40 on the side wall 24a 1 side. When the detection member 40 is assembled to the lock arm 31, the lock arm 31 is accommodated in the groove of the detection member 40 and is held by the lock arm 31. With this configuration, it is possible to guide the detection member 40 when it moves relative to the lock arm 31 in the insertion / removal direction, and the detection member 40 is separated from 31 (separation in a direction different from the relative movement direction). Can be suppressed.

次に、本係止位置における、ハウジング20に対する検知部材40の相対移動方向への移動の規制について説明する。検知部材40とハウジング20との間には、図6に示すように、ハウジング20に対する検知部材40の相対移動方向(挿抜方向)への移動を本係止位置で規制する本係止構造が設けられている。本係止構造は、係止体26及び本係止用係止突起46により、検知部材40の離脱方向側への移動を規制するとともに、検知部材操作部44及びロック用壁部25aにより、検知部材40の挿入方向側への移動を規制する。 Next, the regulation of the movement of the detection member 40 with respect to the housing 20 in the relative movement direction at the present locking position will be described. As shown in FIG. 6, the detection member 40 and the housing 20 are provided with a main locking structure that regulates the movement of the detection member 40 with respect to the housing 20 in the relative movement direction (insertion / removal direction) at the main locking position. Has been done. In the locking structure, the locking body 26 and the locking projection 46 regulate the movement of the detection member 40 toward the detachment direction, and the detection member operating portion 44 and the locking wall portion 25a detect the detection member 40. The movement of the member 40 in the insertion direction side is restricted.

検知部材40の離脱方向側への移動を本係止位置で規制する構造について説明する。検知部材40は、図6に示すように、仮係止状態が解除されてから本係止位置へと移動するまでの間に、基体41が解除操作部32bから離れていくので、この基体41の撓みが徐々に解消されていく。ここで、検知部材40が本係止位置まで移動し終えたときには、本係止用係止突起46が係止体26よりも嵌合方向側に位置しており、その係止体26と本係止用係止突起46とが挿抜方向で互いに対向状態にある。ここでは、それぞれの係止体26で本係止用係止突起46の離脱方向側への移動を規制する。その係止体26と本係止用係止突起46とによって、本係止位置のときに、ロックアーム31(ハウジング20)に対する検知部材40の離脱方向側への移動を規制する。係止体26と本係止用係止突起46は、そのときに、挿抜方向で互いに接触させてもよく、挿抜方向で間隔が空いていてもよい。 A structure for restricting the movement of the detection member 40 in the detachment direction side at the main locking position will be described. As shown in FIG. 6, in the detection member 40, the base 41 is separated from the release operation unit 32b between the time when the temporary lock state is released and the time when the detection member 40 moves to the main lock position. The bending of the is gradually eliminated. Here, when the detection member 40 finishes moving to the main locking position, the main locking projection 46 is located on the fitting direction side of the locking body 26, and the locking body 26 and the main The locking projections 46 for locking are opposed to each other in the insertion / removal direction. Here, each locking body 26 restricts the movement of the locking projection 46 for locking toward the disengagement direction. The locking body 26 and the locking projection 46 for locking restrict the movement of the detection member 40 with respect to the lock arm 31 (housing 20) toward the detachment direction at the locking position. At that time, the locking body 26 and the locking projection 46 for locking may be brought into contact with each other in the insertion / extraction direction, or may be spaced apart in the insertion / extraction direction.

検知部材40の挿入方向側への移動を本係止位置で規制する構造について説明する。検知部材40は、図6に示すように、仮係止位置から本係止位置まで相対移動することによって、検知部材操作部44がハウジング20のロック用壁部25aに近づいていく。検知部材操作部44とロック用壁部25aとの間においては、その本係止位置での間隔を詰めることによって、検知部材操作部44の嵌合方向側への動きをロック用壁部25aの端部で係止する。その検知部材操作部44とロック用壁部25aの端部とを利用して、本係止位置での検知部材40の嵌合方向側への移動を規制する。 A structure for restricting the movement of the detection member 40 in the insertion direction side at the main locking position will be described. As shown in FIG. 6, the detection member 40 moves relative to the temporary locking position to the main locking position, so that the detection member operating portion 44 approaches the locking wall portion 25a of the housing 20. By narrowing the distance between the detection member operation unit 44 and the lock wall portion 25a at the main locking position, the movement of the detection member operation unit 44 toward the mating direction is caused by the lock wall portion 25a. Lock at the end. The detection member operating portion 44 and the end portion of the locking wall portion 25a are used to regulate the movement of the detection member 40 toward the mating direction at the main locking position.

検知部材40における、本係止位置から解除位置への相対移動について説明する。図6に示すように、完全嵌合状態において、検知部材40が本係止位置の状態で、作業者が解除操作面44aを指で離脱方向に引くことにより検知部材40を離脱方向に移動させることで、その進行と共に仮係止解除部45が解除操作部32bに接触する。そして、その解除が進むに連れて、解除操作部32bが仮係止解除部45に対して上方向に向けた力を作用させる。その際、検知部材40においては、基体41が離脱方向側の根元を支点にして撓み始める。この検知部材40においては、更に解除が進み、図8に示すように、仮係止解除部45が解除操作部32bを乗り越えることができる位置まで、基体41が撓む。仮係止解除部45を、解除操作部32bを越えて離脱方向側に動かすことにより、検知部材40は、本係止位置から解除位置へとハウジング20に対して相対移動する。 The relative movement of the detection member 40 from the main locking position to the unlocking position will be described. As shown in FIG. 6, in the fully fitted state, with the detection member 40 in the main locked position, the operator pulls the release operation surface 44a in the release direction with a finger to move the detection member 40 in the release direction. As a result, the temporary locking release unit 45 comes into contact with the release operation unit 32b as the process progresses. Then, as the release progresses, the release operation unit 32b exerts an upward force on the temporary lock release unit 45. At that time, in the detection member 40, the base 41 begins to bend with the root on the detachment direction side as a fulcrum. In the detection member 40, the release proceeds further, and as shown in FIG. 8, the base 41 bends to a position where the temporary lock release unit 45 can get over the release operation unit 32b. By moving the temporary locking release unit 45 beyond the release operation unit 32b to the release direction side, the detection member 40 moves relative to the housing 20 from the main locking position to the release position.

コネクタ1及び相手方コネクタCにおける完全嵌合状態の解除について説明する。図11および図12に示すように、検知部材40が本係止位置の状態で、作業者が解除操作面44aを離脱方向に引き続けることにより、ロックアーム31の支持部31dが下げられハウジング20の本体部21に当接する。そして当接後、解除操作面44aをさらに引くことで、てこ作用により支持部31dと本体部21の接点である支点を中心にロックアーム31の解除レバー部31cが回動するため、検知部材操作部44が離脱方向かつ下方向に移動する。これにより、解除レバー部31cの嵌合方向側の一端に接続された係止部31bが上方向へと撓むため、挿抜方向で係止部31bと被係止部32aとが向かい合わないようになる。このため、解除操作面44aを引き続けることで、コネクタ1と相手方コネクタCの完全嵌合状態を解除でき、嵌合解除状態とすることができる。なお、検知部材操作部44は、嵌合解除状態において、支持部31dを挟んで本体部21に対向するとともに係止部31bより離脱方向側に位置する。 The release of the completely fitted state of the connector 1 and the mating connector C will be described. As shown in FIGS. 11 and 12, the support portion 31d of the lock arm 31 is lowered and the housing 20 is lowered by the operator continuing to pull the release operation surface 44a in the disengagement direction while the detection member 40 is in the main locking position. Abuts on the main body 21 of the. Then, after the contact, by further pulling the release operation surface 44a, the release lever portion 31c of the lock arm 31 rotates around the fulcrum which is the contact point between the support portion 31d and the main body portion 21 due to the lever action, so that the detection member is operated. The portion 44 moves in the detaching direction and the downward direction. As a result, the locking portion 31b connected to one end of the release lever portion 31c on the fitting direction side bends upward, so that the locking portion 31b and the locked portion 32a do not face each other in the insertion / removal direction. Become. Therefore, by continuing to pull the release operation surface 44a, the complete mating state of the connector 1 and the mating connector C can be released, and the mating release state can be obtained. In the disengaged state, the detection member operating unit 44 faces the main body 21 with the support portion 31d interposed therebetween and is located on the side of the locking portion 31b in the detaching direction.

以上、本実施形態におけるコネクタ1によれば、検知部材40の本係止位置から係止解除位置までの移動と、両ハウジング20,Chの係合解除とを、作業員が検知部材操作部44に対して外力を加えることで行う操作により、連続して行うことができる。つまり、1つの検知部材40により、2つの操作を行うことができる。したがって、従来のコネクタのように検知部材操作部44を操作した後に、指を離してロックアーム操作部に持ちかえて両ハウジング20,Ch係合解除の操作をする必要がない。つまり、1つの部材である検知部材40で、検知部材40を本係止位置から係止解除位置まで移動させる操作と両ハウジング20,Chの係合解除の操作とを行うことができるので、両ハウジング20,Chを係合解除するまでの作業性を向上させることができ、コネクタ同士の離脱を容易に行うことができる。また、従来のコネクタのようにロックアーム操作部を設ける必要がなくなるため、ハウジング20におけるロックアーム操作部の面積を確保する必要がなくなり、小型化が実現可能となる。 As described above, according to the connector 1 in the present embodiment, the worker can move the detection member 40 from the main locking position to the unlocking position and disengage the housings 20 and Ch by the operator of the detection member operating unit 44. It can be performed continuously by the operation performed by applying an external force to the housing. That is, one detection member 40 can perform two operations. Therefore, it is not necessary to release the finger and switch to the lock arm operation unit after operating the detection member operation unit 44 as in the conventional connector to disengage both housings 20 and Ch. That is, since the detection member 40, which is one member, can perform the operation of moving the detection member 40 from the main locking position to the unlocking position and the operation of disengaging the housings 20 and Ch, both of them. The workability until the housings 20 and Ch are disengaged can be improved, and the connectors can be easily disengaged from each other. Further, unlike the conventional connector, it is not necessary to provide the lock arm operating portion, so that it is not necessary to secure the area of the lock arm operating portion in the housing 20, and the miniaturization can be realized.

また、本実施形態におけるコネクタ1では、従来のロックアーム操作部に相当する解除レバー部31cの連結部31iの強度が不要となるので、連結部31iの上下方向における長さを短く、すなわち連結部31iの厚みを薄くすることができる。従って、コネクタ1の軽量化、小型化、低コスト化を図ることができる Further, in the connector 1 of the present embodiment, the strength of the connecting portion 31i of the release lever portion 31c corresponding to the conventional lock arm operating portion is not required, so that the length of the connecting portion 31i in the vertical direction is shortened, that is, the connecting portion The thickness of 31i can be reduced. Therefore, the weight, size, and cost of the connector 1 can be reduced.

また、嵌合方向側に位置し、離脱方向と向かい合う解除操作面44aを設けることで、作業者が解除操作面44aを指で離脱方向に引くことで検知部材40を離脱方向に移動させることができるので、解除時での検知部材40の操作性をさらに向上させることができる。また、作業者が解除操作面44aを離脱方向に引き続けることにより、検知部材40を本係止位置から係止解除位置まで移動させる操作を行い、さらに両ハウジング20,Chの係合解除の操作を行うまでの一連の動作を一度の操作で行うことできるため、従来の検知部材40を操作する方向とロックアーム31を操作する方向が異なるコネクタ1と比較して、検知部材40を離脱方向に引くだけで本係止位置から係止解除位置まで移動させた状態(係止解除状態)と両ハウジング20,Chの係合解除とができるため、コネクタ同士の離脱を容易に行うことができる。 Further, by providing the release operation surface 44a located on the mating direction side and facing the release direction, the operator can move the detection member 40 in the release direction by pulling the release operation surface 44a in the release direction with a finger. Therefore, the operability of the detection member 40 at the time of release can be further improved. Further, the operator continuously pulls the release operation surface 44a in the disengagement direction to move the detection member 40 from the main locking position to the unlocking position, and further, the disengagement operation of both housings 20 and Ch. Since a series of operations up to the above can be performed by one operation, the detection member 40 is moved in the detaching direction as compared with the connector 1 in which the direction in which the conventional detection member 40 is operated and the direction in which the lock arm 31 is operated are different. Since the state of moving from the main locking position to the unlocking position (unlocking state) and the engagement of both housings 20 and Ch can be disengaged by simply pulling, the connectors can be easily disengaged from each other.

また、ハウジング20の成形において、支持部31dと本体部21を固定させないため、金型を離脱方向に抜くための隙間を形成することで金型の強度を確保することができる。 Further, since the support portion 31d and the main body portion 21 are not fixed in the molding of the housing 20, the strength of the mold can be ensured by forming a gap for pulling out the mold in the detaching direction.

また、支持部31dは、配列方向から見た場合に、基部31aの離脱方向側の一端と重なる位置に形成されるため、基部31aの長さと係止部31bの回動半径がほぼ等しいので、基部の長さと係止部の回動半径が異なる場合と比較して、ロックアーム31の耐久性を向上させることができる。 Further, since the support portion 31d is formed at a position overlapping one end of the base portion 31a on the detachment direction side when viewed from the arrangement direction, the length of the base portion 31a and the turning radius of the locking portion 31b are substantially equal. The durability of the lock arm 31 can be improved as compared with the case where the length of the base portion and the turning radius of the locking portion are different.

なお、本実施形態においては、作業者が解除操作面44aを指で離脱方向に引くことで検知部材40を離脱方向に移動させるが、これに限定されるものではなく、解除操作面44aを指で押してもよい。 In the present embodiment, the operator pulls the release operation surface 44a in the detachment direction with a finger to move the detection member 40 in the detachment direction, but the present invention is not limited to this, and the release operation surface 44a is referred to by the finger. You may press with.

また、上記実施形態においては、解除操作面44aは、離脱方向と向かい合うよう形成されているが、これに限定されるものではなく、下方向や、下方向に進むにつれて離脱方向に向かい合うよう形成されていてもよい。 Further, in the above embodiment, the release operation surface 44a is formed so as to face the detachment direction, but is not limited to this, and is formed so as to face the detachment direction as it goes downward or downward. You may be.

また、上記実施形態においては、検知部材40がハウジング20に対して着脱することが可能であり、かつ、解除レバー部31cにロックアーム操作部が形成されていてもよい。これにより、検知部材40がなくともロックアーム操作部を操作することで両ハウジング20,Chの係合解除が可能となる。 Further, in the above embodiment, the detection member 40 may be attached to and detached from the housing 20, and the release lever portion 31c may be formed with a lock arm operation portion. As a result, the engagement between the housings 20 and Ch can be disengaged by operating the lock arm operating portion without the detection member 40.

また、上記実施形態においては、ハウジング20単体での状態において、支持部31dと本体部21との間に隙間が形成されているが、これに限定されるものではなく、支持部31dは本体部21に当接する形状でもよい。 Further, in the above embodiment, a gap is formed between the support portion 31d and the main body portion 21 in the state of the housing 20 alone, but the present invention is not limited to this, and the support portion 31d is the main body portion. The shape may be in contact with 21.

また、上記実施形態においては、支持部31dは、配列方向から見た場合に、基部31aの離脱方向側の一端と重なる位置となるように形成されているが、これに限定されるものではなく、基部31aの離脱方向側の一端と異なる位置に形成されていてもよい。 Further, in the above embodiment, the support portion 31d is formed so as to overlap with one end of the base portion 31a on the detachment direction side when viewed from the arrangement direction, but the present invention is not limited to this. , The base portion 31a may be formed at a position different from one end on the detaching direction side.

また、上記実施形態においては、例えば、ハウジング20の操作空間部24aの離脱方向側に検知部材40の後端と向かい合う当接面を設け、当接面及び検知部材40の後端をそれぞれスプリングの両端に保持させることで、完全嵌合状態において、仮係止状態から本係止位置への検知部材40の移動を弾性力で移動させる構造でもよい。 Further, in the above embodiment, for example, a contact surface facing the rear end of the detection member 40 is provided on the detaching direction side of the operation space portion 24a of the housing 20, and the contact surface and the rear end of the detection member 40 are respectively springs. By holding the detection member 40 at both ends, the detection member 40 may be moved by an elastic force from the temporarily locked state to the main locked position in the completely fitted state.

また、上記実施形態においては、検知部材40が本係止位置のときに、作業者が解除操作面44aを離脱方向に引き続けることにより、嵌合解除の操作を行うが、これに限定されるものではなく、解除操作面44aを離脱方向以外の方向に引くことで嵌合解除の操作を行ってもよい。 Further, in the above embodiment, when the detection member 40 is in the main locking position, the operator continuously pulls the release operation surface 44a in the release direction to perform the fitting release operation, but the operation is limited to this. Instead, the release operation surface 44a may be pulled in a direction other than the detachment direction to perform the release operation.

1 コネクタ
20 ハウジング
21 本体部
25a ロック用壁部
31 ロックアーム
31a 基部
31b 係止部
31c 解除レバー部
31d 支持部
32 被係止構造
32a 被係止部
40 検知部材
44 検知部材操作部
44a 解除操作面
C 相手方コネクタ
Ch 相手方ハウジング 1 Connector 20 Housing 21 Main body 25a Locking wall 31 Lock arm 31a Base 31b Locking part 31c Unlocking lever 31d Supporting 32 Locked structure 32a Locked part 40 Detecting member 44 Detecting member operating part 44a Unlocking operation surface C mating connector Ch mating housing

Claims (5)

端子と、
前記端子が収容及び保持され、相手方コネクタとの嵌合状態が完全嵌合状態のときに係止部を相手方ハウジングに設けられた被係止部に係止させ解除可能にロックすることにより前記相手方ハウジングが係合されるハウジングと、
前記ハウジングに組み付けられ、嵌合状態が完全嵌合状態のときの本係止位置と前記嵌合状態が前記完全嵌合状態から解除された嵌合解除状態のときの係止解除位置との間で前記ハウジングに対する嵌合方向及び離脱方向に相対移動が可能な検知部材と、
を備え、
前記ハウジングは、
本体部と、
前記本体部と嵌合方向と直交する方向である対向方向に対向し、かつ、前記本係止位置において前記係止部を前記本体部とともに挟み込むロック用壁部と、
前記本体部に固定される可撓性のロックアームと、
を有し、
前記ロックアームは、
前記検知部材が取り付け可能であり、
前記係止部と、
一端が前記本体部の外周面に固定されて前記嵌合方向に延在し、他端に前記係止部を有する基部と、
一端が前記係止部に接続されて前記ロックアームに沿って離脱方向に延在する解除レバー部と、
を有し、
前記解除レバー部は
前記本体部の外周面と前記対向方向に対向し、前記ハウジング単体での状態において、前記本体部との間に隙間が形成されている支持部と、
前記支持部よりも前記離脱方向側に位置し、前記ロックアームが弾性変形することで、前記支持部が前記本体部の外周面と接触した直後には前記本体部の外周面と接触せず、前記ロックアームがさらに弾性変形することで、前記本体部の外周面と接触する接触部と、
を有し、
前記検知部材は、
前記本係止位置において、少なくとも一部が前記ロック用壁部と前記係止部との間に位置し、
前記係止解除位置において、前記ロック用壁部と前記係止部との間に位置せず、前記支持部を挟んで前記本体部に対向するとともに前記係止部より前記離脱方向側に位置する、
検知部材操作部を有する、
ことを特徴とするコネクタ。 With terminals
When the terminal is accommodated and held and the mating state with the mating connector is in a completely mating state, the locking portion is locked to the locked portion provided on the mating housing and locked so that the mating portion can be released. With the housing to which the housing is engaged,
Between the main locking position when assembled to the housing and the mating state is the fully mating state and the unlocking position when the mating state is released from the fully mating state. With a detection member that can move relative to the housing in the fitting direction and the detaching direction.
With
The housing is
With the main body
A locking wall portion that faces the main body portion in an opposite direction that is orthogonal to the fitting direction and sandwiches the locking portion together with the main body portion at the main locking position.
A flexible lock arm fixed to the main body,
Have,
The lock arm
The detection member can be attached
With the locking part
A base portion having one end fixed to the outer peripheral surface of the main body portion and extending in the fitting direction and having the locking portion at the other end.
A release lever portion whose one end is connected to the locking portion and extends in the release direction along the lock arm,
Have,
The release lever unit,
A support portion that faces the outer peripheral surface of the main body portion in the opposite direction and has a gap formed between the housing and the main body portion in the state of the housing alone .
It is located on the side of the support portion in the detaching direction, and the lock arm is elastically deformed so that the support portion does not come into contact with the outer peripheral surface of the main body immediately after it comes into contact with the outer peripheral surface of the main body. When the lock arm is further elastically deformed, the contact portion that comes into contact with the outer peripheral surface of the main body portion and the contact portion
Have,
The detection member is
At the present locking position, at least a part thereof is located between the locking wall portion and the locking portion.
At the unlocking position, it is not located between the locking wall portion and the locking portion, but faces the main body portion with the support portion interposed therebetween and is located on the release direction side from the locking portion. ,
Has a detection member operation unit,
A connector that features that. 請求項1に記載のコネクタにおいて、
前記検知部材操作部は、前記嵌合方向側に位置し、離脱方向と向かい合う解除操作面を有する、
コネクタ。 In the connector according to claim 1,
The detection member operation unit is located on the fitting direction side and has a release operation surface facing the detachment direction.
connector. 請求項1または2に記載のコネクタにおいて、
前記検知部材は、前記ロックアームから着脱可能であり、
前記解除レバー部は、前記支持部を挟んで前記本体部に対向するとともに前記支持部より前記離脱方向側に位置するロックアーム操作部を有する、
コネクタ。 In the connector according to claim 1 or 2.
The detection member is removable from the lock arm and can be attached and detached.
The release lever portion has a lock arm operating portion that faces the main body portion with the support portion interposed therebetween and is located on the detachment direction side of the support portion.
connector. 請求項1からのいずれか1項に記載のコネクタにおいて、
前記支持部は、前記嵌合方向と前記対向方向と直交する方向から見た場合に、前記基部の一端と重なる位置に形成される、
コネクタ。 In the connector according to any one of claims 1 to 3 .
The support portion is formed at a position overlapping one end of the base portion when viewed from a direction orthogonal to the fitting direction and the facing direction.
connector. 請求項1から4のいずれか1項に記載のコネクタにおいて、In the connector according to any one of claims 1 to 4.
前記解除レバー部の前記嵌合方向と直交する下方向側端面は、前記嵌合方向および前記下方向と直交する幅方向から見た場合に、前記接触部と前記支持部とを結んだ直線よりも、上方向側に突出する湾曲面である、The downward side end surface of the release lever portion orthogonal to the fitting direction is a straight line connecting the contact portion and the support portion when viewed from the fitting direction and the width direction orthogonal to the downward direction. Is also a curved surface protruding upward,
コネクタ。connector.
JP2018072287A 2017-08-04 2018-04-04 connector Active JP6793144B2 (en)

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CN201810872804.9A CN109390784B (en) 2017-08-04 2018-08-02 Connector with a locking member
DE102018212911.8A DE102018212911A1 (en) 2017-08-04 2018-08-02 connecting device

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