A connector is capable of being fitted to, and extracted from, a partner-side structure along the vertical direction. The partner-side structure is provided with a lock housing extending upwards. The connector is provided with a housing, and an operation member formed separately from the housing. Th
A connector is capable of being fitted to, and extracted from, a partner-side structure along the vertical direction. The partner-side structure is provided with a lock housing extending upwards. The connector is provided with a housing, and an operation member formed separately from the housing. The operation member is capable of rotating, about a rotary axis parallel to the vertical direction, between a release position and a lock position. A locked section protruding in the radial direction orthogonal to the rotary axis is provided to the operation member. The locked section allows the connector to be fitted to, and extracted from, the partner-side structure when the operation member is at the release position. The locked section interferes with the lock housing and prevents the connector from being fitted to, and extracted from, the partner-side structure when the operation member is at the lock position.
대표청구항▼
1. A connector mateable with and removable from a mating structure along an upper-lower direction, the mating structure having an upper surface and comprising a pin contact and a lock housing which extend upward along the upper-lower direction from the upper surface, the connector comprising a housi
1. A connector mateable with and removable from a mating structure along an upper-lower direction, the mating structure having an upper surface and comprising a pin contact and a lock housing which extend upward along the upper-lower direction from the upper surface, the connector comprising a housing, a contact and an operation member, wherein: the contact is held by the housing, the contact being brought into contact with the pin contact under a mated state where the connector and the mating structure are mated with each other;the operation member is formed separately from the housing and supported by the housing, the operation member being rotationally movable between a release position and a lock position about a pivot axis which is in parallel to the upper-lower direction, the operation member being provided with a locked portion projecting in a radial direction perpendicular to the pivot axis, the locked portion allowing the connector to be moved to the mated state with the mating structure and to be removed from the mating structure when the operation member is located at the release position, the locked portion interfering with the lock housing when the operation member is located at the lock position, so that the locked portion prevents the connector from being moved to the mated state with the mating structure and from being removed from the mating structure; andwherein in a plane perpendicular to the upper-lower direction, the locked portion of the operation member at the lock position protrudes from the housing while the locked portion of the operation member at the release position does not protrude from the housing. 2. The connector as recited in claim 1, wherein the operation member is provided with at least two of the locked portions. 3. The connector as recited in claim 1, wherein: the lock housing includes an arcuate portion, the arcuate portion having an arc shape in a plane perpendicular to the upper-lower direction; andunder the mated state, a position of the pivot axis of the operation member in a plane perpendicular to the upper-lower direction is apart from a center of an arc of the arcuate portion in a plane perpendicular to the upper-lower direction. 4. The connector as recited in claim 1, wherein: the operation member is rotationally movable from the release position to the lock position along a rotation direction;the locked portion has a slope which is formed on an upper side thereof in the upper-lower direction; andthe slope slopes downward along the rotation direction. 5. The connector as recited in claim 1, wherein the locked portion is located above the housing. 6. The connector as recited in claim 1, wherein the locked portion is located above the pin contact under the mated state. 7. The connector as recited in claim 1, wherein: the housing has a first member and a second member;the first member has an upper plate, a bottom plate and a side plate, the upper plate and the bottom plate being located at opposite ends of the first member in the upper-lower direction, respectively, the side plate coupling the upper plate and the bottom plate to each other in the upper-lower direction, the first member being formed with an accommodation portion to accommodate the contact, the accommodation portion being formed of the upper plate, the bottom plate and the side plate; andthe second member is attached to the first member along a width direction perpendicular to the upper-lower direction. 8. The connector as recited in claim 1, wherein the connector includes a maintaining member to maintain the operation member at each of the release position and the lock position. 9. The connector as recited in claim 8, wherein: the operation member is provided with a projection which projects in the radial direction; andthe projection is supported to be movable in the radial direction and functions as the maintaining member.
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