초록 ▼

A connector that is configured to be inserted within a cavity of a shroud defined by a mating connector along a longitudinal axis, including a connector body which defines a first resilient member and a first wedge member that is configured to urge the first resilient member into compressive contact

A connector that is configured to be inserted within a cavity of a shroud defined by a mating connector along a longitudinal axis, including a connector body which defines a first resilient member and a first wedge member that is configured to urge the first resilient member into compressive contact with the shroud of the mating connector along a vertical or longitudinal axis. The connector may include a plurality of pairs of resilient members and wedge members to provide compressive contact along more than one axis. The wedge members may be incorporated into a connector position assurance device (CPA).

대표청구항 ▼

1. A connector configured to be inserted within a cavity of a shroud defined by a mating connector along a first axis, comprising: a connector body defining a first resilient member; anda connector position assurance device defining a first wedge member configured to urge the first resilient member

1. A connector configured to be inserted within a cavity of a shroud defined by a mating connector along a first axis, comprising: a connector body defining a first resilient member; anda connector position assurance device defining a first wedge member configured to urge the first resilient member into compressive contact with the shroud of the mating connector along a second axis orthogonal to the first axis, wherein the connector body further defines a second resilient member and wherein said connector position assurance device further includes a second wedge member configured to urge the second resilient member into compressive contact with the shroud along a third axis orthogonal to the first axis and the second axis. 2. The connector in accordance with claim 1, wherein the connector body further defines a third resilient member and wherein said connector position assurance device further includes a third wedge member configured to urge the third resilient member into compressive contact with the shroud along the third axis. 3. The connector in accordance with claim 2, wherein the first resilient member is urged into compressive contact with a first inner wall of the shroud, the second resilient member is urged into compressive contact with a second inner wall of the shroud adjacent the first inner wall, and the third resilient member is urged into compressive contact with a third inner wall of the shroud opposing the second inner wall. 4. The connector in accordance with claim 3, wherein the first resilient member is a resilient cantilever beam. 5. The connector in accordance with claim 4, wherein the second resilient member and the third resilient member are resilient cantilever beams. 6. The connector in accordance with claim 5, wherein the first, second, and third wedge members are not in contact with the first, second, and third resilient members when the connector position assurance device is in a disengaged position and the first, second, and third wedge members are in compressive contact with the first, second, and third resilient members when the connector position assurance device is in an engaged position. 7. A connector configured to be inserted within a cavity of a shroud defined by a mating connector along a first axis, comprising; a connector body defining a first resilient cantilever beam urged into compressive contact with a first inner wall of the shroud, a second resilient cantilever beam urged into compressive contact with a second inner wall of the shroud adjacent the first inner wall, and a third resilient cantilever beam urged into compressive contact with a third inner wall of the shroud opposing the second inner wall, wherein the first cantilever beam defines a lock notch configured to engage a lock nib defined by the mating connector, thereby securing the connector body within the shroud of the mating connector; anda connector position assurance device defining a first wedge member configured to urge the first cantilever beam into compressive contact with the shroud of the mating connector along a second axis orthogonal to the first axis, a second wedge member configured to urge the second cantilever beam into compressive contact with the shroud along a third axis orthogonal to the first axis and the second axis, and a third wedge member configured to urge the third cantilever beam into compressive contact with the shroud along the third axis. 8. The connector in accordance with claim 7, wherein the first, second, and third wedge members are not in contact with the first, second, and third cantilever beams when the connector position assurance device is in a disengaged position and the first, second, and third wedge members are in compressive contact with the first, second, and third cantilever beams when the connector position assurance device is in an engaged position. 9. The connector in accordance with claim 8, wherein the lock notch may be disengaged from the lock nib by pressing on a free end of the first cantilever beam when the connector position assurance device is in the disengaged position and wherein the lock notch is inhibited from disengaging the lock nib when the connector position assurance device is in the engaged position. 10. The connector system, comprising: a first connector body defining a shroud;a second connector body configured to be inserted within a cavity defined by said shroud along a first axis and defining a first resilient member; anda connector position assurance device that defines a first wedge member configured to urge the first resilient member into compressive contact with the first connector body along a second axis orthogonal to the first axis, thereby inhibiting a relative motion between the first connector body and the second connector body, wherein the second connector body further defines a second resilient member and wherein said connector position assurance device further includes a second wedge member configured to urge the second resilient member into compressive contact with the first connector body along a third axis orthogonal to the first axis and the second axis. 11. The connector system in accordance with claim 10, wherein the second connector body further defines a third resilient member and wherein said connector position assurance device further includes a third wedge member configured to urge the third resilient member into compressive contact with the first connector body along the third axis. 12. The connector system in accordance with claim 11, wherein the first resilient member is urged into compressive contact with a first inner wall of the shroud, the second resilient member is urged into compressive contact with a second inner wall of the shroud adjacent the first inner wall, and the third resilient member is urged into compressive contact with a third inner wall of the shroud opposing the second inner wall. 13. The connector system in accordance with claim 12, wherein the first resilient member is a resilient cantilever beam. 14. The connector system in accordance with claim 13, wherein the second resilient member and the third resilient member are resilient cantilever beams. 15. The connector system in accordance with claim 14, wherein the first, second, and third wedge members are not in contact with the first, second, and third resilient members when the connector position assurance device is in a disengaged position and the first, second, and third wedge members are in compressive contact with the first, second, and third resilient members when the connector position assurance device is in an engaged position. 16. A connector system, comprising; a first connector body defining a shroud and an inwardly extending lock nib;a second connector body configured to be inserted within a cavity defined by said shroud along a first axis and defining a first resilient cantilever beam urged into compressive contact with a first inner wall of the shroud, a second resilient cantilever beam urged into compressive contact with a second inner wall of the shroud adjacent the first inner wall, and a third resilient cantilever beam urged into compressive contact with a third inner wall of the shroud opposing the second inner wall, wherein the first cantilever beam defines a lock notch configured to engage said lock nib, thereby securing the second connector body within the shroud of the first connector body; anda connector position assurance device that defines a first, wedge member configured to urge the first resilient member into compressive contact with the first connector body along a second axis orthogonal to the first axis, thereby inhibiting relative motion between the first connector body and the second connector body, a second wedge member configured to urge the second resilient member into compressive contact with the first connector body along a third axis orthogonal to the first axis and the second axis, and a third wedge member configured to urge the third resilient member into compressive contact with the first connector body along the third axis. 17. The connector system in accordance with claim 16, wherein the first, second, and third wedge members are not in contact with the first, second, and third cantilever beams when the connector position assurance device is in a disengaged position and the first, second, and third wedge members are in compressive contact with the first, second, and third cantilever beams when the connector position assurance device is in an engaged position. 18. The connector system in accordance with claim 17, wherein the lock notch may be disengaged from the lock nib by pressing on a free end of the first cantilever beam when the connector position assurance device is in the disengaged position and wherein the lock notch is inhibited from disengaging the lock nib when the connector position assurance device is in the engaged position.