A socket comprises an annular socket part and a lamella basket at least partly disposed in the interior of the annular socket part. The lamella basket comprises a plurality of lamellae and an annular carrier strip located at the rear part of the lamella basket. Each of the lamellae has a first end and a second end, with the first end being firmly attached to, or integrally moulded with, the annular carrier strip and with the second end being implemented as a free end. The lamellae extend from the annular carrier strip towards the front end of the socket. The inner surface of the annular socket part comprises a bulge that: protrudes in a radially inward direction; and is configured for supporting the lamellae when the lamellae are resiliently deformed in a radially outward direction.

A terminal metal fitting includes a tubular box portion receiving a counterpart terminal; a terminal spring extending from an inner wall surface of the box portion to press and contact the counterpart terminal; and a deformation restriction portion restricting deformation of the terminal spring within a preset range when the terminal spring contacts the counterpart terminal. The deformation restriction portion has a chamfered portion to contact the terminal spring.

A terminal metal fitting includes a tubular box portion receiving a counterpart terminal; a terminal spring extending from an inner wall surface of the box portion to press and contact the counterpart terminal; and a deformation restriction portion restricting deformation of the terminal spring within a preset range when the terminal spring contacts the counterpart terminal. The deformation restriction portion has a chamfered portion to contact the terminal spring.

The present invention relates to multi-core plug-in electrical connection structures, in particular to a multi-core plug-in electrical connection structure for logging while drilling tools, which comprises a socket shell with a guiding function arranged at an end of a logging while drilling tool A and a plug shell with a guiding function arranged at an end of a logging while drilling tool B; wherein the socket shell is provided with a socket inner core with a buffering effect therein; and the plug shell is provided with a plug inner core with a buffering effect therein. The present invention has the following beneficial effects: with the above technical scheme, multi-core electrical connection between downhole logging while drilling tools can be achieved, the electrical connection pins can be increased to 25 pins or more, mixed heavy current and light current connections can be realized, and the electrical connection structure is simple with short axial dimension, good anti-vibration performance, and reliable connection. The blind insertion and the convenient connection can be realized.

An electric connector structure has a male connecting member and a female connecting member. The maximum swing and vibration space is provided between the male connecting member and the female connecting member, and then the pressure is locally compressed through the pressing face and the blocking face. The protrusion partially interferes with the power socket, thereby forming a three-point hard contact inside the male connecting member and the female connecting member, so that the male connecting member and the female connecting member can be formed at the three-point hard contact position. The limit of vibration or swing, thereby effectively reducing the amplitude of the swing or vibration of the male connecting member and the female connecting member without completely preventing the swing or vibration of the male connecting member and the female connecting member, so as to eliminate the external forces and achieve protection of the signal pin.

An electric connector structure has a male connecting member and a female connecting member. The maximum swing and vibration space is provided between the male connecting member and the female connecting member, and then the pressure is locally compressed through the pressing face and the blocking face. The protrusion partially interferes with the power socket, thereby forming a three-point hard contact inside the male connecting member and the female connecting member, so that the male connecting member and the female connecting member can be formed at the three-point hard contact position. The limit of vibration or swing, thereby effectively reducing the amplitude of the swing or vibration of the male connecting member and the female connecting member without completely preventing the swing or vibration of the male connecting member and the female connecting member, so as to eliminate the external forces and achieve protection of the signal pin.

A connector structure includes a hood formed in a housing and having a bottomed tubular shape, a mating hood formed in a mating housing and fitted inside the hood, a plate spring member made of metal and accommodated in a bottom of the hood, a playing regulating member, a mating hood tip end inclined surface formed at a tip end of the mating hood in a fitting direction and inclined to a tube inner side or a tube outer side, and a playing regulating protrusion. The playing regulating member is provided in an opposite side against the bottom with the plate spring member interposed therebetween and is urged by the plate spring member in a direction opposite to a fitting direction against the mating hood.

The present invention is provided with: a terminal metal fitting to which a core wire exposed portion of a core wire of a terminal of a wire is physically and electrically connected; a housing inside which the terminal metal fitting and the terminal of the wire are housed and from which the wire is drawn outside from inside; and a wire holding member that holds, inside the housing, the terminal of the wire, in which the wire holding member has a fixed portion that is fixed to a fixing portion inside the housing, and a holding portion that holds the terminal of the wire so that the terminal of the wire does not move relatively to the housing when the fixed portion is fixed to the fixing portion.

A connector assembly device includes a connector element and a connector position assurance (CPA) device mounted to move relative to the connector element between a delivery position and a locking position. The connector element includes a first locking device and a second locking device. The CPA device includes a locking lance that has an associated first locking device configured to implement a first form-fitting connection with the first locking device of the connector element and an associated second locking device configured to implement a second form-fitting connection with the second locking device of the connector element in the locking position. The form-fitting connections prevent any movement of the CPA device in a direction from the locking position towards the delivery position and take place in different planes.

A connector assembly device includes a connector element and a connector position assurance (CPA) device mounted to move relative to the connector element between a delivery position and a locking position. The connector element includes a first locking device and a second locking device. The CPA device includes a locking lance that has an associated first locking device configured to implement a first form-fitting connection with the first locking device of the connector element and an associated second locking device configured to implement a second form-fitting connection with the second locking device of the connector element in the locking position. The form-fitting connections prevent any movement of the CPA device in a direction from the locking position towards the delivery position and take place in different planes.