A cover includes a first portion and a second portion. The first portion may include a first section and/or a second section. The second portion may include a first section and/or a second section. The first section of the first portion and the first section of the second portion may be rotatably connected to each other, and/or the first section of the first portion and the second section of the first portion may be rotatably connected to each other. The first section of the first portion and/or the first section of the second portion may be configured to rotate about a first axis. The first section of the first portion and/or the second section of the first portion may be configured to rotate about a second axis. The first axis may be substantially perpendicular to the second axis. The first section of the second portion may include a first latch and/or a second latch.

A connector (10) has terminals (30) connected to wires (W), a housing (20) configured to accommodate the terminals (30), a retainer (40) configured to accommodate the wires (W) while retaining the terminals (30) accommodated in terminal accommodating portions (22) of the housing (20), a temperature sensor (60) to be accommodated in a sensor accommodating portion (56) in the retainer (40) and a holder (80) to be assembled with the retainer (40). The holder (80) has a large divided body (75) and two small divided bodies (70) coupled to the large divided body (75) via hinges (72). The small divided bodies (70) and the large divided body (75) retain the temperature sensor (60) in the sensor accommodating portion (56) while the wires (W) are inserted between the small divided bodies (70) and the large divided body (75).

An electrical connector having electrical terminals and a housing. The housing has a terminal-receiving portion with terminal-receiving cavities for receiving the electrical terminals therein. At least one latch-receiving slot is positioned between adjacent terminal-receiving cavities. A cover portion is provided for covering the terminal-receiving cavities and the terminals. The cover portion has latches which cooperate with the at least one latch-receiving slot when the cover portion is moved to a closed position. A hinge portion connects the terminal-receiving portion to the cover portion. The hinge is deformable to allow the cover portion to move between an open position in which the terminals can be inserted and removed from the terminal-receiving cavities of the terminal-receiving portion and the closed position in which the terminals are secured in the terminal-receiving cavities of the terminal-receiving portion.

A connector for a coaxial cable includes a coupler portion configured to engage an interface port, a housing portion having a forward end configured to be disposed at least partially within the coupler portion, and an outer conductor engager portion made of a conductive material disposed within the housing portion. The housing portion includes a rearward end configured to receive the coaxial cable, the housing portion is configured to move axially relative to the outer conductor engager portion, and an interior surface of the housing portion is configured to compress the outer conductor engager portion when the housing portion is moved axially relative to the outer conductor engager portion such that an interior surface of the outer conductor engager portion is compressed radially inward against an outer conductor of the coaxial cable.

A connector assembly includes a connector-body having electrical-terminals. The electrical-terminals are inserted into cavities defined by the connector-body through apertures defined in a rear-face of the connector-body. The connector-body includes a lock feature configured to releasably lock the electrical-terminals within the cavities. The lock feature has a planar-member with a first-end and a second-end. The first-end defines a flex-lock feature. The second-end is attached by a hinge to a leading-edge of the outer-surface of the connector-body proximate the front-face. The flex-lock feature defines a hook-side and a wall-side disposed within a slot defined by the connector-body. The hook-side is configured to releasably engage a locking-shelf partially enclosing the slot. The wall-side engages the electrical-terminals when the hook-side engages the locking-shelf. When a removal-force is applied to the electrical-terminals, the removal-force is transferred through the hook-side to the locking-shelf, thereby inhibiting removal of the electrical-terminals from the cavities.

A connector and a package body that can be transported without exposing a filler to the outside and can stably deliver predetermined performance during use are provided. A connector (10) comprises: a pair of a first fitting object (16) and a second fitting object (30); a first opening (29) and a second opening (44) formed respectively in the first fitting object (16) and the second fitting object (30) and opened to a fitting side; and a filler (70) provided inside at least one fitting object of the first fitting object (16) and the second fitting object (30), wherein, before the first fitting object (16) and the second fitting object (30) are fitted together, the filler (70) is located inside of an opening of a corresponding fitting object, and an end surface of the second fitting object (30) on the fitting side forms a plane.

A housing is provided with a terminal accommodation portion accommodating a module-side terminal and having an opening through which the module-side terminal is introduced. The terminal accommodation portion includes a bottom portion and a third wall portion serving as an accommodation-side regulating portion that regulates displacement of the module-side terminal. A cover that seals the opening of the terminal accommodation portion includes first and second regulating wall portions serving as a cover-side regulating portion that regulates displacement of the module-side terminal at a different position from that of the bottom portion and the third wall portion.

Provided is a battery wiring module that can suppress the occurrence of short circuits. The battery wiring module includes a module-side terminal that is configured to be electrically connected to a bus bar that connects battery terminals of a plurality of battery cells to each other, a wire having one end that is configured to be connected to the module-side terminal, and a housing that is configured to house the wire and the module-side terminal. The housing includes a terminal housing portion that is configured to house the module-side terminal, and a hole portion that is provided on a bottom portion of the terminal housing portion and interconnects an interior region and an exterior region of the terminal housing portion. The battery wiring module further includes a cover portion that has an insulating property and is configured to cover the hole portion.

A cover member which is to be mated with a connector member and has a cover housing to be attached to an attached member. The cover housing has a plurality of attaching parts for attachment to the attached member. The attaching parts are formed so that the directions of mating with the connector member are different directions with respect to the attached member.

A shielded connector includes a dielectric module (20) having an L-shaped terminal fitting (24) attached to a dielectric (21) and an outer conductor (30) that houses the dielectric module (20). The outer conductor (30) has a housing (31) with a first opening (35) at a front, a second opening (36) at a rear of a lower surface, and an insertion port (37) at a rear end communicating with the second opening (36). A lid (43) is continuous with an edge of the insertion port (37) and is displaced from an open position where the insertion port (37) is opened to allow insertion of the dielectric module (20) into the module housing (31) to a closed position where the insertion port (37) is closed. With the lid (43) closed, an outer plate (47) on the lid (43) covers the holding portion (41) on the module housing (31) to prevent accidental release.