A terminal block includes a housing having an accommodation portion and a through hole, a terminal portion disposed in the accommodation portion, and a plate spring portion that is disposed in the accommodation portion and, together with the terminal portion, holds a wiring member inserted into the accommodation portion through the through hole. A first side wall portion and a second side wall portion are formed in the accommodation portion of the housing, the first side wall portion and the second side wall portion facing each other in a direction that intersects with a direction in which the plate spring portion and the terminal portion hold the wiring member. A movement, in the intersecting direction, of a portion of the wiring member that is inserted into the accommodation portion is curbed by disposing the portion of the wiring member that is inserted into the accommodation portion between the first side wall portion and the second side wall portion. It is possible to obtain a terminal block capable of inhibiting the wiring member held between the plate spring portion and the terminal portion from coming off.

A wire harness includes a main line harness, a branch line harness, and a branching structure configured to connect the main line harness and the branch line harness to each other. The main line harness has a plurality of main lines arranged side by side. Each main line is configured as a wiring member having a rod conductor. The branch line harness has a plurality of branch lines. The branching structure includes connection terminals to be electrically connected to the main lines to form at least part of electrically conductive paths between the main lines and the branch lines. Each connection terminal has a tubular connection portion to cover an outer circumferential surface of the rod conductor. The tubular connection portion has a pressing structure configured to elastically press the outer circumferential surface of the rod conductor placed inside a hollow portion of the tubular connection portion.

A metal leaf spring protection structure of electrical connection terminal includes a main body having a base section defined with a first end and a second end. The first end is connected with a first section and a locating section. The second end is connected with a bight section and a second section. The locating section has a head section and a tail section. The tail section extends to a position of the bight section to form a hook-like structure for providing an elastic action force and a support system. The locating section is positioned in the reciprocally moving path of the second section to set up a moving end point of the second section to improve the shortcomings of the conventional metal leaf spring that when plugging in the conductive wire, the metal leaf spring is over-bent to affect the pressing and securing effect.

A conductor terminal with at least one spring-loaded terminal connection, which includes at least one clip spring, wherein the at least one clip spring has a contact leg, a clip spring arc adjoining the contact leg and a clamping leg adjoining the clip spring arc, wherein the contact leg is arranged in the conductor terminal for fixing the clip spring and the clamping leg is arranged for clamping an electrical conductor at a clamping point, wherein in an arcuate portion comprising the clip spring arc and areas of the contact leg and the clamping leg adjacent to the clip spring arc, the clip spring includes a spring insert having a force effect which spreads the clamping leg apart from the contact leg, wherein the spring insert has a first and a second leg and a spring insert arc that connects the first leg with the second leg.

A conductive terminal includes a support frame defining a receiving space, a pair of first clamping arms arranged in the receiving space, and a pair of second clamping arms arranged in the receiving space. A pair of first clamping portions are disposed at a pair of ends of the first clamping arms. The first clamping portions are adapted to clamp a conductor of a wire inserted in a first insertion direction and electrically connect the wire with the conductive terminal. A pair of second clamping portions are disposed at a pair of ends of the second clamping arms. The second clamping portions are adapted to clamp the conductor of the wire inserted in a second insertion direction different from the first insertion direction and electrically connect the wire with the conductive terminal.

A metal leaf spring structure of electrical connection terminal includes a main body. The main body has a base section defined with a first end and a second end. The first end is connected with a first section and a locating section. The second end is connected with a bight section and a reciprocally movable second section. The locating section is positioned in the reciprocally moving path of the second section to setup a moving endpoint of the second section. The metal leaf spring structure of electrical connection terminal improves the shortcomings of the conventional metal leaf spring that the conductive wire cannot be plugged into the terminal by a precise angle so that the metal leaf spring is over-bent to affect the pressing and securing effect.

An housing of an electrical connector has at least one accommodation passage passing therethrough. At least one wire is inserted into at least one connection terminal accommodated within the accommodation passage in an insertion direction. The housing has a first surface with a first engagement portion and a second surface, opposite to the first surface, with a second engagement portion matched with the first engagement portion. The first engagement portion or the second engagement portion of the housing is configured to be detachably engaged with a second engagement portion or a first engagement portion of another housing, so as to stack the housing and the another housing together. Thus, it is possible to reduce the space occupied by a plurality of electrical connectors, thereby facilitating management of the wires and the electrical connectors.

The invention relates to a connector made of an electrically insulating material that will electrically connect a main conductor and a secondary conductor, the connector comprising: a central section extending along a longitudinal direction; a main part and a secondary part defining a main channel and a secondary channel respectively, parallel to the longitudinal direction and separated by the central section, the connector also comprises electrical connection means made of an electrically conducting material, designed to electrically connect the main conductor and the secondary conductor as soon as they are inserted in the main channel and in the secondary channel respectively.

A connector structure includes a case seat assembly and plug assemblies. Two ends of the case seat assembly are formed with channels. Each plug assembly has a conductive section and a wire connection member. The wire connection member is formed with a receiving space for receiving a pressing leaf spring. Each pressing leaf spring has an abutment end. A lateral protrusion section is disposed on the abutment end. Multiple unlocking assemblies are disposed beside the wire connection member. Each unlocking assembly has a push member formed with a push block. The lateral protrusion section is positioned in a sliding path of the push block along the channel, whereby the lateral protrusion section can be pushed to drive the abutment end to release a conductive wire.

A wire to wire connector comprises an insulation housing having a receiving passage extending in an insertion direction of a first wire or a second wire, an integral conductive terminal disposed in the receiving passage and adapted to electrically connect the first wire and the second wire, and a pair of seal members. The receiving passage has a first insertion port and a second insertion port, the first wire is inserted into the receiving passage through the first insertion port and the second wire is inserted into the receiving passage through the second insertion port. The pair of seal members are respectively mounted in the first insertion port and the second insertion port and each have a passageway through which the first wire or the second wire extends. The seal members seal with the first wire and the second wire to prevent moisture from entering the receiving passage.