Object:

It is desirable to provide a waterproof connection structure, a connection structure body, and a partition member that can easily and reliably prevent water penetration.

Resolution Means:

The waterproof connecting portion (1A) of a connection structure body (1) includes an FFC (30) formed by sandwiching a plurality of flat conductors (41) arranged in parallel in a width direction in a sheet-like insulating covering, a plurality of insulated wires (40) each obtained by covering a conductor (41) with an insulating covering (42), a plurality of WF terminals (20) that are arranged in parallel in the width direction and connect the flat conductors (41) and the conductors (41), a terminal holder (10) that partitions the WF terminals (20) in an insulating manner, and a butyl sheet (50) that integrally covers the plurality of WF terminals (20) partitioned by the terminal holder (10) and the terminal holder (10), and has waterproofing properties, insulating properties, and stretching properties.

A sensor for measuring the position of a component that is displaceable relative to the sensor, includes a circuit board and a metal body. The circuit board includes a first region in which a detector is located, and a second region in which electronic components are located, which are electrically connected to the detector. The metal body includes a first layer having a first area as well as a second layer having a second area. The first region of the circuit board is fixed in place in the first area and the second region of the circuit board is fixed in place in the second area. The first layer and the second layer of the metal body are situated between the first region and the second region of the circuit board so that the first region is located in a first plane and the second region is located in a second plane.

A sensor for measuring the position of a component that is displaceable relative to the sensor, includes a circuit board and a metal body. The circuit board includes a first region in which a detector is located, and a second region in which electronic components are located, which are electrically connected to the detector. The metal body includes a first layer having a first area as well as a second layer having a second area. The first region of the circuit board is fixed in place in the first area and the second region of the circuit board is fixed in place in the second area. The first layer and the second layer of the metal body are situated between the first region and the second region of the circuit board so that the first region is located in a first plane and the second region is located in a second plane.

A connecting method includes disposing a wire along a surface of a mounting object, disposing a first insulator having a pair of outer lateral surfaces separately facing in opposite directions from each other between the surface of the mounting object and a middle part of the wire, bending the middle part of the wire to extend along the pair of outer lateral surfaces of the first insulator, fitting a second insulator to the first insulator such that the middle part of the wire that is bent and part of the first insulator pass through and protrude from a through hole of the second insulator, and cutting and removing the middle part of the wire and the part of the first insulator protruding from the through hole of the second insulator.

A structure for connecting electric wires in which a single-core conductor made of a single metal rod is connected to a flexible conductor made of a plurality of elemental metal wires and having a higher flexibility than the single-core conductor. A clamping portion formed at one end of the single-core conductor is connected to the flexible conductor with the clamping portion clamping the flexible conductor on two sides thereof in a direction transverse to the direction in which the electric wires extend. This structure can enhance the adhering strength of the connection as the flexible conductor and the single-core conductor do not peel off from each other even if the flexible conductor is deflected.

A structure for connecting electric wires in which a single-core conductor made of a single metal rod is connected to a flexible conductor made of a plurality of elemental metal wires and having a higher flexibility than the single-core conductor. A clamping portion formed at one end of the single-core conductor is connected to the flexible conductor with the clamping portion clamping the flexible conductor on two sides thereof in a direction transverse to the direction in which the electric wires extend. This structure can enhance the adhering strength of the connection as the flexible conductor and the single-core conductor do not peel off from each other even if the flexible conductor is deflected.

A conductive path includes: a first conductor in which a terminal end portion serves as a first connection portion; a second conductor in which a second connection portion at a terminal end portion is coaxially fixed to the first connection portion; a support member that is more rigid than the first and second conductors, and is disposed so as to extend along a fixed portion between the first and second connection portions; and a heat-shrinkable tube (holding member) that integrates the support member with the first and second conductors while enveloping the support member. Even when an external force acts on the first and second conductors so as to skew the axes of the two conductors, the support member and the heat-shrinkable tube keep the two conductors in the coaxial state.

A conductive path includes: a first conductor in which a terminal end portion serves as a first connection portion; a second conductor in which a second connection portion at a terminal end portion is coaxially fixed to the first connection portion; a support member that is more rigid than the first and second conductors, and is disposed so as to extend along a fixed portion between the first and second connection portions; and a heat-shrinkable tube (holding member) that integrates the support member with the first and second conductors while enveloping the support member. Even when an external force acts on the first and second conductors so as to skew the axes of the two conductors, the support member and the heat-shrinkable tube keep the two conductors in the coaxial state.

[Problems] A cable connecting structure for connecting bus bars and an insulating part with a simple configuration is provided.

[Means for solving the problems] The cable connecting structure includes a plurality of bus bars (60), a flexible flat cable (14), and an insulating part (40). The flexible flat cable (14) is connected to the bus bars (60). The insulating part (40) has bus bar mounting grooves (41) for arranging the bus bars (60) individually and a bus bar fixing portion (45) for fixing the bus bars (60) by overlapping the bus bars (60). A triangular protrusion (62) that protrudes toward a side where the flexible flat cable (14) is mounted is formed in each of the bus bars (60). The flexible flat cable (14) is connected to the triangular protrusion (62) in each of the bus bars (60).

An electric motor, in particular a radiator fan motor of a motor vehicle, has a stator which is fitted with a rotating-field winding, and a rotor which is mounted such that it can rotate in relation to the stator. A converter electronics system is provided, wherein a number of contact elements for insulation-free or enamel-insulated connection contacts of at least one component of the converter electronics system and/or for enamel-insulated winding ends of the rotating-field winding are mounted on a printed circuit board. The contact elements are in the form of clamping contacts or insulation-displacement terminal contacts.