The invention relates mainly to an assembly comprising a brush cage and a spiral spring (36), the spiral spring (36) comprising an axis (Y), a wound part (37) wound about the axis (Y) and an arm (39) extending from one end of the wound part (37), the brush cage comprising at least one lateral wall provided with an opening for the passage of the arm (39) through the lateral wall so that one end of the arm (39) can press against at least part of an end face of a brush, wherein the arm (39) comprises a first portion (391) of which the width (L5) measured along the axis (Y) is different from the width (L6) of the wound part (37) measured along the axis (Y) of the spiral spring (36).

A connection structure of terminals according to the present invention includes an elastically-deformable first connector, to which a motor wire is electrically connected, an elastically-deformable second connector, to which a driving circuit wire is electrically connected, and a conductive portion, which electrically connects the first connector with the second connector. The first connector and the second connector are joined to the respective end surfaces of the conductive portion. The first connector is elastically deformed to hold the motor wire with its own restoring force. The second connector is elastically deformed to hold the driving circuit wire with its own restoring force.

A ground wire connection structure for a motor includes: a frame that has electrical conductivity; a flange that is integrated with the frame on one axial end surface of the frame and has electrical conductivity; a protrusion that is protruded outward from a flange surface of the flange and has a through hole; and a conductive pin that has a press-fit portion press-fitted and fixed into the through hole, a diameter-increased head portion, and a solder cup protruded from the head portion to allow an exposed tip end of a ground wire to be inserted and joined into the inside.

An electrical machine having a housing with a central receiving space in which a stator winding and an interconnection arrangement with a plurality of internal conductors is arranged. A high-voltage connection arrangement with a plurality of connecting points at which the internal conductors are connected in pairs to external conductors of a high-voltage source are provided. The high-voltage connection arrangement has a removable cover which closes an access region, and an electrical safety locking device (interlock) with a low-voltage circuit that detects an opening state of the access region of the high-voltage connection arrangement and the high-voltage connection arrangement is switched to zero potential when an open state of the access region is detected. The external conductors are inserted into the receiving space through the machine housing from the outside forming the high-voltage connection arrangement and arranging the electrical component within the receiving space.

In order to create favorable structural conditions, at least one first component longitudinal portion and a second component longitudinal portion are provided, where the first component longitudinal portion has a greater level of rigidity than the second component longitudinal portion, such that thereby reducing contact zone wear is reduced, while favorable mounting characteristics are also created at the same time.

The present invention provides a composite-cable relay device that connects individual wiring lines of a composite cable to two or more motor-side connectors included in a motor, the composite-cable relay device including: two or more relay-side connectors that are connected to the respective motor-side connectors; hollow housings that are secured to at least one of the relay-side connectors; a relay cable that possesses flexibility and that connects the hollow housings and the other relay-side connectors, wherein a connecting portion to which the composite cable is connected is provided in the hollow housings, and, in the interior of the hollow housing, wiring to be connected to the relay-side connector secured to the hollow housing and wiring to be connected to the relay cable branch off from each other.

An electric apparatus including a connector holding six connecting terminals is provided. Three one-side connecting terminals held by the connector are arranged side by side in a row substantially directly below conductive terminals of three phases of one DC-AC converter. Three another-side connecting terminals held by the connector are arranged side by side in a row at positions offset to a side away from the one-side connecting terminals in an axial direction. Upper-end side connecting parts of the three one-side connecting terminals are set to be lower than upper-end side connecting parts of the three another-side connecting terminals, and are connected to the corresponding conductive terminals above via busbars extending in an up-down direction. The upper end-side connecting parts of the three another-side connecting terminals are connected to corresponding conductive terminals via busbars extending along an arrangement direction of the conductive terminals.

A bus-barwire is provided. The bus-barwire has a frame, busbars and terminals. The busbars each has a main body and multiple connecting parts connected to the main body. The connecting parts connect wiring ends of motor stator windings. The terminals are connected to the busbars, to connect to a power source. The main bodies of the busbars are arranged in a stack along an axial direction of the frame and are spaced apart from each other. The connecting parts of the busbars are spaced apart along a circumferential direction of the frame. The connecting parts of the busbars are distanced from end surfaces of the stator windings and remain flush in the axial direction of the frame.

A motor includes a commutator, a bracket including a conductive brush, first and second wall parts, and first and second deformable parts. The conductive brush is in contact with the commutator. The first wall part includes a first surface extending along a first surface of the conductive brush. The second wall part includes a second surface extending along a second surface of the conductive brush located on a side opposite the first surface of the conductive brush. The first deformable part is in contact with both the first surface of the conductive brush and the first surface of the first wall part, and is deformable in response to movement of the conductive brush. The second deformable part is in contact with both the second surface of the conductive brush and the second surface of the second wall part, and is deformable in response to movement of the conductive brush.

The present invention relates to a first metal cable (1) having a flat upper (A) and a flat lower (B) surface, comprising at least one hollow riser (2) extending approximately 90 degrees from one of the flat surfaces of the first metal cable, the hollow riser being 5 configured to house an end of a second metal cable (3). A connected structure comprising a first metal cable wherein a second metal cable is inserted into the hollow riser (2) of the first metal cable and joined with the first metal cable. it also relates to a method of making a connected structure, joining a first metal cable to a second metal cable by friction welding the second metal cable (3) to the first metal cable by 10 contacting a rotating tool (4) with the lower surface of the first metal cable in the area underneath the hollow riser.