A power tool includes a motor (8) having a stator (9), a rotor (10) and three terminals (81). The stator includes a tubular stator core (60) having six teeth (63), first and second electrically insulating members (61, 62) affixed to the stator core, and six coils (64) wound around the teeth such that three phases are defined. The three terminals are held by the first electrically insulating member and are respectively electrically connected to the three phases. All of the six coils may be formed by winding a single continuous winding wire (101) sequentially around each of the six teeth. All of the three terminals (81) may be disposed within a semicircular area of the stator core. At least a first crossover wire portion (102) of the winding wire may be disposed on the second electrically insulating member.

A switched reluctance motor includes an upper housing; a stator assembly including a stator core coupled to the upper housing; a rotor assembly located inside the stator assembly and comprising a rotor core rotating together with a shaft; a lower housing coupled to a lower part of the stator core; a sensor magnet assembly coupled to an upper part of the shaft and rotating together with the shaft; and a hall sensor assembly installed inside the upper housing and installed at one side of the sensor magnet assembly.

A motor assembly includes a stator directly fixed to a first rotating member, a rotator coupled to a second rotating member and rotatably connected with the stator, an electrical connecting device, and a Hall angular displacement sensor disposed on a side of the electrical connecting device. The rotator includes a rotating shaft with two ends. A first end of the rotating shaft is received in the first rotating member and a second end of the rotating shaft is received in the second rotating member. The electrical connecting device is configured to provide power to the motor assembly for driving the second rotating member to rotate with respect to the first rotating member. The Hall angular displacement sensor is configured to detect a positional relationship between the first rotating member and the second rotating member.

A motor assembly includes a stator directly fixed to a first rotating member, a rotator coupled to a second rotating member and rotatably connected with the stator, an electrical connecting device, and a Hall angular displacement sensor disposed on a side of the electrical connecting device. The rotator includes a rotating shaft with two ends. A first end of the rotating shaft is received in the first rotating member and a second end of the rotating shaft is received in the second rotating member. The electrical connecting device is configured to provide power to the motor assembly for driving the second rotating member to rotate with respect to the first rotating member. The Hall angular displacement sensor is configured to detect a positional relationship between the first rotating member and the second rotating member.

The invention relates to an electric machine comprising a rotor and a stator. The rotor (40, 4) comprises a plurality of permanent magnets (4), the stator comprises a plurality of coils suitable for being powered by an electric current and two Hall effect sensors (6) on supports (60). The sensors are configured to detect a change in gradient of the normal component of a magnetic field generated by the permanent magnets (4). The stator comprises a part (7) comprising —a first zone (7a), —a second zone (7b), and a third zone (7c) extending from the first zone (7a) up to the second zone (7b). The maximum radial thickness of the third zone (7c) is less than the minimum radial thickness of the first zone and the second zone.

The invention relates to an electric machine comprising a rotor and a stator. The rotor (40, 4) comprises a plurality of permanent magnets (4), the stator comprises a plurality of coils suitable for being powered by an electric current and two Hall effect sensors (6) on supports (60). The sensors are configured to detect a change in gradient of the normal component of a magnetic field generated by the permanent magnets (4). The stator comprises a part (7) comprising —a first zone (7a), —a second zone (7b), and a third zone (7c) extending from the first zone (7a) up to the second zone (7b). The maximum radial thickness of the third zone (7c) is less than the minimum radial thickness of the first zone and the second zone.

An electric work machine includes a motor in which a wire is wound around each tooth of a stator in an aligned manner. The electric work machine includes a motor including a rotor and a stator. The stator includes a stator core having a first end face and a second end face, and having teeth protruding inwardly, a first insulator covering the first end face, a second insulator covering the second end face, a rib located on at least one of the first insulator or the second insulator, and overlapping the teeth in an axial direction of the teeth, and coils including a wire wound around the teeth via the first insulator and the second insulator and the rib.

A motor assembly for use with a power tool includes a motor housing, a brushless electric motor disposed at least partially in the motor housing, and a PCB assembly coupled to the motor housing. The PCB assembly includes a heat sink, a power PCB coupled to a first side of the heat sink, and a position sensor PCB coupled to a second side of the heat sink opposite the first side and in facing relationship with the motor.

A motor assembly for use with a power tool includes a motor housing, a brushless electric motor disposed at least partially in the motor housing, and a PCB assembly coupled to the motor housing. The PCB assembly includes a heat sink, a power PCB coupled to a first side of the heat sink, and a position sensor PCB coupled to a second side of the heat sink opposite the first side and in facing relationship with the motor.

Power tools described herein include a housing, a brushless direct current (DC) motor, a non-conductive terminal mount, and a plurality of terminals. The housing has a motor housing portion, a handle portion, and a battery pack interface. The brushless DC motor is located within the motor housing portion and has a rotor and a stator. The non-conductive terminal mount is located on an outer peripheral surface of the stator and includes an angled surface. The angled surface is not substantially parallel to a longitudinal axis of the motor. The plurality of terminals is mounted on the angled surface of the terminal mount. Each of the terminals is angled in a first direction such that the terminals are not substantially parallel to the longitudinal axis of the motor.