Abstract: An electric compressor capable of preventing electrical discharge occurring between a coil and a stator core without increasing the size of the overall electric motor for driving a compression mechanism of the electric compressor, is provided. The electric motor of the electric compressor has a cylindrical stator, and a rotor arranged radially inside the stator. The stator includes: a stator core 52 including an annular yoke portion 52B, and multiple tooth portions 52A projecting radially inward from an inner peripheral surface of the yoke portion 52B, and arranged at predetermined intervals in a circumferential direction; a bobbin-shaped insulator 54 removably fitted on each of the multiple tooth portions 52A; a coil 56 wound around the insulator 54; and an insulating member 58 for covering an outer surface of the coil 56 in a wound state.

Abstract: An inverter-integrated electric compressor has a control device. The control device estimates a compressor suction pressure based on the temperature of the power element of the inverter, or directly measures the compressor suction pressure by a sensor, or estimates the compressor suction pressure based on a compressor suction temperature or on a compressor housing temperature. Further, the control device calculates a motor torque based on a motor rotational speed, a motor phase current, and a motor phase voltage, estimates a compressor discharge pressure based on the compressor suction pressure and the motor torque, and estimates a compressor discharge temperature based on the compressor suction pressure and the compressor discharge pressure. The electric compressor has a discharge temperature detection device in place of a conventional thermal protector.

Abstract: A scroll compressor as a fluid machine includes a housing containing a scroll unit and an armature of an electric motor, and a connection device (66) for electrically connecting each stator coil (62) of the armature to a circuit board external to the housing. The connection device (66) includes a tubular lead holder (70) extending from inside the housing and gastightly passed through a through hole (68) to outside of a housing wall (16), the lead holder (70) having a head (72) and snap anchors (74) holding the housing wall (16) therebetween, and a wire-shaped lead (76) extending from the stator coil (62) and gastightly passed through the lead holder (70) to outside of the housing wall (16).

Abstract: An electric motor-driven scroll compressor as a fluid machine includes a housing (10) containing a scroll unit (20) and an armature (38) for driving the scroll unit (20), and a refrigerant conduit located inside the housing (10) to guide a refrigerant toward the scroll unit (20). The refrigerant conduit includes a helical groove (64) as part thereof. The helical groove (64) is formed in the outer peripheral surface of a rotor (54) constituting the armature (38) and has opposite ends opening in the respective opposite end faces of the rotor (54).

Abstract: An electric scroll compressor (1) as a closed type fluid machine, comprising a housing (10) in which a scroll unit (18) and an armature (40) driving the scroll unit (18) are contained. A resin coating layer (72) with a thickness of 50 ?m or more is formed on at least a part of the outer surface of the housing (10). A silent closed type fluid machine can be thus provided without increasing size and deteriorating productivity.

Abstract: An inverter-integrated or an inverter-separated electric compressor has a control device. The control device estimates a compressor suction pressure based on the temperature of the power element of the inverter, or directly measures the compressor suction pressure by a sensor, or estimates the compressor suction pressure based on a compressor suction temperature or on a compressor housing temperature. Further, the control device calculates a motor torque based on a motor rotational speed, a motor phase current, and a motor phase voltage, estimates a compressor discharge pressure based on the compressor suction pressure and the motor torque, and estimates a compressor discharge temperature based on the compressor suction pressure and the compressor discharge pressure. An electric compressor having a discharge temperature detection means in place of a conventional thermal protector can be realized.

Abstract: A scroll compressor as a fluid machine includes a housing containing a scroll unit and an armature of an electric motor, and a connection device (66) for electrically connecting each stator coil (62) of the armature to a circuit board external to the housing. The connection device (66) includes a tubular lead holder (70) extending from inside the housing and gastightly passed through a through hole (68) to outside of a housing wall (16), the lead holder (70) having a head (72) and snap anchors (74) holding the housing wall (16) therebetween, and a wire-shaped lead (76) extending from the stator coil (62) and gastightly passed through the lead holder (70) to outside of the housing wall (16).