US 11,867,163 B2
Electric drive compressor system
Mark Mitchell, Benowa (AU); Peter Woodfield, Biggera Waters (AU); Chris Conway Lamb, Graceville (AU); and Hongqiu Yan, Hong Kong (CN)
Assigned to UNICLA INTERNATIONAL LIMITED, Hong Kong (CN)
Appl. No. 17/264,747
Filed by UNICLA INTERNATIONAL LIMITED, Hong Kong (CN)
PCT Filed Jul. 22, 2019, PCT No. PCT/CN2019/097118
§ 371(c)(1), (2) Date Jan. 29, 2021,
PCT Pub. No. WO2020/024836, PCT Pub. Date Feb. 6, 2020.
Claims priority of application No. 2018902751 (AU), filed on Jul. 30, 2018.
Prior Publication US 2021/0246892 A1, Aug. 12, 2021
Int. Cl. F04B 35/04 (2006.01); F04B 53/08 (2006.01); F04B 1/14 (2020.01); F04B 1/12 (2020.01); F04B 39/06 (2006.01); F04B 49/06 (2006.01); F04B 49/20 (2006.01)
CPC F04B 35/04 (2013.01) [F04B 1/12 (2013.01); F04B 1/14 (2013.01); F04B 39/06 (2013.01); F04B 49/06 (2013.01); F04B 49/20 (2013.01); F04B 53/08 (2013.01); F04B 2205/00 (2013.01); F04B 2205/05 (2013.01); F04B 2205/10 (2013.01); F04B 2205/11 (2013.01)] 3 Claims
OG exemplary drawing
 
1. An electric drive compressor system comprising:
a swashplate compressor having:
a compressor housing with a front end and a rear end;
a gas intake/suction port and a gas discharge port located at the front end of the compressor housing;
a valve plate compartment having a high pressure sub-compartment which is in direct fluid communication with the gas discharge port and a low pressure sub-compartment which is in direct fluid communication with the gas intake/suction port; and
a first dual temperature and pressure sensor and a second dual temperature and pressure sensor located near the rear end and inside of openings of the compressor housing, the first dual temperature and pressure sensor has at least sensing region located within the low pressure sub-compartment for sensing the temperature and pressure of the gas in the low pressure sub-compartment, the second dual temperature and pressure sensor has at least sensing region located within the high pressure sub-compartment for sensing the temperature and pressure of the gas in the high pressure sub-compartment, such that the first dual temperature and pressure sensor and the second dual temperature and pressure sensor simultaneously sense the pressure and temperature of the gas prior to and after compression by the compressor;
a motor connected to the compressor for driving the compressor;
a cooling system for cooling the motor, said cooling system comprises a fan connected to the motor and operated independently of the motor, a fan control, and a housing cooling arrangement for cooling at least the motor, and the fan control simultaneously receives the readings from the first dual temperature and pressure sensor and the second dual temperature and pressure sensor; and
a controller comprising a microcontroller, contacts/electrical sockets electrically connected to the first dual temperature and pressure sensor and the second dual temperature and pressure sensor for receiving readings therefrom, and contacts/electrical sockets respectively for the motor and the fan, and wherein the controller simultaneously control the motor and fan in real time based on the simultaneously taken readings of the first and second dual temperature and pressure sensors of the gas prior to and after compression by the compressor.