TH14432C3 - Compressors and air conditioners that use the same - Google Patents

Claims (6)

Disclaimer (all) which will not appear on the advertisement page. : ------ 06/12/2017 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Compressors (30) for air conditioning equipment (1) including: Containers Leaky (310) motors (320) provided inside a sealed container. Crankshaft (330) made to be rotated by a motor. Fluid compression mechanism (340) driven by crankshaft rotation; And a lubricant reservoir (350) placed inside a sealed container where the RHmax? RCmax relationship is maintained between the maximum rotational speed. RHmax (rotation / sec) of the crankshaft during the Operation of air conditioner heating And the maximum RHmax (rotation / s) speed of the crankshaft during the air conditioning cooling operation 2. The compressor corresponds to claim 1, where the relationship (0.5 X RCmax)? RHmax? RCmax will remain Is 3. Compressors comply with claim 2, where the relationship (0.5 X RCmax)? RHmax? (0.7 X RCmax) will persist 4.Air conditioner (1) which includes: Refrigerant cycle (10 ) In which the refrigerant circulates through there the compressor (30) which is supplied to the refrigerant cycle and which compresses the refrigerant. An outdoor heat exchanger (40) which is supplied to the refrigerant circuit and which will Allows heat exchange between the refrigerant and the outdoor air. Compression reducer (50) which is supplied to the refrigerant cycle and which reduces refrigerant compression and the building heat exchanger (60) which is supplied to the refrigerant cycle and which will Allows heat exchange between the refrigerant and the indoor air, where during operation the air conditioner cools. Heat exchanger Outside the building it acts as a condenser to condense the refrigerant and an exchanger. The indoor heat acts as an evaporator to evaporate the refrigerant page 2 of the 2 pages during the air conditioner warming operation. Heat exchanger The outdoors will act as an evaporator to evaporate the refrigerant and a heat exchanger in The building acts as a condenser to condense the refrigerant. The compressor will have: Leakproof container (310) and motor (320) arranged inside the sealed container. Crankshaft (330) made to be rotated by a motor. The fluid compression mechanism (340) driven by the crankshaft rotation and the lubrication reservoir (350) provided within the sealing container. And the relationship RHmax? RCmax will be maintained between the crankshaft maximum RHmax speed (rotation / sec) between Warming operation And the maximum RCmax (rotation / sec) speed of the crankshaft During the cooling operation 5.Air conditioner complies with claim 4, where the relationship (0.5 xRCmax? RHmax RCmax will remain 6) .Air conditioner complies with claim 5, where correlation (0- 5 X RCmax? RHmax? (0.7 X RCmax) will persist ------------ 1. Compressors (30) for air conditioning equipment (1), which includes: sealed container (310), motor (320) arranged inside a sealed container. A crankshaft (330) that makes the motor rotate. Fluid compression mechanism (340) driven by crankshaft rotation; And a lubricating oil reservoir (350) provided inside the seal container, where the relationship (formula) is maintained between the maximum rotational speed (formula) (rotation / sec) of the crankshaft during Operation of air conditioner heating And the maximum rotational speed (formula) (rotation / sec) of the crankshaft during the air conditioning cooling operation 2.Compressors comply with claim 1, where the relationship (formula) is maintained. 3.The compressor corresponds to claim 2, where the relationship (formula) is maintained. 4.Air conditioner (1) which consists of: refrigerant cycle (10) in which the refrigerant circulates through it, the compressor (30) which is supplied to the refrigerant cycle and which compresses the refrigerant. An outdoor heat exchanger (40) which is supplied to the refrigerant circuit and which will Allows heat exchange between the refrigerant and the outdoor air. The compression reducer (50) is supplied to the refrigerant circuit and which reduces the refrigerant compression and the chamber heat exchanger (60) is supplied to the refrigerant cycle and which will Allows heat exchange between the refrigerant and the room air where, during operation, cools the air conditioner. Heat exchanger The outside of the building acts as a condenser to condense the refrigerant and exchanger. The heat in the room acts as an evaporator to evaporate the refrigerant. During operation to cool the air conditioner Heat exchanger The outside of the building acts as a refrigerant evaporator and an internal heat exchanger. The chamber acts as an evaporator to evaporate the refrigerant. The compressor will have: Leakproof container (310), motor (320) arranged inside the sealed container. A crankshaft (330) that makes the motor rotate. The fluid compression mechanism (340) driven by the crankshaft rotation and the lubricating oil reservoir (350) are housed within the sealing container. And the relationship (formula) is maintained between the maximum rotational speed (formula) (rotation / sec) of the crankshaft during Warming operation And the maximum rotational speed (formula) (rotation / sec) of the crankshaft During operation to cool the air 5.Air conditioner corresponds to claim 4, where the relationship (formula) is maintained. 6.Air conditioner complies with claim 5, where the relationship (formula) is maintained.