Patent ID: 11874031
Assignee: COPELAND LP
Field: Engines, pumps, turbines (Mechanical engineering)
Classification: CPC F | IPC F

Claim 11:
12. A system comprising:
a first compressor having a first inlet and a first outlet,
a second compressor being a horizontal sumpless compressor and having a second inlet and a second outlet, the second compressor providing working fluid discharged from the second outlet to the first inlet of the first compressor;
a dual-temperature evaporator disposed upstream of the second compressor and providing working fluid to the second compressor, the dual-temperature evaporator and the second compressor being disposed within a first display case;
a medium-temperature evaporator disposed upstream of the first compressor and providing working fluid to the first compressor, the medium-temperature evaporator being disposed within a second display case that is operated as a refrigerator;
a condenser disposed downstream of the first compressor and receiving working fluid discharged from the first compressor;
a first fluid passageway extending from a location downstream of the condenser to the first inlet of the first compressor, the first fluid passageway including a first valve, a first expansion device and the medium-temperature evaporator;
a second fluid passageway extending from a location downstream of the condenser to the second inlet of the second compressor, the second fluid passageway including a second valve, a second expansion device and the dual-temperature evaporator, a first portion of working fluid exiting the condenser flows to the first fluid passageway and a second portion of working fluid exiting the condenser flows to the second fluid passageway;
an oil apparatus disposed downstream of the first compressor at a location between the first compressor and the condenser, the oil apparatus configured to entrap a portion of lubricant entrained in working fluid passing through the oil apparatus, the oil apparatus configured to selectively provide lubricant from the oil apparatus to the first compressor via an oil-management valve device;
a bypass passageway that extends from a suction line of the second compressor at a location between the dual-temperature evaporator and the second compressor to a discharge line of the second compressor; and
a bypass valve disposed along the bypass passageway and movable between an open position in which fluid is allowed to flow through the bypass passageway and a closed position in which fluid is restricted from flowing through the bypass passageway;
wherein:
the dual-temperature evaporator is controlled to operate as a low-temperature evaporator and the first display case is controlled to operate as a freezer when the bypass valve receives communication controlling the bypass valve to move to the closed position; and
the dual-temperature evaporator is controlled to operate as another medium-temperature evaporator and the first display case is controlled to operate as another refrigerator when the bypass valve receives communication controlling the bypass valve to move to the open position and the second compressor is controlled to turn off.