Patent ID: 7810353
Filing Date: 2010-10-12
Classification: F25B

Abstract:
1. A heat pump system comprising: a compressor section comprising first and second compressors, each having an inlet and an outlet; first and second heat exchangers selectively fluidically connected to the compressor section so as to enable flow of a refrigerant between the compressor section and the first heat exchanger, between the first and second heat exchangers, and between the compressor section and the second heat exchanger; valves for controlling the flow of the refrigerant through the first and second compressors and the first and second heat exchangers; means for controlling the valves so that the heat pump system is selectively operable in each of the following modes: a first mode in which the first and second compressors operate in series, a second mode in which the first compressor operates independently and the second compressor is bypassed by the refrigerant, and a third mode in which the second compressor operates independently and the first compressor is bypassed by the refrigerant; accumulator means for receiving the refrigerant from the valves and delivering only a vapor portion of the refrigerant to the first and second compressors; an economizer fluidically connected to the first and second heat exchangers to form a two-phase portion of the refrigerant when the refrigerant flows from the first heat exchanger to the second heat exchanger; means for mixing the two-phase portion of the refrigerant from the economizer with the vapor portion of the refrigerant from the outlet of the first compressor and delivering a mixture formed thereby to the inlet of the second compressor, the mixing means comprising a mixing chamber in which the two-phase and vapor portions accumulate and mix and the two-phase portion of the refrigerant is dispersed in the vapor portion of the refrigerant, a first fluid line connecting the outlet of the first compressor to the mixing chamber for delivering the vapor portion from the outlet of the first compressor to the mixing chamber, a second fluid line connecting the mixing chamber to the inlet of the second compressor for delivering the mixture to the second compressor, and a third fluid line connecting the economizer to the mixing chamber for delivering the two-phase portion from the economizer to the mixing chamber; means for selectively delivering the two-phase portion to the mixing chamber for mixing with the vapor portion of the refrigerant flowing into the mixing chamber from the outlet of the first compressor if the first and second compressors are operating in series, the selective delivering means preventing delivery of the two-phase portion of the refrigerant to the mixing chamber if the first and second compressors are not operating in series; means for separating a lubricant from the refrigerant flowing from the compressor section, the lubricant separating means having an inlet, a refrigerant outlet, and a lubricant outlet, the inlet of the lubricant separating means being fluidically connected to the outlets of the first and second compressors so as to receive the refrigerant flowing from at least one of the first and second compressors, the refrigerant outlet of the lubricant separating means being selectively fluidically connected to one of the first and second heat exchangers, the lubricant outlet of the lubricant separating means being fluidically connected to the inlets of the first and second compressors so as to return the lubricant separated from the refrigerant by the lubricant separating means to at least one of the first and second compressors; a lubricant equalization conduit fluidically coupled to the first and second compressors; and valve means for selectively fluidically connecting the first and second compressors through the lubricant equalization conduit and for selectively controlling flow of the lubricant through the lubricant equalization conduit so as to provide for equalization of levels of the lubricant in the first and second compressors.