Abstract: Indoor circuits (60, 65) of indoor units (12, 13) are each connected in parallel to an outdoor circuit (20) of an outdoor unit (11). The outdoor circuit (20) has a gas vent pipe (35) by which a receiver (23) is brought into communication with suction sides of compressors (41, 42). During the heating operation in the heating mode of operation, a gas vent solenoid valve (36) is placed in the open state so that the receiver (23) decreases in pressure. This relaxes restrictions on the difference in installation height between each indoor unit of a multi type airconditioner having a plurality of indoor units.

Abstract: The present invention allows an optimal quantity of refrigerant to be quickly and easily charged into the refrigeration device. In a refrigeration device that includes a refrigerant cycle circuit (A) connecting an outdoor unit (X) and indoor units (Y) via refrigerant lines (6), (7), a refrigerant charging device (10) that charges refrigerant to the refrigerant cycle circuit (A) in the cooling operational state is detachably connected to the liquid side refrigerant line (6) (the high pressure liquid line during cooling operations) that links the outdoor unit (X) with the indoor units (Y). In this way, when the refrigerant charging device (10) and the liquid line refrigerant line (6) are linked together and the refrigerant cycle circuit (A) is in the cooling operational state, refrigerant charging can be carried out from the refrigerant charging device (10) to the refrigerant cycle circuit (A) via the liquid side refrigerant line (6) (the high pressure liquid line).

Abstract: Described is a climate control system with an air conditioning or a heat pump and a method to provide desirable temperature and humidity of indoor air. In addition to a compressor, a condenser, an evaporator, and an expansion device, the air conditioner/heat pump includes an auxiliary coil, valve means, refrigerant communication means, and control means. In hot climate the system operates in two separate modes: a conventional cooling mode and a cooling mode with enhanced dehumidification. In the conventional cooling mode the valve means direct refrigerant leaving the condenser to the expansion device and then to the auxiliary coil to absorb heat from conditioning air by refrigerant in the auxiliary coil. In this mode an extra amount of liquid refrigerant is stored in the refrigerant communication means.

Abstract: A solar powered air conditioning system includes an absorption machine coupled to three primary loops. A heat loop provides energy to the absorption machine. A cooling tower loop exhausts heat from the absorption machine. A chilled water loop is used to draw heat from a room or building. The heat loop provides energy from a boiler and/or from a number of solar collectors. In one mode of operation, the solar collectors circulate through a storage tank. The flow through the solar collectors is regulated to maximize energy collection.

Abstract: In a two-stage absorption heating and cooling system with refrigerant storage apparatus for converting from a cooling to a heating mode of operation, provision is made to position the refrigerant storage tank in a location vertically above the condenser, and the tank is filled with refrigerant without the use of a pump. This is accomplished by fluidly interconnecting the high-temperature generator directly with the refrigerant storage tank such that after the refrigerant vapor from a high temperature generator is condensed in the low temperature generator, the pressure difference between the high temperature generator and the refrigerant storage tank causes the refrigerant condensate to flow to the refrigerant storage tank. A valve is provided to selectively drain the refrigerant from the storage tank to an evaporator sump when changing from a cooling to a heating mode of operation.

Abstract: A reversible heat pump system includes heat exchangers having significantly different refrigerant handling capacities and a refrigerant holding device for holding excess refrigerant during the heating mode of operation. The refrigerant holding device includes a heat exchanger located therein for subcooling the refrigerant in the refrigerant holding device during the heating mode. The heat exchanger in the refrigerant holding device circulates suction pressure refrigerant through the refrigerant holding device before the suction pressure refrigerant enters the suction inlet of the compressor.

Abstract: A heat exchanger (1) on the secondary heat source, which exchanges heat with a heat exchanger (12) on the primary heat source in a primary cooling circuit (A), is connected with an indoor heat exchanger (3) through a gas pipe (6) and a liquid pipe (7). A tank (T) storing a liquid cooling medium is connected at its lower end to the liquid pipe (7) and its upper end to a pressure adjustment mechanism (18). Check valves (CV1 and CV2) are disposed on both sides of the connecting point of the tank (T) with respect to the liquid pipe (7).