TH6655B - Heat storage air conditioner - Google Patents

Abstract

Thermal storage air conditioning system with the capability to control the intake and release of cooling and to control the amount of lubricant. which in operation of the general refrigeration circuit and the refrigeration diffusion circuit simultaneously or separately, independent of the hassle of the compressor being damaged or the cooling capacity being reduced when the amount of refrigerant The cold in those cycles was greatly increased or decreased. And it is possible to carry out operations with the amount of coolant and the amount of lubricant adjusted to the appropriate values. In heat storage air conditioning systems, the evaporator is provided in the general cooling circuit driven by the compressor and in the cooling diffusion circuit driven by the refrigerant gas pump respectively when that those circuits operate more independently of each other. A side pass circuit is provided to allow the coolant to flow between the liquid rubber tubes and between the gas tubes in the old circuit. in cold storage operations The pass-through circuit is closed so that the cold accumulator circuit is formed with the first compressor, condenser, pressure reducing mechanism. and the heat exchanger collects the cold

Claims (9)

1. Heat collector air conditioning system consisting of: General cooling circuit including compressor, condenser, first pressure relief mechanism. And the first evaporator Which are connected in the order mentioned Which such general cooling cycle That performed the cooling operation with the help of the first such evaporator Cooling diffusion cycle including gas pump, coolant Heat exchanger, cold storage Second pressure reducing mechanism And the second evaporator Which are connected in the order in which they are mentioned Such a cooling diffusion circuit that performs cooling operations with the help of such a second evaporator. A heat storage tank containing a heat storage medium. For cold storage with the help of a heat exchanger, such cold storage Circuit through the side of the circuit with the first set of closed-ends open Which is connected between the first gas pipe in the general cooling circuit, said And the second gas pipe in the cooling diffusion circuit, said The valve is controlled for the movement of the cooler and the secondary circuit with a second valve set connected between the first fluid pipe. Which was connected between the first pressure reducing mechanism, said And the first such evaporator and the second fluid pipe Which is connected between the second pressure relief mechanism and the second evaporator. Such a second set of valves that are controlled for the movement of the cooler. Which in the operation of such general cooling circuits And the cooling diffusion cycle thereof Which performs cooling operations by utilizing cooling energy Which is accumulated in the aforementioned / first and second open end tanks. Of the circuit through the side of the first circuit and the second circuit is closed So that such common cooling circuits and such cooling distribution circuits Being operating independently of each other And in cold storage operations for such heat storage tanks The first and second set of closed-end circuits pass side-by-side. The first and second circuits are opened. To form a cold collector circuit that included the compressor, condenser, the first pressure relief mechanism. And the heat exchanger collects such cold 2. Air conditioning system with heat accumulation as requested in claim 1, which includes additional Third pass-through circuit Third pass-through, the second such second pressure relief mechanism with the help of check valve. Fourth pass-through circuit The fourth pass-through circuit with the help of a fourth valve is connected to the cooling gas pump. It is connected to the second gas pipe in the diffusion circuit, and the fifth and six valve sets, which are connected to the coolant inlet of the first and second evaporator. Two of them, respectively. The cold storage circuit was formatted with the fifth and sixth valve set closures. Which is connected to the coolant entrance of the first evaporator And the second, and with the contact of the circuit through the first circuit to the fourth circuit. 3. Heat storage air conditioning system as requested in claim 1, which is supplemented by: coolant flow control device In practice, there are at least one such common cooling and diffusion circuits of the first and second valve sets. In the circuit through the first and second circuit thereof To allow the coolant to flow during the cooling cycle Such common and cold diffusion circuits. Detects the overcooling level of the cooler on the side of the outlet, the coolant of the heat exchanger collects the cool. Or on the side of the cooling outlet of the said condenser Or the degree of overheating of the coolers at the first or the aforementioned evaporator and twist the first and second valve sets. When the cooling or overheating level of the sensed coolant reaches a predetermined value. 4. The heat-collecting air conditioning system according to the claim in claim 1 which is supplemented by Cycle through the fifth circuit Which separates the branch from the outlet of the aforementioned condenser for passing by the first such pressure reducing mechanism Cycle through the aforementioned fifth circuit that includes liquid receptors Third pressure reducing mechanism And the seventh set of valves, which are connected in the order in which they are mentioned. 5. Air conditioning system with heat accumulation according to Claim 2, which is supplemented by Cycle through the sixth circuit Which is fixed from the bottom end of the collector which is connected to the inlet of the coolant gas pump Through the eighth valve set to the inter-loop gas pipe through the side of the first circuit And the circuit through the aforementioned fourth circuit Such a set of valves that are opened for a predetermined time from the start of the cold storage heat-accumulator operation in the said heat-accumulator tank. 6. Heat-collecting air conditioning system according to claim 1, in which the serrated fins of the first and second evaporator are integrated. To form a single heat exchanger This contradicts the heat exchanger capacity enough for both the aforementioned cooling and diffusion circuits. 7. The heat-collecting air conditioning system according to the claim of the aforementioned 2 systems, which includes additional Load detectors for the detection of the amount of cooling loads and the cooling cycle instruments operating on such cooling diffusion circuits. When the amount of such cooling load that is detected is low. And operating on such general cooling cycle When the amount of such cooling load is high 8. The heat-collecting air conditioning system according to the claim of the aforementioned 2 systems, which includes additional Ice detectors for detecting the presence or absence of ice pieces in the storage tanks and the cold collector controls for the interruption of the collector cycle. When ice pieces are detected with the said ice detector 9. Air conditioning system with heat accumulation according to the claim of the aforementioned 2 systems, which are supplemented by The operating ratio instrument for the ratio of the typical cooling operations to the total cooling operation of one day, and the storage interval control device for controlling the storage cycle operating times. That cooling ratio is given out.