RU97104049A

RU97104049A - THERMAL ENERGY ACCUMULATION DEVICE FOR CAR SALON

Info

Publication number: RU97104049A
Application number: RU97104049/28A
Authority: RU
Inventors: Дж.Лонгарднер Уильям; Э.Джастин Джозев; П.Рафалович Александр; П.Келлер Гилберт; К.Шмидтер Томас
Original assignee: Стор Хит энд Продьюс Энерджи, Инк.
Priority date: 1994-08-11
Filing date: 1995-08-10
Publication date: 1999-03-27

Claims

1. A thermal energy storage device for a passenger compartment, comprising a first refrigerant circuit comprising an engine and a heater coil with hot refrigerant coming from the engine to the heater coil to form a positive thermal potential in the heater coil; the main air conditioning circuit, comprising a compressor, a condenser, a receiver for the cooling medium, a measuring device, an evaporator, first means for interrupting the flow of the cooling medium into the evaporator and intended to form a negative thermal potential in the evaporator, a pipeline and a fan for supplying air to the car, the pipeline has inlet and outlet, heater coil and evaporator, both located in the pipeline, heat storage means containing closed a volume of heat storage medium in order to maintain at least one of a negative thermal potential and a positive thermal potential; coil for direct expansion of the cooling medium, in order to supply negative thermal potential to the heat storage medium during the negative thermal potential input cycle, refrigerant coil, to supply positive thermal potential to the heat storage medium during the positive thermal potential input cycle, an additional fan, designed to form a flow air in order to restore and use the thermal potential from the means of accumulated thermal energy for air conditioning air conditioning and returning the air conditioning to the cabin during the heat potential removal cycle, an additional cooling medium circuit comprising said direct expansion coil of the cooling medium in direct contact with the heat storage medium to form a negative thermal potential in the heat storage medium, the additional cooling medium circuit is in communication with the compressor, condenser and cooling medium receiver of the main air conditioning circuit so that provide a flow of cooling medium to the direct expansion coil, and second means for interrupting said flow to the direct expansion coil, a second refrigerant circuit to form a hot refrigerant stream into the heat storage medium, while the second refrigerant circuit contains third means for interrupting the supply of hot refrigerant to the second a refrigerant circuit, the third means for hydraulically communicating with the first refrigerant circuit, the first air conditioning control means and for actuating the compressor and the first means and a control system for selecting one of the input cycles of the negative thermal potential and for actuating the compressor and the second means for accumulating the negative thermal potential and the input cycle of the positive thermal potential and for activating the third means in the second refrigerant circuit for storage positive thermal potential and for the termination of the functioning of both the second and third means, when they do not participate in the input cycle thermal potential, the control system regulates the flow of coolant through an additional circuit of the coolant to allow the flow of coolant through the direct expansion coil of the coolant and the resulting accumulation of negative thermal potential in the heat storage medium without taking into account the fact that the control system allows the flow of refrigerant through the coil a heater to warm the car interior, and the aforementioned control system regulates the flow of refrigerant through the coil refrigerant wick to allow the accumulation of positive thermal potential in the heat storage medium without taking into account the fact that the control systems allow the flow of refrigerant through the heater coil and the resulting heating of the vehicle interior and without taking into account the fact that the control system allows the flow of the cooling medium through the main circuit air conditioning, to remove heat from the passenger compartment, the control system regulates the operation of the additional fan in order to the formation of an air stream for restoring the thermal potential from the thermal energy storage means to condition the air and return the conditioned air to the passenger compartment during the heat potential removal cycle without relative fan status.

2. The system of claim 1, further comprising a first enclosure for enclosed volume, a second enclosure forming an air gap between itself and the first enclosure, and a fan for venting air from the passenger compartment so that this air passes through the air gap to condition the exhaust air , and to return the conditioned air to the cabin during the heat removal cycle.

3. The system of claim 1, further comprising a transfer circuit including a first heat exchange coil in heat exchange contact with the heat storage medium, a second heat exchange coil for generating heat potential in the cabin, a circuit with a pump for circulating a heat exchange medium between the first and second heat exchange coils and a fan designed to allow air to pass through the second heat exchanger coil to condition the air and to return conditioned air to the cabin during the qi la heat removal capacity.

4. The system of claims. 1, 2 or 3, in which the heat storage medium contains phase transition material.

5. The system of claims. 1, 2 or 3, further comprising second control means for preventing the accumulation of thermal potential at the time of engine operation and for allowing the cycle of thermal potential removal when the engine is not operating.

6. The system of claims. 1, 2 or 3, further comprising a third control means installed with open access to it by the driver of the car to enable the heat potential removal cycle.

7. The system of claims. 1 or 2, further comprising a temperature sensing means to turn on and off the fan of the heat storage means during the heat removal cycle depending on the temperature in the cabin.

8. The system of claim 3, further comprising a temperature sensing means to turn on and turn off the fan of the heat storage means and the pump of the circulation circuit of the heat exchange medium between the first and second heat exchange coils during a heat recovery cycle depending on the temperature in the cabin.

9. The system of claims. 1, 2 or 3, further comprising a safety device for disconnecting the compressor when at least one of the suction pressures of the cooling medium in the compressor drops below a predetermined pressure, when the discharge pressure of the compressor exceeds a predetermined pressure and when the suction temperature of the cooling medium drops below a predetermined temperature .

10. The system of claims. 1, 2 or 3, further comprising fourth control means for shutting down the first means in order to interrupt the flow of cooling medium into the evaporator of the main air conditioning circuit in the case when both the first means and the second air conditioning regulator are electrically excited to accumulate negative thermal potential in the thermal energy storage means, the second means being kept open to charge the thermal energy storage means o heat-negative potential.

11. The system of claims. 1, 2 or 3, in which the control system comprises a timer for alternately actuating the first means to allow the flow of cooling medium to the evaporator of the main air conditioning circuit, and the second means to allow the flow of cooling medium to the additional cooling circuit.

12. The system of claims. 1, 2 or 3, in which the control system includes a fourth control means for turning on and off the third means for accumulating positive thermal potential.