| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 062324400 | With refrigerant collection and intermittent discharge | 6 |
| 20090139255 | DEVICE FOR INCREASING THE HEAT OUTPUT AND ENERGY STORAGE IN A HEAT PUMP - A device for controlling the heat output of a heat pump, with a storage circuit, wherein heat energy can be stored in a storage container, comprises means for receiving a volume flow of a heat carrier medium from a condenser of the heat pump and means in the circuit of the heat carrier medium for controllably feeding a volume flow of the heat carrier medium from a condenser of the heat pump to a desuperheater. In an embodiment of the invention, the device further comprises means in the refrigeration circuit of the heat pump for feeding the heat carrier medium from the desuperheater to the condenser of the heat pump. | 06-04-2009 |
| 20100175413 | HEAT STORAGE DEVICE - A heat storage device that includes a first heat storage material and a second heat storage material, both of which accumulate heat by heat exchange with a heat afferent medium, and a changeover device that selectively either performs or intercepts heat storage by the second heat storage material. Accordingly, if the absorption of heat by the first heat storage material has decreased, the changeover device changes flow of the second heat storage material so that heat may be extracted from the heat afferent medium by the second heat storage medium. Thus, when the heat afferent medium is a refrigerant, it is possible to supercool the refrigerant thereof. Furthermore, since heat is extracted from the heat afferent medium and is accumulated, accordingly it is possible to anticipate effective utilization thereof. | 07-15-2010 |
| 20110120167 | Room Air Conditioner And/Or Heat Pump - A room air conditioner and/or heat pump is shown with a main control and a user interface. The user interface is mounted on a user interface mount attached to the front of a main unit, but behind the bezel. The user interface mount is used to (a) insert or remove the main unit, (b) secure and protect wiring cables, (c) mount the user interface thereon, (d) direct a filter into position, (e) provide a slot for a fresh air slide, and (f) direct a bezel into position. A main control housing allows access there through to a main control circuit board, but prevents moisture from dripping on the main control circuit board. A dual filter element is located behind a double hinged door. Channels and flanges direct and secure the bezel into position. | 05-26-2011 |
| 20120247142 | Heat Pump Pool Heater Start-Up Pressure Spike Eliminator - In a heat pump pool heater, undesirable compressor-created pressure spikes resulting from start-up of the heater after extended idle periods thereof are substantially eliminated by the incorporation in the heat pump refrigerant circuit of a specially designed pressure spike eliminator structure. The spike eliminator structure includes an enclosed hollow wall structure extending around a first refrigerant tubing portion disposed between the heat pump circuit compressor and condenser and forming a cavity around the first refrigerant tubing portion, and a transfer tube directly connected to a second refrigerant tubing portion disposed between the condenser and expansion valve and intercommunicating the interiors of the cavity and the second refrigerant tubing portion. | 10-04-2012 |
| 20150020536 | HEAT PUMP SYSTEM CAPABLE OF ADJUSTING AMOUNT OF REFRIGERANT STORED IN LIQUID RECEIVER - A heat pump system includes a liquid receiver valve that adjusts the amount of a refrigerant stored in a liquid receiver so that a circulation amount of the refrigerant that circulates the heat pump system can be adjusted according to a driving speed of a compressor and performance of the compressor and the heat pump system can be further improved. Also, since a plurality of liquid receiver refrigerant outlets can be selectively opened using a pressure difference between an inlet and an outlet of the compressor, active control can be performed. | 01-22-2015 |
| 20150075202 | REFRIGERATION DEVICE - A refrigeration device includes a compressor, an outdoor heat exchanger, an expansion mechanism, an indoor heat exchanger, and a storage tank. The compressor, the outdoor heat exchanger, the expansion mechanism and the indoor heat exchanger are connected to each other. During a cooling operation, a refrigerant flows sequentially through the compressor, the outdoor heat exchanger, the expansion mechanism, and the indoor heat exchanger. During a heating operation, the refrigerant flows sequentially through the compressor, the indoor heat exchanger, the expansion mechanism, and the outdoor heat. The storage tank is configured to store the refrigerant and is provided between the outdoor heat exchanger and the expansion mechanism. The refrigeration device uses R32 as the refrigerant. A capacity of the outdoor heat exchanger is less than or equal to a capacity of the indoor heat exchanger. | 03-19-2015 |
