TH11673C3 - Power generation equipment from air conditioners - Google Patents

Abstract

DC60 (20/01/16) equipment for generating electricity from air conditioners according to this invention. Is an air conditioner with production equipment Electricity from heat obtained by refrigerant It is installed between the compressor (1) and the cooler (2). The refrigerant that leaves the compressor (1) becomes superheated. Have high pressure and temperature This refrigerant flows into the power generation equipment (5) which consists of The heat exchanger (13), the refrigerant inlet tube (10), the refrigerant outlet tube (11), and the thermoelectric (12). Heat transfer to thermoelectric (12) and thermoelectric (12) will serve to generate electricity. Invention Is an air conditioner with production equipment Electricity from heat obtained by refrigerant It is installed between the compressor (1) and the cooler (2). The refrigerant that leaves the compressor (1) becomes superheated. Have high pressure and temperature This refrigerant flows into the power generation equipment (5) which consists of The heat exchanger (13), the refrigerant inlet tube (10), the refrigerant outlet tube (11), and the thermoelectric (12). The heat is transferred to the thermoelectric (12) and the thermoelectric (12) produces electricity. .................................................. .................................................. .................................................. ......... Edit summary of the invention 18/8/2015 (11/8/2015) equipment to generate electricity from air conditioners according to this invention. Is an air conditioner with production equipment Electricity from heat obtained by refrigerant It is installed between the compressor (1) and the cooler (2). The refrigerant that leaves the compressor (1) becomes superheated. Have high pressure and temperature This refrigerant flows into the power generation equipment (5) which consists of The heat exchanger (13), the refrigerant inlet tube (10), the refrigerant outlet tube (11), and the thermoelectric (12). The heat is transferred to the thermoelectric (12) and the thermoelectric (12) produces electricity. -------------------------------------------------- -------------------------------------------------- ----------------------------------------- Air conditioner from this invention It is an air conditioner with electrical equipment from the heat obtained. From refrigerant Installed between the compressor and the passenger air cooler Out of the refrigerant, it will become superheated. With high pressure and temperature, this refrigerant flows. It enters the power generation equipment (5) according to Figure 1, which consists of Figure 2, heat exchanger (4), refrigerant conduit (1), refrigerant outlet pipe (2), and terminal. Moelectric (3), the refrigerant will be transferred The heat produces the thermoelectric and the thermoelectric produces electricity.

Claims (1)

Claims (all) which will not appear on the advertisement page: Amendment 8/1/16 1. Air-conditioning equipment from this invention Which consists of Compressor (1) Cooler (2) Flow control and pressure reducing device Refrigerant (3) Evaporator (4) Power generation equipment (5) Cooler fan (6) Evaporator fan (7) ) Hot coil set (8) Cooling coil set (9) Air conditioner power generation equipment A special feature is the provision of heat exchanger (13) with rectangular shape made of aluminum. Inside there is space to accommodate the refrigerant that flows from The compressor (1) has a hose (10) for refrigerant to flow in and a hose (11) for refrigerant to flow out. When the refrigerant enters the heat exchanger (13), the heat from the refrigerant is transferred to the The thermoelectric (12), which is attached around the heat exchanger (13), the thermoelectric (12) produces electricity. The design allows refrigerant to flow into the power generating equipment (5) to transfer the It heats the thermoelectric (12) and converts thermal energy into electrical energy. -------------------------------------------------- ----- Edit 18/8/2015 (11/8/2015) 1. Equipment to generate electricity from air conditioners from this invention Which consists of Compressor (1) Cooler (2) Flow control and pressure reducing device Refrigerant (3) Evaporator (4) Power generation equipment (5) Cooler fan (6) Evaporator fan (7) ) Hot coil set (8) Cooling coil set (9) Air conditioner power generation equipment A special feature is the provision of heat exchanger (13) with rectangular shape made of aluminum. Inside there is space to accommodate the refrigerant that flows from The compressor (1) has a hose (10) for refrigerant to flow in and a hose (11) for refrigerant to flow out. When the refrigerant enters the heat exchanger (13), the heat from the refrigerant is transferred to the The thermoelectric (12), which is attached around the heat exchanger (13), the thermoelectric (12) produces electricity. The design allows refrigerant to flow into the power generating equipment (5) to transfer the It heats the thermoelectric (12) and converts thermal energy into electrical energy. This is a special characteristic. Of equipment to generate electricity from air conditioners according to this invention -------------------------------------------------- -------------------------------------------------- ---------------------------------- 1. Air conditioner from this invention It consists of compressor (1) air cooler (2) flow control and refrigerant pressure reducer (3) evaporator (4) power generation equipment (5) which are special equipment in this invention. Cooler fan (6) Evaporator fan (7) Hot coil set (8) Cooling coil set (9) where electricity can be generated by using a thermoelectric to generate electricity from The Hot with refrigerant The air conditioner from this invention as shown in Figure 4 has a working principle starting from The compressor (1) compresses the refrigerant vapor until at high pressure and temperature as superheated vapor flows into the power generation equipment (5) .The heat from the refrigerant is transferred to the thermoelectric. Stuck around the power generating device, and then the refrigerant flows into the cooler (2) to cool the substance. Cool again The refrigerant leaves the cooler. In a state of liquid flowing through the device Control the flow rate and reduce the pressure (3) and flow to the evaporator (4) receive heat from inside the air-conditioned chamber, the refrigerant will evaporate, change from liquid to vapor, and return to the compressor.