KR200197898Y1 - Thermocouples electric power generating system by utiliting waste energy of cooling and heating system. - Google Patents

Abstract

The present invention heats high-efficiency electric energy and cell-semio oil at high temperature in the midnight electricity-cooling and heating equipment, attaches thermocouples module to the outer wall of the boiler tank, and uses the latent heat of midnight electrical equipment as the thermocouples module. It is about the device which lasts and can get the highest thermal efficiency, and is air-conditioning. In order to suppress the failure of the electric heater and corrosion of the heater film in the hot water, the cell box is heated in the heater box to increase the thermal conductivity, thereby extending the performance and life of the heater, and preserving the heat energy absorbed by the heat exchanger for a long time. By attaching a plurality of thermocouple modules to the outside of the boiler tank, it is configured to supply sufficient heating and hot water. Conventional late-night electric equipment absorbs the heat of the medium while passing water through the use of heating and hot water only. Since the hot water is a cause of deterioration of the performance of the heater, the present invention can be used at the same time heating and hot water at the same time as the standard of the various late-night electric boilers, electric heater operation by using low-cost power in the middle of the night with Celsemi oil Bismustelur compound base semiconductor (Bismuth Telluride) Thermocouples module composed of Based Semiconductors is a serial / parallel connection supply system, which is made by hot rolling, and has strong tensile strength and thermal strength that normally operates without requiring continuous cooling from 250 ℃ to 400 ℃. Since the power generation is made from 30 ℃ to 300 ℃ can be used continuously as a wide range of energy utilization.

Description

Thermocouple power generation system using cooling and heating waste heat. {Thermocouples electric power generating system by utiliting waste energy of cooling and heating system.}

The present invention heats high-efficiency energy of Celsius oil and Celsio oil at high temperature, and attaches thermocouples module to the outside of boiler tank by natural circulation type, and maintains latent heat of late-night electricity as a thermocouple module. The present invention relates to cooling, heating, and hot water that can be used to convert high-efficiency thermal energy into electrical energy through heat exchangers by heating Celsemio oil in an electric generator and a heater box.

The midnight electric machine according to the present invention is a midnight electric boiler as shown in FIG. 2 before the external operation of the boiler.The thermocouples composed of Bismuth Tellurde Compound Semiconductors (Bismuth Telluride Based Semiconductors) are mounted directly on the outside of the water tank. The parallel power generation system is controlled by temperature detection, which is a parallel application system to supply sufficient heat to simultaneously use cooling, heating and hot water in any case. Conventional late-night electric boilers were used exclusively for heating and hot water, and because of the lack of heat, only the volume of equipment increases the cost, which burdens consumers and occupies a lot of facility space. It was a difficult task to produce. Therefore, the present invention is to provide energy with high efficiency that can solve these problems, minimizing construction cost by miniaturization and improving facility standards. The thermocouples module and Celsemio oil is designed to use the high efficiency of heating and hot water while preserving for a long time without heat loss.

The purpose of the present invention is to supply the cooling, heating and hot water sufficiently, and to use the high-efficiency late-night electric equipment at low cost, and to heat the cesemio oil through the heat exchanger to continuously heat the DC / AC heater. As the electricity is supplied, the tank capacity can be reduced, and the device itself can be made smaller and lighter, and the difficulty of securing space in the residential environment can be solved. It is to develop into a circle to provide sufficient heating and hot water.

1 is a block diagram of a heating device of a midnight electric machine according to the present invention

Figure 2 is a perspective view showing the mounting of the thermocouple according to the present invention

3 is a structural diagram of a thermocouple forming apparatus used in the present invention.

Figure 4 is a graph showing the voltage current curve according to the temperature change of the embodiment.

Figure 5 is a graph showing the power, voltage, efficiency according to the temperature change of the embodiment.

Figure 6 is a graph showing the load resistance of power, voltage, current.

<Description of the code | symbol about the principal part of drawing>

1. Midnight Electric Equipment 2. Celsemio Oil 3. Thermocouple 4. Fixed Bracket

5. Bismuth Tellurium Compound Base Semiconductor 6. Outlet 7. Inlet 8. Heat Exchanger

9. Electric heater 10. Refill water tank 11. Refill oil tank 12. Current and voltage curve graph

13. Power Graph 14. Voltage Graph 15. Efficiency Graph 16. Load Resistance Polarity Table

16.DC-DC converter (CONVERTER) 17. Bolt 18. Thermometer 19. Polyurethane foam

According to the present invention, in a device for using cooling, heating, and hot water using high-efficiency late-night electric equipment (1) with high-efficiency energy, the late-night electric equipment (1) is a high-efficiency thermostat in a facility where heating and hot water must be installed respectively. By mounting the Thermocouples (3) module, a sufficient amount of thermal energy is provided and the thermal energy is converted into a thermal power generation system for thermocouple applications so that it can be used continuously over time. Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows. 1 is a heating device configuration of the late-night electrical appliance 1 according to the present invention is a heating and hot water in the late-night electrical appliance 1, each separated. As shown in the thermocouples (3) mounting according to the present invention, the electric heater (9) generates heat from the Celsemio oil (2), by using a heat exchanger (8), the bismerstellurium compound base It is equipped with thermocouples (3) module composed of Bismuth Telluride Based Semiconductors (5), and it is a fixed bracket for application system that is parallel to the midnight electricity with the difference of DC and AC temperature detection with direct and parallel power generation system. 4) If it is fixed and insulated to prevent heat loss, latent heat is used during midnight electricity supply or even at the end of time, so the electrical energy generated from the thermocouples (3) module is converted into thermal energy to maintain the set temperature. have. Therefore, as one of the late-night electric equipment 1, a heat source capable of sufficiently using heating and hot water is continuously supplied, thereby having a high efficiency value. Thermocouples (3) module consists of one configuration, with power of 19 Watts, load voltage of 2.38 Volts, internal resistance of 0.3 A, current of 8 Amps, no-load voltage of 5.0 Volts, efficiency of 4.5 Biologically composed of Bismuth (symbol Bi No. 83) tellurium compound base semiconductor (5), which consists of a single-wire copper wire, and NEO-21GA consists of a number of thermocouples. (3) The module is electrically connected in series and thermally in parallel. It is made by hot rolling and has strong tensile strength and thermal strength. It does not require continuous cooling from 250 ℃ to 400 ℃. 3 and 4, 5, and 6 to supply sufficient heat to the midnight electric appliance 1 so as to be used at the same time, the current and voltage curve graph according to the temperature change ( 12), power Graph 13, an efficiency graph 14, the load resistance, as shown in all of the cold-polarity Table 15. Electric equipment using heat is a power generation system with a very high temperature dependence.

As described above, the present invention incorporates a thermocouple module into a midnight electric appliance cooling / heating system, thereby continuously applying thermal conductivity to a proper temperature and energy midnight by using high heat conduction of the heater heat exchanger 8 and the Celsemio oil 2. It is a fundamental energy generation saving system that can meet the shortage of electricity, and heating and hot water can be used simultaneously in the conventional midnight electric equipment standard, so that a high-efficiency energy source is developed, saving and convenience. Calorie operation of the thermocouple module operates normally without requiring continuous cooling from 30 ℃ to 300 ℃, so that it can be used continuously.Thermal energy is converted into electrical energy and the electrical energy is combined with thermal energy. By doing so, it aims to minimize heat loss.

Claims (3)

A device that can obtain high efficiency by attaching high-efficiency electric energy and thermocouples module of midnight electric heating equipment to the outside of boiler tank to heat Celsio oil at high temperature, and absorbed by the heat exchanger inside the midnight electric heating tube By installing a number of thermocouple modules on the outside of the pipe to preserve heat energy, waste heat generated during midnight electricity operation is developed into high-efficiency electric energy, minimizing heat dissipation loss and drastically reducing fuel, thereby heating and hot water economically. It is characterized by sufficient supply. The thermocouple module according to claim 1, wherein the thermocouple module is combined with a midnight electric appliance cooling / heating system, and the heat conduction of the heater heat exchanger (8) and the Celsemio oil (2) is continuously conducted. In order to improve efficiency in time, it is a secondary device equipped with a thermocouple module outside the late-night electric equipment and supplies energy using waste cooling and heat from fuel reforming, so it is widely used as a saving energy source without heat loss. In order to prevent electric heater failure and corrosion of the heater film of the electric equipment, heat the Celsemi oil in the heater box to increase the thermal conductivity so that the performance and life of the heater can be extended and the heat energy absorbed by the heat exchanger can be preserved for a long time. As the efficiency is higher than the existing midnight electric equipment, A cogeneration system for self-consumption mountains. The thermocouples module of claim 1, which is composed of Bismuth Telluride Based Semiconductors, is made by hot rolling to provide a high tensile and thermal strength of 250 ° C-400 ° C without the need for continuous cooling. It is intended to provide enough heating and hot water by developing into an energy source of high efficiency heat source.