KR20100034400A - The air conditioning system which uses a chemical energy and the catalyst reagent - Google Patents

Abstract

PURPOSE: An air-conditioning system using chemical energy and catalyst reagent is provided to facilitate transport and installation and to save energy. CONSTITUTION: An air-conditioning system using chemical energy and catalyst reagent comprises a circulating pump(1), a cooling pipe line, and a heating pipe line. Heat radiation and absorbing reagent passes through heat and radiation and absorbing catalyst reagent by circulating through the circulating pump and cools or heats the cooling or heating pipe line. The cooled or heated air is sucked through a pipe line and discharged. The reagent from the cooling or heating pipe line is returned to a reagent container, circulated through the circulating pump, and passes through the reagent container and then through gas. The cooling water produced in the cooling or heating pipe line is collected in a cooling water tank and used for humidification control.

Description

The air conditioning system which uses a chemical energy and the catalyst reagent

When the thin endothermic reagent of FIG. 1 of the present invention is circulated with a circulation pump and passed through the endothermic catalyst reagent, the catalyst reagent reacts to cool the endothermic reagent in the pipe. It is a device that sucks cold air through the pipe and discharges it to the discharged motor or fan.The cooling endothermic reagent in the cooling pipe returns to the endothermic reaction reagent and goes to the circulation pump to pass through the endothermic reaction reagent reagent. Repeat the process of passing the gas again.

When this process is repeated, the gas comes out as gas when it exits the cooling pipe, and when it enters the cooling pipe, it enters the liquid and cools the cooling pipe quickly.

Cooling water from the cooled pipes is collected in the cooling water tank and the cooling water is used for humidification control again.

The temperature may be adjusted according to the size and amount of the reagents of the endothermic reaction reagent and the amount of the reagent and the amount of the reagent of the endothermic reaction reagent, or the temperature may be adjusted according to the length of the cooling pipe and the amount of gas.

1, 1 and 2 of Figure 1, the exothermic reaction reagent and catalyst reagent in the Seebeck effect is made of a thermoelectric power, and 2 of Figure 1, Na, Ra 2 endothermic reaction reagent and catalyst reagent 2 vessels If you create a cold air force, and 1, 3 of Figures 1 and 3, the exothermic reaction weakness and the endothermic reaction weakness makes the cold, heat electromotive force is generated. When N boxes are connected to each other, high thermal power and cold air power are generated.

1, 4 and 4 of FIG. 1 show that the thermoelectric element or thermoelectric element is connected in the middle of two exothermic reaction reagents, and the heat generated from the Seebeck effect and the heat generated from the thermoelectric element or the thermoelectric element are combined to generate very high heat. .

1, 5 and 5 of FIG. 1 show that when the thermoelectric element or the thermoelectric generator is connected in the middle of two endothermic reaction reagents, the cold air power generated by the Seebeck effect and the heat generated by the thermoelectric element or the thermoelectric generator are combined to generate the cold air power.

1, 6 and 6 of FIG. 1 show that the thermoelectric element or the thermoelectric element is connected between the exothermic reaction reagent and the endothermic reaction reagent. Each N connection will produce a very high thermoelectric and cold power, designed to reduce the heat and cold from the opposing thermoelectric or thermoelectric elements.

1, the exothermic reaction reagent is circulated with a circulation pump and passes through the exothermic reaction catalyst reagent, and the catalyst reagent reacts to heat the exothermic reaction reagent in the pipe. It is a device for discharging out of the motor or ventilator that inhales and releases the hot air through the pipe, and the exothermic reagent in the heating pipe returns to the exothermic reagent, goes to the circulation pump, passes through the exothermic reaction reagent, and passes the gas again. Repeat the process. When this process is repeated, the gas comes out as a gas when it comes out of the heating pipe, and as a liquid when it enters the heating pipe, it heats up the heating pipe quickly.

Cooling water from the heated piping is collected in the cooling water tank and the cooling water is again used for humidification control.

The temperature can be adjusted according to the size of the exothermic reagent and the reagent amount and the size of the exothermic catalyst reagent and the amount of catalyst reagent, or the temperature can also be adjusted according to the length of the heating pipe and the amount of gas.

1, 2, 3, 4, 5, and 6 of FIG. 1 are combined with (1), (2) and (3) of FIG. 1, and 1, 2, 3, 4, 5, When 6 is combined with (1), (2), and (3) of Fig. 1, it becomes a cooling and heating device that does not require commercial electricity.

Current air conditioners and heaters install outdoor units on the exterior of apartments, so the pipes are discharged to the outside, so they are not aesthetically pleasing, and the installation is complicated and fixed. In addition, there is a cost of iron and installation every time you move, and can not be used at will can not function properly as a cooling and heating.

The present invention does not require an outdoor box installed in the exterior of the apartment because there is no outdoor unit, there is no piping, easy to move, easy to install, using electricity generated by itself without using commercial electricity to heat and cool Because no electricity or gas is used, it is a device that can be used freely in summer or winter.

The present invention is a variety of problems that the piping for supplying the refrigerant between the indoor unit and the outdoor unit constituting the air-conditioner ① ① a lot of electricity bills can not be used for a long time. ② Installation is complicated because of outdoor unit installation. ③ It takes up a lot of area, and once installed, it is impossible to move. ④ In case of moving, it shall bear the cost of removal and installation. ⑤ The temperature of the outside is increased further by the hot air from the outdoor unit. Therefore, this problem can be solved by eliminating the outdoor unit and piping. There is no need for an outdoor box, no pipes, easy movement, easy installation, and no electricity. Therefore, it aims to develop a device that saves energy that is dependent on imports, helps the national profit, enables all citizens to fly cool in summer, and also warms the indoor space by acting as a hot air fan in winter.

In the present invention, the endothermic reaction reagent is circulated with a circulation pump to pass the endothermic reaction catalyst reagent so as to act as a conventional air conditioner, the catalyst reagent reacts to cool the endothermic reaction reagent in the pipe, and the cooling passes through the gas. A device that cools at a faster time and discharges the cooling out to a motor or a fan that sucks and releases cold air through a pipe, and the cooling endothermic reagent in the cooling pipe returns to the endothermic reaction reagent and goes to the circulation pump for endothermic reaction. Pass the catalyst reagent and repeat the gas again.

When this process is repeated, the gas comes out as gas when it exits the cooling pipe, and when it enters the cooling pipe, it enters the liquid and cools the cooling pipe quickly.

Cooling water from the cooled pipes is collected in the cooling water tank and the cooling water is used for humidification control again.

The temperature may be adjusted according to the size and amount of the reagent of the endothermic reaction reagent and the amount and the reagent amount of the catalyst of the endothermic reaction, or the temperature may be adjusted according to the length of the cooling pipe and the amount of gas.

If the two vessels are made of exothermic reaction catalyst and catalyst reagent in the Seebeck effect, the heat will be generated. If the two vessels are made of endothermic reaction reagent and catalyst reagent, cold power will be generated, and if the exothermic reaction reagent and endothermic reaction reagent are made, Cold and hot electromotive force is generated. When N boxes are connected to each other, high thermal power and cold air power are generated.

If the thermoelectric element or thermoelectric element is connected in the middle of two exothermic reaction reagents, the thermoelectric power generated from the Seebeck effect and the heat generated from the thermoelectric element or thermoelectric element are combined to generate very high heat.

If a thermoelectric element or thermoelectric element is connected in the middle of two endothermic reaction reagents, the cold air power generated by the Seebeck effect and the heat generated by the thermoelectric element or thermoelectric element are combined to generate the cold power.

When exothermic reaction reagent and endothermic reaction reagent are connected between thermoelectric element or thermoelectric generator, cold and thermal electromotive force is generated. Each N connection will produce a very high thermoelectric and cold power, designed to reduce the heat and cold from the opposing thermoelectric or thermoelectric elements.

When the exothermic reaction reagent is circulated with a circulating pump and passes through the exothermic reaction catalyst reagent, the catalyst reagent reacts and the exothermic reaction reagent in the pipe is heated.If the heating passes through the gas, the exothermic reaction reagent is heated at a faster time and the hot air is heated through the heating pipe. It is a device for discharging to the outside by inhaling and discharging the motor or ventilator, and the exothermic reaction reagent in the heating pipe returns to the exothermic reaction reagent, goes to the circulation pump, passes through the exothermic reaction reagent reagent, and passes the gas again. .

When this process is repeated, the gas comes out as a gas when it comes out of the heating pipe, and when it enters the heating pipe, it enters the liquid and heats up the heating pipe quickly.

Cooling water from the heated piping is collected in the cooling water tank and the cooling water is again used for humidification control.

The temperature can be adjusted according to the size of the exothermic reagent and the reagent amount and the size of the exothermic catalyst reagent and the amount of catalyst reagent, or the temperature can be adjusted according to the length of the heating pipe and the amount of gas.

The present invention is easy to manufacture, the production cost is low, the unit price is low, anyone can easily purchase, installation is easy because there is no outdoor unit and piping, there is no outdoor unit installed on the outside wall of the apartment, there is no need for commercial electricity and heating Energy saving is possible because it does not need gas, so it can be used most economically, and it is easy to move and install. And the application of the present invention is possible to develop a variety of energy saving device.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Cooling system schematic diagram using air thin chemical energy and catalyst reagent of FIG.

1, I, called DC electricity production model diagram without the need for commercial electricity

1 is a schematic diagram of a heating system using chemical energy and a catalyst reagent (heater)

2 is a TEM assembly diagram of the Peltier effect thermoelectric element assembled

Fig. 3 is a circuit diagram and specification diagram of two kinds of semiconductor Peltier effect with potential difference.

Fig. 4 is a specification diagram of two kinds of semiconductor seeding effect with temperature difference

4-1 is an assembly drawing (MATD) of a semiconductor backing effect of two metals having a temperature difference.

5 is a circuit diagram of the Seebeck effect using the temperature difference.

6 is a view of the Seebeck effect in which electromotive force is generated by temperature difference

Conductor box with thin temperature difference of FIG.

10 is a specification diagram of connecting two conductors in series and parallel using the Seebeck effect

11 is a combined specification of the Peltier effect (thermoelectric element or thermoelectric element) and Seebeck effect.

Exothermic reaction reagent made of thin double-conductor of Figure 12 (baekbaek effect)

Figure 12 I endothermic reaction reagent made of two-conductor box (whitening effect)

15 is exothermic reaction with a catalyst reagent

Figure 16 is an endothermic reaction with a catalyst reagent

17-1 is a circuit diagram for neutralizing the exothermic reaction reagent by adding water, distilled water, and distilled water.

1 is a schematic diagram of an air conditioning system using chemical energy and a catalyst reagent according to the present invention (air conditioner)

Figure 1 of Figure 1 is a DC electricity production model without commercial electricity according to the present invention model

1 is a schematic diagram of a heating system using a chemical energy and a catalyst reagent according to the present invention (heater)

2 is a Peltier effect TEM assembly according to the present invention

Figure 3 is a circuit diagram and specification of the Peltier effect according to the present invention

Figure 4 is a specification of the Seebeck effect according to the present invention

Figure 4-1 is an assembled view (MATD) of the Seebeck effect in accordance with the present invention

5 is a circuit diagram of the Seebeck effect of the present invention.

6 is a shape of the Seebeck effect of the present invention

Figure 10 is a conductor box having a temperature difference of the present invention

10 is a diagram in which two conductors are connected in series and in parallel using the Seebeck effect of the present invention.

11 is a combined specification of the Peltier effect (thermoelectric element) and the Seebeck effect of the present invention.

12 is an exothermic reaction reagent made of two conductor box of the present invention (baekbaek effect)

12 is an endothermic reaction reagent made of two conductors of the present invention (baekbaek effect)

15 is exothermic reaction of the present invention (catalyst reagent injection)

Figure 16 is an endothermic reaction of the present invention (catalyst injection)

Figure 17-1 is a circuit diagram for neutralizing the exothermic reaction reagent of the present invention

Claims (6)

The present invention circulates the foot and the endothermic reaction reagent with a circulation pump, passes through the foot and the endothermic reaction catalyst reagent, and the catalyst reagent reacts to cool and heat the cooling and heating pipes. A cooling and heating device for discharging the cooled and heated air through a pipe and discharging it out to a fan or a fan. In 1 above The cooling endothermic reagent in the cooling and heating piping is returned to the endothermic reagent and the heating exothermic reagent is returned to the circulating pump and passes through the foot, the endothermic reaction reagent and the gas again. However, when this process is repeated, the gas is cooled, and when it exits the heating pipe, the gas comes out as gas, and when it enters the heating pipe, the cooling and heating system quickly cools and heats the heating pipe. In 1 above Cooling water generated from the cooled and heated pipes is collected in the cooling water tank and the cooling water is used for humidification control again. In 1 above A heating and cooling device that can control the temperature according to the size and reagent amount of the foot and the endothermic reaction reagent, and the size and catalyst amount of the foot and the endothermic reaction reagent reagent or the temperature according to the cooling, heating piping length, and the amount of gas. In 1 above If the two vessels are made of exothermic reaction catalyst and catalyst reagent in the Seebeck effect, the heat will be generated. If the two vessels are made of endothermic reaction reagent and catalyst reagent, cold power will be generated, and if the exothermic reaction reagent and endothermic reaction reagent are made, Cold and hot electromotive force is generated. If each box is connected to N, high heat and cold power will be generated. In addition, if the thermoelectric element or thermoelectric element is connected in the middle of the exothermic reaction reagent, the thermoelectric power generated from the Seebeck effect and the heat generated from the thermoelectric element or the thermoelectric element are combined to generate very high heat. In addition, if a thermoelectric element or thermoelectric element is connected in the middle of the endothermic reaction reagent, the cold power generated by the Seebeck effect and the heat generated by the thermoelectric element or thermoelectric element are combined to generate very cold power. In addition, if a thermoelectric element or a thermoelectric element is connected between the exothermic reaction reagent and the endothermic reaction reagent, cold and thermal electromotive force is generated. When N boxes are connected to each other, very high heat and cold power are generated. The heating and cooling system is designed to reduce heat and cooling from the opposing thermoelectric element or thermoelectric element. In paragraph 5 above It is made by the Seebeck effect and produces DC electricity that does not need commercial electricity. When combined with a circulation pump, a fan, and a motor that sucks and discharges, it does not need commercial electricity.

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