KR100376220B1 - Heating and cooling device by using a boiler - Google Patents

Abstract

The present invention relates to a heating and cooling device using a boiler, the heater 10 having a combustion means such as a burner and provided with a discharge pipe 12 and an inlet pipe 13, respectively, the heater 10 for heating the tank 11 by the combustion means. Wow;

A heat supply pipe 20 connected to the discharge pipe 12 and the inlet pipe 13 of the heater 10 to circulate the fluid;

A heat exchanger 30 for exchanging heat with the outside according to the temperature of the flow material circulated through the heat supply pipe 20;

It is composed of a vacuum condensation tank 40 to maintain the vacuum in all the pipes interposed between the heat supply pipe 20 and the discharge pipe 12 and the inlet pipe 13 and filled with a flow material to a predetermined height In this way, it is possible to give the user convenience and economic benefits by enabling the use of both cooling and heating.

Moreover, quick heat transfer is possible irrespective of the length of piping, and the thermal efficiency is very high.

In addition, the installation space can be reduced and high heat and low cooling can be generated, and thus it can be applied to various industrial and large-volume buildings.

Description

Heating and cooling device {Heating and cooling device by using a boiler}

The present invention relates to a cooling and heating device using a boiler, and more particularly, by converting the heating medium flowing in the heating tube into a conductive fluid instead of water so as to have a heating function as well as a cooling function, and excellent thermal efficiency. Invented.

Usually, boilers for heating are installed in various buildings such as residential houses and apartments.

The boiler uses gas or oil as a fuel by heating and circulating water with the combustion heat of the burner, and is configured to heat the floor or other rooms by the heating of hot water and steam flowing along the heating tube.

In addition, the air conditioner of the system which cools indoor air is attached for cooling.

As such, when purchasing and installing air boilers for the winter season and air conditioners for the summer season, the economic burden due to the purchase cost is large and occupies a lot of installation space.

In addition, in the case of a boiler, the heat conducting medium circulating the heating tube is made of water, and thus, the temperature of the boiler is not increased by 100 ° C. or higher, and thus, the boiler cannot be used in an industrial or large-scale building requiring high efficiency and high heat.

In addition, the price of the fuel cost is higher than the thermal efficiency, causing a huge economic damage to the user, such as the end.

Meanwhile, the heat exchange principle of a boiler is a system in which combustion heat exchanges heat with air at atmospheric pressure to supply heat to a required position through a heat pipe or a duct, and the heat transfer rate is very slow.

In this case, since both heat exchange of the exhaust gas heat and air is in a vaporized state, the heat transfer coefficient is small, the heat exchanger is small, a recovery pump, a safety device, and the like are required.

In addition, according to the capacity of the boiler, the water tank is large, and the auxiliary water tank, etc. must be provided as a necessity to increase the volume of the entire boiler, which has always had a problem of low thermal efficiency.

In addition, in the hot summer, the boiler must be operated separately without using the boiler. In the case of this air conditioner, the electricity consumption is enormous, which impedes the use of industrial power and suppresses its use due to economic burden. to be.

An object of the present invention is to provide a cooling and heating device using a boiler that can provide a user with convenience and economic benefits by enabling the combined use of cooling and heating.

Another object of the present invention is to provide a cooling and heating device using a boiler to reduce the installation space, increase the safety against explosion due to high pressure and generate high heat can be applied to various industrial sites or buildings of large volumes.

1 is a schematic view showing the entire apparatus of the present invention

Figure 2 is a device showing an embodiment in which the present invention is used as a hot air blower with heating

Figure 3 is an apparatus showing an embodiment in which the piping of the hot water and steam for use by the apparatus of the present invention to be mixed to use the piping

4 and 5 is a device diagram showing a bypass state for temperature control

Explanation of symbols for main parts in the drawings

10-Heater 20-Heat Supply Line

30-Heat Exchanger 40-Vacuum Condensing Tank

50-Blower 60-Fluid supply tank

80-Hot Water Tank 90-Bypass Pipe

An object of the present invention has a heater (10) having a combustion means such as a burner inside the discharge pipe 12 and the inlet pipe 13, respectively, to heat the tank 11 by the combustion means;

A heat supply pipe 20 connected to the discharge pipe 12 and the inlet pipe 13 of the heater 10 to circulate the fluid;

A heat exchanger 30 for exchanging heat with the outside according to the temperature of the flow material circulated through the heat supply pipe 20;

It is composed of a vacuum condensation tank 40 to maintain the vacuum in all the pipes interposed between the heat supply pipe 20 and the discharge pipe 12 and the inlet pipe 13 and filled with a flow material to a predetermined height Is achieved by.

Therefore, in order to reduce the room temperature in the heating and summer in one system according to the temperature change of the flow material can be selectively made.

In addition, it is possible to reduce the economic burden caused by the separate purchase and operation cost of the equipment and to significantly reduce the installation space, as well as increase the safety against explosions and its high thermal efficiency, which can be usefully applied to heating and heating industrial and large buildings. will be.

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

Figure 1 shows a schematic view of the entire apparatus of the present invention shows that a vacuum condensation tank 40 for maintaining a vacuum between the heater 10 and the heat supply pipe 20 is installed.

Figure 2 shows an embodiment in which the present invention is used as a hot air blower by installing a blower with a heating device, Figure 3 is an embodiment in which the heat supply pipe 20 is piped to enable the use of hot water and steam for steam bath mixed use Is shown in the device diagram.

On the other hand, Figures 4 and 5 briefly show the state of adjusting the set temperature by adjusting the bypass amount of the flow material passing through the heat exchanger for temperature control.

The present invention is largely constituted by a heater 10, a heat supply pipe 20, a heat exchanger 30 and a vacuum condensation tank 40 as shown in FIG.

The heater 10 has a combustion means such as a burner and a tank 11 therein, such as a conventional boiler, and heats the tank by the combustion means to heat and cool air through the discharge pipe 12, and then the heat supply pipe. It is a heating device for heating the flow material so as to circulate back to the inlet pipe 13 through (20).

At this time, the burner may be any kind of gas, oil, briquettes, wood, and the like, and any material capable of heating the tank 11 filled with the fluid by the combustion of the burner is satisfied.

The heat supply pipe 20 is connected to the discharge pipe 12 and the inlet pipe 13 of the heater 10 in communication with the vacuum condensation tank 40 therebetween.

The heat supply pipe 20 has a function of a heating tube that circulates the indoor floor as in a boiler and is piped to a desired heating position to heat or cool the room by the heat of the fluid.

The heat supply pipe 20 is provided with a heat exchanger 30 for exchanging heat with outside air according to the temperature of the flow material circulated through the heat supply pipe 20.

The heat exchanger (30) is a heat exchanger installed inside or outside, such as a razor, and the cooling or heating is performed by heat and cold air being heat-exchanged with the outside as fluid flows into the heat exchanger (30). .

At this time, as shown in Figure 2 by installing a blower 50 on one side of the heat exchanger 30 to be blown so as to have a function of a hot air fan or air conditioner to supply heat and warmth indoors and outdoors.

The vacuum condensation tank 40 is a tank interposed between the heat supply pipe 20 and the discharge pipe 12 and the inlet pipe 13 so as to liquefy the flow material flowing into the pipe again.

The most important thing here is to maintain the vacuum in all the pipes in communication with the vacuum condensation tank (40).

The reason is that the flow of vaporized material vaporized by the heating of the heater 10 can be quickly conducted in a vacuum state in the pipe, and also the temperature difference between the discharge pipe 12 and the inlet pipe 13 is very small to prevent heat waste. do.

At this time, as a means for maintaining the inside of the pipe as a vacuum, the condensation tank 40 is connected to the fluid supply tank 60 and the connection pipe 70 connecting the vacuum pump (not shown), respectively, to operate the vacuum pump. The vacuum condensation tank 40 and all the pipes communicated with the vacuum condensation tank 40 are thereby maintained by maintaining the predetermined vacuum pressure in the pipe and then blocking the valve 71.

The vacuum pressure is measured by the vacuum gauge 72 installed in the pipe.

In addition, the temperature gauge 73 can also be installed in several places as needed for the temperature measurement in piping.

And, as shown in Figure 1 through the supply pipe 61 is connected to the supply tank 60 for supply of the flow material supplied into the vacuum condensation tank 40 and the vacuum condensation tank 40, the flow material through the vacuum condensation tank ( After filling the inside of the volume 40 by about 1/2 or less, the valves 62 are shut off for vacuum.

In this way, all the pipes are kept in a vacuum while the fluid is partially filled.

Referring to the working relationship of the present invention configured as described above is as follows.

First of all, the present invention is to rapidly transfer cold and warm air by a thermally conductive fluid that is vaporized and expanded according to an increase in temperature in a vacuum-sealed interior. As the fluid, N, NH3, CH4O, H2O, Hg , Mg, K, Na, Li, Ag and the like.

At this time, the maximum heating temperature and cooling temperature of the temperature appearing according to the kind or vacuum degree of the fluid and the mixing ratio of the composition are determined.

Tests show that the temperature range for N ranges from -200 to -80 ° C, NH3 to -70 to + 60 ° C, CH4O to -45 to + 120 ° C, H2O to +5 to + 230 ° C, and Hg / Mg is + 190 ~ + 550 ℃, K is + 400 ~ + 800 ℃, Na is + 500 ~ + 900 ℃, Li is + 900 ~ + 1500 ℃, Ag is + 1500 ~ + 2000 ℃ It can be seen that heat is generated.

H 2 O is pure distilled water.

By this principle, any one of the above-mentioned fluids is filled in the vacuum condensation tank 40, and by maintaining a vacuum in the pipe, the fluids evaporate when heated in the heater 10, and the heat supply pipe is evaporated. By circulating 20, heat and cold air are generated according to the material within the above range, and the vacuum condensation tank 40 repeats the process of liquefying the fluid again.

In order to reduce the temperature resistance, it is important to clean the inside of all pipes with stainless steel and highly corrosion resistant alloy such as nickel or aluminum, and to select the fluid material and the material to obtain the industrially useful temperature range. It is necessary to adjust the composition ratio according to the use.

Depending on the choice of fluids, -200 ° C is a suitable range for low temperatures and + 2000 ° C for high temperatures, but the minimum temperature is -70 ° C, and the maximum temperature for air conditioning systems such as residential. Will be in the range of +550 ° C.

In the case of industrial cooling and heating systems, the minimum temperature is -200 ° C and the maximum temperature will be in the range of + 2000 ° C.

Therefore, the composition of the fluid is selected to have a range of the appropriate temperature, and if necessary, it may be adjusted to the required cold and high temperature by changing the composition ratio of the fluid.

1 is a schematic diagram of the most basic device of the present invention, in which any one of the fluids is injected into the vacuum condensation tank 40 and the conductive fluid is vaporized when the heater 10 is heated (cooled).

At this time, the vaporization temperature is easily vaporized even at a temperature lower than the vaporization temperature of the water is about 100 ℃ easily absorbs the latent heat and is transferred, the transfer speed is very fast because the inside of the pipe has a vacuum state.

In addition, latent heat (cold) is released while condensing at the position of the vacuum condensation tank 40 having the function of the condensation part, and the released heat (cold) is quickly transferred along the heat supply pipe 20 to generate heat and cool. At this time, even if the length of the heat supply pipe 20 is long enough to reach hundreds of meters, it is conducted very quickly without circulating cold and hot temperatures. It can be transported by radiation and convection.

Here, it can be seen that the first start and the end of the heat supply pipe 20 have almost no temperature change due to the difference in length.

Then, when the fluid is condensed in the vacuum condensation tank 40 having the function of the condensation unit, it is repeatedly supplied to the heater 10 in a liquid state.

The heat supply pipe 20 may be provided with as many heat exchangers 30 as necessary.

2 is a view showing an embodiment in which the present invention is used as an air conditioner such as hot air or cold air (air conditioner) by installing a blower 50 on one side of the heat exchanger 30 to exchange heat with outside air to heat or cool air. By blowing through the blower 50, the use of hot air or cold air, and can be used in the drying furnace of dried products for marine products or various industries.

3 shows an embodiment in which the present invention is used as a device for supplying steam in the case of hot water and, for example, steam bath.

That is, the hot water tank 80 by branching the heating coil 81 from the heat supply pipe 20 to the hot water tank 80 in which hot water is filled between the heater 10 and the vacuum condensation tank 40. When is heated to open the valve 82 is to be supplied with hot water according to the water supply valve (85).

In addition, when the hot water tank 80 is heated to open and close the valve 83, the steam for steam bath is to be supplied.

In addition, the high temperature heat transfer from the heat exchanger 30 may have an additional function as the valve 84 opens and closes.

4 is a heat generating (cold) temperature in a manner in which the bypass pipe 90 for bypassing the supply amount of the vaporized fluid supplied to the heat exchanger 30 is connected in parallel, and the movement amount is controlled by the valve 91. It shows an embodiment that can be adjusted.

5 is an embodiment in which the heat generation (cool) temperature can be adjusted by adjusting the temperature of the hot air by piping the bypass pipe 90 in parallel as shown in FIG. 4 when the heat exchanger 30 is used as the hot air. Shows.

As described above, the present invention can provide a user with convenience and economical benefits by enabling both cooling and heating.

Moreover, quick heat transfer is possible irrespective of the length of piping, and the thermal efficiency is very high.

In addition, the installation space can be reduced and high heat and low cooling can be generated, and the safety against the foot can be increased at high pressure, and thus it can be applied to various industrial and large-scale buildings.

Claims (5)

A heater 10 having a combustion means therein and provided with a discharge pipe 12 and an inlet pipe 13, respectively, for heating the tank 11 by the combustion means; A heat supply pipe 20 connected to the discharge pipe 12 and the inlet pipe 13 of the heater 10 to circulate the fluid; A heat exchanger 30 for exchanging heat with the outside according to the temperature of the flow material circulated through the heat supply pipe 20; Characterized in that said heat supply pipe 20 and discharge pipe 12 and the inlet pipe 13 any pipe ever and flow material maintain the vacuum within the intervening in communication between a portion that is filled consisting of vacuum condensation tank 40 Heating. The heating apparatus according to claim 1, wherein the flow material comprises at least one of N, NH 3, CH 4 O, H 2 O, Hg, Mg, K, Na, Li, and Ag. The heating apparatus according to claim 1, wherein the vacuum condensation tank (40) is connected to a connection pipe (70) and a valve (71) connected to a vacuum pump to form a vacuum in the pipe. According to claim 1, wherein the heating coil 81 is diverted from the heat supply pipe (20) to the hot water tank (80) in which hot water is filled between the heater (10) and the vacuum condensation tank (40). Heating device characterized in that piped with hot water. 2. The heat exchanger (30) according to claim 1, wherein the heat exchanger (30) is piped in parallel with the bypass pipe (90) for bypassing the supply amount of the vaporized flow material to be supplied, and the supply amount is controlled by the valve (91). Heating done.