KR101621741B1 - structure heating apparatus for turbo hot-air injection system - Google Patents

Abstract

The present invention relates to a system for heating a building through a hot air injection method, which comprises: a hot air means (10) which supplies hot air (H) to the building; a heating unit (20) which has a pipe (21) to receive hot air (H) from the hot air means (10), has a floor hot water tank (23) including a water inflow pipe (24a) of accepting water to the inside and a drain pipe (24b) of allowing heated water to be discharged to a floor hot water pipe (24) while heating the building by being connected with an air conditioner (22) of the building or the floor hot water tank (23), has a check valve (25) in order to prevent the countercurrent flow of water on piping (21), has a plate (26) having a through hole (26a) so that a gradual heating is possible by dividing the lower inside, has a discharge unit (27) to discharge water remaining inside, and has a discharge pipe (28) to discharge steam generated by heated water in the upper part; and a control means (30) which changes hot air conditions by individually corresponding to the air conditioner (22) or floor hot water tank (23) of the heating unit (20). Therefore, the present invention prevents environmental pollution and contributes to a fresh environment by reducing greenhouse gas emission caused by oil or a gas boiler operated for the heating of a building, and enables heating at low expenses as expensive oil is unnecessary generally through the usage of pure compressed air.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a heating system for a building using turbo hot air blowing,

The present invention relates to a system for heating a building through a turbo hot air blowing system, more specifically, to reduce greenhouse gas emissions caused by an oil or gas boiler operating to heat a building, thereby preventing environmental pollution and contributing to a pleasant environment. And a system for heating a building through a turbo hot air blowing system that uses less of the generally expensive oil through the use of pure compressed air and can be heated at low cost.

Generally, in small and medium-sized buildings, heating is mainly performed through a central heating system. In this type of central heating system, most of them are heated by oil and gas boilers, so heating cost is increased and heating efficiency is lowered. In addition, the oil and gas boilers cause environmental pollution due to the emission of many greenhouse gases.

According to Korean Patent No. 0736214, for example, in a briquette and oil combined boiler having a briquetting boiler (9) connected to an oil boiler (1), the oil boiler (1) (8); A water supply tank 4 installed above the oil boiler 1; An oil boiler hot water outlet 2 formed to discharge hot water from the oil boiler water tank 8; And an oil boiler hot water inlet (3) for introducing hot water into the oil boiler water tank (8), the briquet tank boiler (9) comprising: a briquette boiler water tank (13) formed therein; A briquette boiler hot water outlet 14 installed at an upper portion of the briquetting boiler 9 for providing heating water to each of the Ondol 16 that requires heating; A briquette boiler hot water recovery port 15 installed at a position higher than the hot water discharge port 14 between the briquetting boiler water storage tank 13 and the briquetting boiler hot water discharge port 14; And a collecting part (6) connected to the outlet of the ondol (16) for collecting the heating water circulated in each of the ondol (16). The briquette and oil combine boiler And a circulating motor pump (7) installed between the water collecting part (6) and the oil boiler water storage tank (8), the T check valve (10) Is connected to the briquetting boiler water tank 13, the other end of the T-shaped check valve 10 is connected to the oil boiler hot water outlet 2, and the other end of the T- , And the other end is connected to the water collecting part (6), and the briquetting boiler hot water recovery port (15) is connected to the oil boiler hot water inlet (3).

However, these briquetting and oil-fired boilers are burdensome to consumers through a lot of heating costs, and there is a problem that the greenhouse gas emission can not be reduced.

As another example, according to Korean Utility Model No. 0409661, the heating water including the water supply pipe for supplying hot water, the auxiliary water tank, the heating water supply outlet and the heating water supply water inlet is heated and supplied to the room through the distributor And is recovered again through a recovery unit. The control unit is connected to a normal oil boiler which can be controlled indoors through a control unit, a water supply pipe, a heating water supply outlet pipe and an inflow pipe of the oil boiler, The heating water supply pipe is connected to the water supply pipe, the heating water supply outlet pipe and the inflow pipe of the oil boiler so as to prevent the backflow of the supplied heating water to the water supply pipe, heating water supply outlet pipe and inflow pipe Check valves are provided, and the heating and feeding outlets of the oil boiler and the heating and feeding outlets and the inflow pipe of the fellowship boiler are provided with control units House heating device as claimed equipped with a solenoid valve to allow the electronic control it in the room. 'Presents.

However, the use of the oil boiler also causes a problem that the consumer is burdened with a lot of heating costs and the greenhouse gas emission can not be reduced.

Korean Registered Patent No. 0736214 "Briquetting and Oil Combined Boiler" Korean Registered Utility Model No. 0409661 "Housing Heating Device"

Accordingly, it is an object of the present invention to fundamentally solve the above-described conventional problems, and it is an object of the present invention to reduce greenhouse gas emissions caused by oil or gas boilers operating for heating a building to prevent environmental pollution and provide a pleasant environment, The purpose of the system is to provide a system for heating a building through a turbo hot air blowing system that uses mostly compressed air and does not use expensive oil and can be heated at low cost.

In order to achieve the above object, the present invention provides a system for heating a building through a hot air blowing system, comprising: a hot air blower for supplying hot air to the building; The hot water tank is connected to the air conditioner or the bottom hot water tank of the building to heat the building. The bottom hot water tank discharges the hot water into the bottom hot water pipe And a check valve for preventing backflow of water on the pipe, a partition plate having a through hole for dividing the lower inside into a plurality of through holes to allow gradual heating, and a discharge unit for discharging water remaining in the pipe A heating unit having a discharge pipe for discharging steam generated in the upper part by the heated water; And control means for varying a hot wind condition corresponding to the air conditioner of the heating unit or the bottom hot water tank, respectively.

At this time, the hot air means is characterized in that air, which is compressed and heated by using a turbo pneumatic device or a turbo blower, is filtered and injected.

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The control means may include a pressure sensor for detecting the hot air blowing pressure so as to vary the hot air condition in accordance with the temperature of the air conditioner or the bottom hot water tank of the heating portion, a flow rate sensor for detecting the hot air blowing speed, And a controller for applying an output to the turbo pneumatic device or the turbo blower and the display under a predetermined condition using the signals of the sensors, wherein the bottom hot water tank further includes a water level sensor for detecting the water level therein .

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described in the above construction and operation, the present invention reduces greenhouse gas emissions caused by oil or gas boilers operating for building heating, thereby contributing to the prevention of environmental pollution and a pleasant environment, It does not use expensive oil and provides a heating effect at low cost.

FIG. 1 is a schematic view showing a structure used for an air conditioner of a heating system of a building using a turbo hot air blowing method according to the present invention,
FIG. 2 is a schematic view showing a structure used in a bottom hot water tank of a heating system of a building using a turbo hot air blowing method according to the present invention; FIG.

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

FIG. 1 is a schematic view showing a structure used for an air conditioner of a heating system of a building using a turbo hot air blowing method according to the present invention, FIG. 2 is a schematic view showing a method of using a turbo hot air blowing system according to the present invention, Fig.

The present invention relates to a system for heating a building through a hot air blowing method, and comprises a hot air supply unit (10), a heating unit (20), and a control unit (30).

The hot air means (10) according to the present invention supplies hot air (H) to the building. The hot air means 10 serves to supply hot air H through the compressed air and provides thermal energy through hot air H at high pressure and high speed.

At this time, the hot air means 10 filters and injects the air that has been compressed and heated by using the turbo pneumatic device 11 or the turbo blower 12. The turbo pneumatic device 11 of the hot airflow device 10 compresses and sends air in a turbo mode and the turbo blower 12 compresses and sends out the air in a turbo mode. The turbo pneumatic device 11 and the turbo blower 12) may be applied together or separately and simultaneously. The turbo pneumatic device 11 and the turbo blower 12 use compressed heated air generated through an internal impeller (not shown) rotating through the turbo. In either case, it is advisable to keep the filter in a clean state by performing filtration several times during the process of heating, compressing and sending out the air as hot air. The turbo pneumatic device 11 or the turbo blower 12 of the hot air means 10 uses pure compressed air and the compressed air heated at about 100 ° C or higher is supplied to the piping 21 of the heating portion 20, . This will be described in detail later.

The heating unit 20 according to the present invention includes a pipe 21 for receiving hot air H from the hot air means 10 and communicates with the air conditioner 22 or the bottom hot water tank 23 of the building Heating the building. The heating unit 20 allows the hot air H through the turbo pneumatic device 11 or the turbo blower 12 to flow into the air conditioner 22 or the bottom warm water tank 23 of the building through the pipe 21 . The heating unit 20 is divided into two components as described above. When the hot airflow H passes through the air conditioner 22 while the hot air unit 10 is on the piping 21, hot air H flows into the inside of the building Let it flow and keep warm. When the hot airflow 10 passes through the pipe 21 and the hot air H passes through the bottom hot water tank 23, the bottom hot water tank 23 containing the water is heated by the hot air H to be heated.

At this time, the bottom hot water tank 23 of the heating unit 20 has a water inlet pipe 24a for receiving water and a water pipe 24b for discharging heated water to the bottom hot water pipe 24, (26) provided with a check valve (25) for preventing reverse flow of water on the water inlet (21) and having a through hole (26a) so that the lower inside can be divided and gradually heated, And a discharge pipe (28) for discharging the steam generated by the heated water in the upper part. The heating unit 20 heats the bottom hot water tank 23 containing the water by the hot air H when the hot air H passes through the piping 21 as described above and flows into the bottom hot water tank 23, The bottomed hot water tank 23 is provided with a water inlet pipe 24a on the upper side to receive an appropriate amount of water therein and a bottomed hot water pipe 24 And a drain pipe 24b communicating with the drain pipe 24b. The piping 21 is configured to prevent backflow of water through one or more check valves 25 and the steam generated by the heating due to the heat H in the upper part of the bottom hot water tank 23 is supplied to the discharge pipe 28, . A diaphragm 26 for dividing the inner space 29 of the bottom hot water tank 23 is formed in the lower side of the bottom hot water tank 23 so that a plurality of through holes 26a are formed in the diaphragm 26 . When the divided lower space 29a of the internal space 29 is first heated by the heat H, the water is heated so that the high temperature air bubble rises into the through hole 26a and the lower space 29b of the upper space 29b Water flows into the lower space 29a through the through-holes 26a. Thus, the heating can be shortened by rapid heating in a short period of time by the narrow space 29a having a small area, so that the heating time can be effectively used. Of course, the heating unit 20 is described for the air conditioner 22 or the bottom hot water tank 23 of the building. However, since the hot air supply of the jjimjilbang room and the water in the private bathroom or the public bath of the building can be used, But is not limited thereto.

The control means 30 according to the present invention changes the hot wind condition corresponding to the air conditioner 22 or the bottom hot water tank 23 of the heating unit 20, respectively. The control means 30 is formed of a microcomputer circuit having control conditions corresponding to the air conditioner 22 or the bottom hot water tank 23, respectively.

The control means 30 includes a pressure sensor 31 for detecting the hot air blowing pressure so as to vary the hot air condition corresponding to the temperature of the air conditioner 22 or the bottom hot water tank 23 of the heating portion 20, A turbo pneumatic device 11 or a turbo blower 12 in a predetermined condition using the signals of the sensors, a temperature sensor 32 for detecting a temperature of the hot air, a temperature sensor 33 for detecting the temperature of the hot air, And a controller 35 for applying an output to the display 34. The bottom warm water tank 23 further includes a water level sensor 36 for detecting the water level therein. Of course, the input / output of the controller 35 can be applied differently. The control means 30 is applied to the air conditioner 22 and the bottom hot water tank 23 in a manner similar to that of the first embodiment except that a water level sensor 36, . The water level control sensor 36 can change the height according to the quantity (amount of water) by using buoyancy in the form of a ball. The air conditioner 22 or the bottom hot water tank 23 is provided with a pressure sensor 31 for detecting the hot air blowing pressure and a flow velocity sensor 32 for detecting the hot air blowing speed so as to vary the hot air condition in accordance with the temperature The pressure sensor 31 and the flow rate sensor 32 are installed in the piping 21 of the heating unit 20. The pressure sensor 31 may be selected to have a pressure of 2 to 5 atmospheres, and the flow rate sensor 32 may be a semiconductor type high temperature Si micro hole sensor for miniaturization. In the case of the temperature sensor 33 for detecting the hot air blowing temperature, it is preferable to insert the temperature sensor 33 inside the air conditioner 22 and the bottom hot water tank 23, The controller 35 stores and updates control algorithms and data tables. The display 34 may be provided in the controller 35, but may be provided in an adjacent local area.

1 and 2, the controller 35 operates the turbo pneumatic device 11 and the turbo blower 12 to spray the hot air H through the pipe 21, The input of the pressure sensor 31, the flow rate sensor 32 and the temperature sensor 33 is analyzed to change the hot wind conditions of the turbo pneumatic device 11 and the turbo blower 12, Outputs an alarm when an error occurs. The pressure and the flow rate of the hot air H are displayed on the display 34 and the hot air H is generated in the air conditioner 22 or the bottom hot water tank 23 so that the inside of the building through the air conditioner 22 and the bottom hot water tank 23).

As described above, the present invention reduces greenhouse gas emissions caused by oil or gas boilers operating for building heating, thereby preventing environmental pollution and contributing to a pleasant environment, and using pure compressed air, It is not used and provides a heating effect at low cost.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: hot air means 11: turbo pneumatic machine
12: Turbo blower 20: Heating part
21: piping 22: air conditioner
23: bottom hot water tank 24: bottom hot water pipe
24a: inlet pipe 24b: drain pipe
25: check valve 26: diaphragm
26a: through hole 27:
28: Discharge tube 30: Control means
31: Pressure sensor 32: Flow rate sensor
33: temperature sensor 34: display
35: controller 36: water level sensor
H: Hot wind

Claims (4)

A system for heating a building through a hot air blowing system, comprising:
A hot air means (10) for supplying hot air (H) to the building;
The hot water tank 23 is connected to the air conditioner 22 of the building or the bottom hot water tank 23 to heat the building. And a drain pipe 24b for discharging the heated water to the bottom hot water pipe 24 so that water is received in the pipe 21 and a check valve 25 And a partition plate 26 having a through hole 26a so as to gradually heat the interior of the lower part thereof and has a discharge part 27 for discharging water remaining therein, A heating unit (20) having a discharge pipe (28) for discharging steam generated by the heating unit (20); And
And a control means (30) for varying a hot wind condition corresponding to the air conditioner (22) or the bottom hot water tank (23) of the heating unit (20) system. The method according to claim 1,
Wherein the hot air means (10) filters and injects the air compressed and heated by using the turbo pneumatic device (11) or the turbo blower (12). delete The method according to claim 1,
The control means 30 includes a pressure sensor 31 for detecting the hot air blowing pressure to change the hot air condition in accordance with the temperature of the air conditioner 22 or the bottom hot water tank 23 of the heating portion 20, A turbo pneumatic device 11 or a turbo blower 12, a display device 32, a temperature sensor 33, and a temperature sensor 33. The temperature sensor 33 detects the temperature of the hot air, And a controller (35) for applying an output to the hot water tank (34), wherein the bottom hot water tank (23) further comprises a water level sensor (36) Heating system.

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