KR101478345B1 - Air-conditioner and heater using evaporation of water electric vent type - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold and hot air device, and more particularly, to a cold and hot air device having a water supply pipe and an air supply pipe on one side thereof, A heat exchange box installed on the upper part of the water tank, an air intake pipe installed on one side and an air discharge pipe on the other side; The heat exchange box includes a plurality of heat exchange guide plates arranged in a zigzag manner so as to cool or heat water therein; A plurality of evaporator tubes provided on the upper surface of the heat exchange box and equipped with an evaporative blower for forcedly evaporating water; In the present invention, when the water of the tank is evaporated at a normal temperature by using the water of the water tank as a heat exchange guide plate, the heat exchange guide plate is cooled The present invention relates to a cold / hot air supply device for a cold / hot air supply system using evaporation water, which is capable of supplying cold air and heating a water in a tank to heat the heat exchange guide plate so that the heat exchange guide plate can be heated to supply hot air.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold and warm air system, and more particularly, to a system for cooling or heating water in a water tank by cooling or heating water in a heat exchange box and sucking and discharging the cooling air or warm air through a blower , When the water in the water tank is evaporated from the tank at room temperature by using the heat exchange guide plate, the heat exchange guide plate is cooled to supply the cool air. When the water in the tank is heated to heat the heat exchange guide plate, To a suction / discharge type cold / hot air device using evaporation water.

Generally, the cooling system is a forced air-conditioning type air-conditioner, and the air-conditioner (air conditioner) is mainly composed of an indoor cooling system and an outdoor cooling system.

In addition, the mechanical cooling apparatus generally performs cooling and cooling of the refrigerant through piping through four cycles of evaporation, compression, condensation and expansion.

Here, the four cycles are explained. The evaporation is a change of refrigerant from liquid to gas. The liquefied refrigerant vaporizes by evaporating in the evaporator (cooling tube). At this time, the heat (evaporation latent heat) necessary for evaporation from the air around the cooling tube Because it evaporates and evaporates, the temperature is lowered and the cold is spread around by the natural convection system or the fan to cool the surroundings.

The evaporated refrigerant vapor in the air conditioner is sent to the compressor and compressed by the piston in the cylinder to make it easier to liquefy the refrigerant. The compressed gas that has passed through the compressor is condensed in a liquid state by cooling water at room temperature or cooling air.

The liquid refrigerant sent from the condenser acts to relieve the pressure in the expansion valve so that it evaporates easily in the evaporator.

Cooling and cooling systems using all mechanical refrigerants are repeated in sequence through these four cycle cycles. Materials with excellent specific heat such as freon gas, ammonia, and water are used as the refrigerant.

The cold heat of the evaporator causes the low temperature air to be discharged by the blower in the rear of the evaporator.

Such a forced air-cooling system is not only expensive to produce facilities but also has a low efficiency of heat, resulting in a large amount of fuel consumption, which is a burden to be used in a vinyl house, factory, or outdoor.

In addition to the mechanical method, cooling and cooling methods explain how to use heat of dissolution. In general, ice is used. 1g of ice absorbs 79.6cal / g of heat, which changes from 0 ℃ to 0 ℃. .

In addition, there is a sublimation heat, the sublimation heat is solid carbon dioxide (Dry ice), and dry ice absorbs heat of 137cal / g as latent heat of sublimation at -78.5 ℃, which is used for storage and preservation of frozen food .

In addition, the method using vaporization heat is mainly used for rapid freezing of food since it absorbs heat of 48 cal / g by latent heat of low temperature evaporation at -196 ° C mainly using liquid nitrogen.

Among the methods of using the heat of evaporation, the thermal efficiency is lowered, but there is a method using water.

Water absorbs 539 cal / g of heat when 1 g of water at 100 ° C is changed to water vapor at 100 ° C. Therefore, water is sprayed on roofs of buildings and vinyl houses to decrease the room temperature.

Water is excellent in absorbing heat when converted to water vapor, but it is difficult to expect a large thermal efficiency because the amount of evaporation that can be converted into water vapor is small and flows to the periphery.

In the cooling, there is a vaporizing method. The water absorbing material is put in the box, water is absorbed, and air is passed through to provide cool air.

In this method, cold air is generated initially, but when air is continuously injected, water is continuously supplied to the absorber, but the temperature of the water absorber is increased, resulting in a decrease in the cold air effect.

The hot air device is a main type of hot air blower which uses an electric coil, oil, gas, etc. and blows by a fan. Since the heat blower blows heat in the indoor space by the blower installed in the rear side, heat is supplied only to a limited space.

The heating used in the outdoors mainly burns harmonics on the drum, but it is not desirable heating because the thermal efficiency is extremely low, and the use of many harmonics only increases the amount of Co2 gas emission.

Therefore, it is necessary to have a large area of air-conditioning and heating, as it is less expensive, such as a summer house, an office, an indoor / outdoor bus platform, and a meeting place.

Looking at the prior art in this field,

The "solar heat and hot air heating system" of Patent Publication No. 0813754 (hereinafter referred to as "the prior art") includes a solar heat collection unit 10 having a heat storage medium induction pipe 13 and a heat storage unit (20) and a heat exchange unit (30) are connected to a heat storage medium induction pipe (13) including a valve and a circulation pump (45); A hot air circulating device connected to the heating part, the solar heat collecting part (10) and the heat exchanging part (30) by a hot air circulation duct (60) including a sirocco fan; And a temperature sensor 24 mounted on the heat accumulating section 20 and controlling the operation of the valve and the circulation pump 45 and interrupting the power supply of the electric heater 23, The hot air and the heating medium move along the hot air circulation duct 60 and the heat storage medium induction pipe 13 while the heat is circulated in the solar heat collecting part 10 and the heat exchanging part 30, A solar heat storage warm-air heating system for exchanging heat has been disclosed.

Although the prior art uses solar heat for heating, it is necessary to use a solar plate having a solar heat collecting part in order to use solar heat. However, in order to install a solar plate, an initial cost is excessively increased, Life span is also only five years, and the service life is shorter than the investment cost of the facility.

In other words, it is installed for the purpose of selling electricity to KEPCO by installing a large number of solar panels to produce electricity, but it is not used at home because it is less efficient than investment cost when it is used for heating of home, There is no heating system for the cultivation of crops such as rice paddies.

As described above, the heating system using solar heat has problems such as restriction due to the irradiation time of sunlight, excessive investment inefficiency of the facility cost, and decrease of efficiency when snow accumulates in winter.

Korean Patent Registration No. 0813754

The present invention solves the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a cooling apparatus for an air conditioner in which water in a tank is evaporated by an evaporator blower installed in a heat exchange box, When the water in the water tank is heated, the heat exchange guide plate is heated so that the intake air is heat-exchanged with the warm air and the hot air is discharged. Thus, it is possible to cool and heat the house, And the use of evaporation water for the purpose of providing an eco-friendly air conditioner that is simple in structure, long in life, low in facility and management cost, and free from environmental pollution by using water and electricity Discharge type cold / hot air device.

In order to accomplish the above object, the present invention provides a water treatment system comprising: a water tank provided with a water supply pipe and an air supply pipe on one side and an upper part blocked and passed through a heat exchange guide pipe;

A heat exchange box installed on the upper part of the water tank, an air intake pipe installed on one side and an air discharge pipe on the other side;

Wherein the heat exchange box comprises: a plurality of heat exchange guide plates in which heat exchange guide plates for passively evaporating cooling or heating water are staggered;

Porous pearlite, vermiculite, activated charcoal zeolite, elvan stone, germanium, and aggregate, which are regenerated aggregate materials for evaporation resistance, are placed in the heat exchange guide plate and in the box, and the porous aggregate is placed in the steam inlet and outlet so as not to be damaged by the blower. The installation of the trial

A plurality of evaporator tubes having a heat storage space on the upper surface of the heat exchange box and equipped with an evaporative blower for forcibly evaporating water thereon;

And a suction and discharge type cold / hot air fan installed on the outer surface of the heat exchange box so as to pass through the cooling / heating heat exchange guide plate in a zigzag manner.

The water tank of the refrigerator has an evaporator installed therein, and the evaporator is connected to a compressor, a condenser, and an expander so that the refrigerant is circulated and used as a cooler.

The above-mentioned hot air fan is characterized in that a heating means of an electric coil, a heater rod, a gas burner or a twisted pipe is installed at the lower outer side of the water tank on the bottom surface of the water tank.

As another embodiment, the cold /

The water tank located at the lower portion and the heat exchange box located at the upper portion are formed of a single body,

A water supply pipe and an air supply pipe are installed at one side of the water tank,

A plurality of heat exchange guide plates are installed inside the heat exchange box located above the water tank so as to be spaced apart from the water surface of the water tank,

An air suction pipe is installed on one side of the heat exchange box and an air discharge pipe is formed on the other side so that a plurality of blowers are installed on one side or both sides of the pipe,

A plurality of blowers installed in the air discharge pipe are connected to an air blowing port formed in the air discharge pipe body to suck and discharge the cooling air or the heated air in the heat exchange box.

As another embodiment of the present invention,

The cold / warm air heater is provided with an air discharge pipe having an inner tube having a small diameter and a large number of blowers inside a large-diameter outer tube,

The air discharge pipe is connected to a water supply pipe connected to a water tank at an upper side of an outer side of the air discharge pipe, an air suction pipe is formed at one side of the water supply pipe,

A water discharge pipe and a water evaporation blower for discharging water are installed on the other side of the outer pipe,

And a plurality of blowers installed in the inner pipe are respectively connected to the air blowing holes installed to protrude outward through the outer pipe so as to discharge cold wind or hot wind.

And a far-infrared ray radiating member is installed in the inner pipe of the cold / hot air fan to radiate heat and far-infrared rays.

The cold / hot air fan is constructed such that porous aggregate made of pearlite or vermiculite is installed between the outer and inner pipes so as to resist the flow rate of air slowly. A net-like porous plate is installed so that the aggregate is not damaged by the blower .

As another embodiment of the present invention, the cold /

The water tank located at the lower portion and the heat exchange box located at the upper portion are formed of a single body,

A water supply pipe and an air supply pipe are installed at one side of the water tank,

A plurality of heat exchange guide plates having a space to be spaced apart from the water surface of the water tank are installed in the heat exchange box located at the upper part of the water tank, and there is a space for uniformly sucking steam at the plurality of heat exchange guide plates ,

An air suction pipe is provided on one side of the heat exchange box and an air discharge pipe is formed on the other side,

Wherein the air discharge pipe is provided with an inner pipe having a small diameter and a plurality of blowers inside the outer pipe having a large diameter,

An evaporation pipe installed on the heat exchange box for forced evaporation is installed to be connected between an inner pipe and an outer pipe of the air discharge pipe,

A water supply pipe connected to a water tank is connected to an upper part of the outer tube, an air inlet is formed at one side of the water supply pipe,

A water discharge pipe and a water evaporation blower for discharging water are provided on the other side of the outer pipe,

And a plurality of blowers installed in the inner pipe are respectively connected to the air blowing holes installed to protrude outward through the outer pipe so as to discharge cold wind or hot wind.

As another embodiment of the present invention, the cold /

A water supply pipe and an air supply pipe are installed on one side and an upper part is an open water tank;

A heat exchange box provided on an upper portion of the water tank and provided with an air suction pipe on one side and an air discharge pipe on the other side, and a storage material in the space;

The heat exchange box is capable of slowly storing the flow rate of cooled cold or heated heat in the inside of the heat exchange box, and has a plurality of heat exchange water pipes provided with heat storage materials for heat conduction to the heat storage material, A mesh-type perforated plate is installed so as not to be lost;

And a plurality of evaporator tubes provided with an evaporative blower so that water can be forcibly evaporated through a space on the upper surface of the heat exchange box.

According to the present invention, a heat exchanging box having a water tank and a heat exchange guide plate is provided to provide a cold radiator, so that the present invention is simple in structure, long in life, low in facility and management cost, And can provide an inhalation and discharge type cold and hot air device using evaporative water made of an environmentally friendly cold air heater which is not used.

The present invention can be used both in winter and in the summer because the air of the cold wind can be discharged by a simple structure of the equipment. In addition, the cold wind can be operated only by the operation of the blower. Since the evaporator is installed, the effect of the cold air can be maximized. The warm air has the effect of supplying the clean air to the hot air device by heating the water tank by electric heating or by heating it from the outside with water vapor by heating the evaporation guide.

FIG. 1 is a general view showing a conventional solar heat storage heating system.
FIG. 2 is a perspective view showing the appearance of a cold air heater according to the present invention,
3 is a front view showing a longitudinal sectional view of a cold air heater according to the present invention,
4 is a plan view showing a cross-sectional view of the air conditioner according to the present invention,
5 is a plan view illustrating a state where a cooling system is installed in a water tank of a cold air heater according to another embodiment of the present invention,
6 is a cross-sectional view showing a state in which a plurality of suction and discharge blowers are installed in an air discharge pipe of a cold air heater according to the present invention,
7 is a cross-sectional view showing a state in which a cold air heater is formed by using an air discharge pipe formed with an inner pipe and an outer pipe as another embodiment of the present invention,
Fig. 8 is a configuration view showing a circular air discharge pipe according to the present invention in longitudinal section,
FIG. 9 is a view illustrating a state where a far-infrared ray radiating member having a heat storage function is installed in an inner tube of a rectangular air discharge pipe according to the present invention,
10 is a cross-sectional view showing a state in which a porous mesh material is filled between an inner pipe and an outer pipe of an air discharge pipe having an inner pipe and an outer pipe and a net-like porous plate is installed at the end portion,
11 is a cross-sectional view showing another embodiment of the present invention in which a water tank and a heat exchange box are integrally formed and an air discharge pipe provided at one side of the heat exchange box is composed of an inner tube and an outer tube,
12 is an external view showing a state in which a vertical pipe filled with a far-infrared ray member having a heat storage function is installed in a heat exchange box according to another embodiment of the present invention.

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

FIG. 2 is a perspective view showing the external appearance of a cold air heater according to the present invention, FIG. 3 is a front view showing a longitudinal sectional view of a cold air heater according to the present invention, FIG. 4 is a plan view showing a cross- 2 to 4 show a basic configuration diagram of the cold / warm air conditioner 100 of the present invention.

2 is a drawing of a suction and discharge type cold / hot air conditioner. In the lower end of the cold / warm air conditioner 100, a water supply pipe 201 and an air supply pipe 202 are installed at one side and an upper opened water tank 200 is constructed.

An air intake pipe 301 is installed at one side of the water tank 200 and a heat exchange box 300 having an air discharge pipe 400 is installed at the other side of the water tank 200.

The joint part of the heat exchange box 300 located above the water tank 200 is composed of a welded or integral body and sealed.

A space 302 'is formed in an upper portion of the heat exchange box 300 in which a plurality of heat exchange guide plates 302 are staggered so that water can be cooled or heated therein and the heat exchange guide plate 302 is connected to a water tank And the water vapor passing through the heat exchange guide plate is collected in the upper space.

The heat exchange guide plate 302 is installed in a zigzag manner so that one side of the heat exchange plate 302 is spaced apart from the other side of the heat exchange guide plate while air is being heated or cooled by the heat exchange guide plate while the air circulates around the heat exchange guide plate.

On the upper surface of the heat exchange box 300, a plurality of evaporation tubes 304 equipped with an evaporative blower 303 are installed so that water can be forcibly evaporated.

When the evaporative blower 303 installed in the evaporation pipe 304 operates the evaporative blower 303 while the water tank 200 is filled with water when the cold air heater 100 of the present invention is used as a cooler, And is evaporated while being exhausted through the evaporation pipe 304 by the evaporation blower 303.

At this time, when the water evaporates, the moisture is evaporated into the heat exchange guide plate 302 installed inside the heat exchange box 300, so that the heat exchange guide plate 302 is cooled, so that the air introduced through the one air intake pipe 301 is cooled The cool air is discharged through the air discharge pipe by the blower 600 installed in the air discharge pipe 400 on the other side so that cooling can be performed.

In addition, when the cold / warm air heater 100 of the present invention is used as a heater, water in a water tank is heated in a water tank using a heating member (not shown) made of an electric heating wire, an electric heater, The heated air, which has been heat-exchanged in the heat exchange guide heated by evaporation through the plate 302 and heated through the one air intake pipe 301, is sucked into the blower 600 installed in the air exhaust pipe 400 Heating can be done by discharging warm air.

And a heat insulating material 800 is installed on the outer surface of the heat exchange box 300 to increase the heat exchange efficiency of the heat exchange guide plate 302.

A plurality of heat exchange guide plates 302 provided in the heat exchange box 300 are installed so as to contact the water surface stored in the bottom water tank 200 and one side of the heat exchange guide plate 302 is installed to be spaced apart from the inner wall of the heat exchange box .

In addition, the end of the water supply pipe 201 is installed inside the water tank of the water tank 200, because air through the air supply pipe 202 when the water forced evaporative blower 303 installed in the box is operated, Air bubbles are generated and the water is easily evaporated.

Since the air supply pipe 202 is installed inside the water, the air is evaporated by the suction pressure of the evaporative blower 303, so that the air pressure in the heat exchange guide plate 302 and the upper space is lower than the atmospheric pressure and is likely to be changed to water vapor. This means that water is evaporated at 4 in vacuum and water is converted to water vapor at temperatures below 100 ° C in high acid at low pressure.

That is, water evaporating at a low temperature has the same specific heat as water evaporating at a high temperature, so the thermal efficiency due to the evaporation heat is the same.

The cold air heater 100 of the present invention is provided with a heat exchange guide plate 302 for connecting the water tank 200 and the upper space in the vicinity of the water tank 200, Which serves as a path for evaporation.

The heat exchange guide plates 302 are vertically connected to each other and one side of the heat exchange guide plate 302 is spaced apart from the inner walls of the heat exchange box 300 to form zigzag spaced spaces.

When the evaporator blower is operated, the water in the water tank is forcibly evaporated, and the heat exchange guide plate 302 is heated by the heat exchanger And cooled.

A supply and suction pipe 301 is installed at one side of the heat exchange box 300 at right angles to the heat exchange guide plate 302 and an air discharge pipe 400 is installed at the opposite side of the heat exchange box 300. Air is sucked into and discharged from the air discharge pipe 400 At least one blower should be installed. That is, the water is forcibly evaporated by the evaporative blower 303 to cool the heat exchange guide plate 302, which is water evaporation passage, and the air passes through the outside of the heat exchange guide plate, so that the cooling air is discharged.

In addition, the present invention is a device for hot wind, wherein an electric heat pipe is installed in a water tank of a water tank, and when the water is heated, water vapor is evaporated and the evaporation guide is heated or the fuel such as gas, And the water is evaporated to heat the heat exchange guide plate.

When the cold / hot air heater 100 is used as a hot air fan, the evaporator blower 303 must be shut off to increase the air pressure inside the heat exchange box 300, so that the lid on the evaporator blower is closed.

In order to increase the thermal efficiency, a heat accumulating member is inserted into the heat exchange box 300 and the space inside the heat exchange guide plate to resist the heat storage effect and the flow of air and water vapor, to increase the heat efficiency and to have a far infrared radiation effect, Charcoal, activated carbon, zeolite, loess, and vermiculite are blown by a suction blower and an intermediate blower, so they are put in a strong battery. And the rest is put in a size of 1 mm to 10 mm.

Although not specifically described in the description of the present invention, the electrical configuration and the electronic circuit configuration applied to the cold / warm air conditioner of the present invention are the same as those applied to a conventional boiler. Therefore, it is self-evident that an operation unit and a control unit for operating the cold / warm air conditioner of the present invention are provided.

FIG. 5 is a plan view illustrating a cooling system installed in a water tank of a cold air heater according to another embodiment of the present invention, in which a cooling system is installed in a water tank 200 of the cold air heater 100 of the present invention.

The evaporator 500 is connected to the expander 501, the condenser 502 and the compressor 503 so that water is heat-exchanged in the evaporator so that the refrigerant is circulated, It is possible to cool the heat exchange guide plate 302 of FIG.

In the present invention, the copper pipe of the evaporator such as the evaporator of the mechanical cooling device, the compressor, the condenser, and the inflator may be built in the water tank 200, or ice may be added to increase the cold wind effect.

FIG. 6 is a cross-sectional view showing a state in which a plurality of suction and discharge type blowers are installed in an air discharge pipe of a cold air heater according to the present invention, and a water tank 200 is disposed at a lower portion thereof, 300, the body of the water tank and the body of the heat exchange box are formed as an integral body.

A water supply pipe 201 and an air supply pipe 202 are installed at one side of the water tank 200 and the water supply pipe supplies water to the water tank and the air supply pipe at one side is extended to the inside water of the water tank And a plurality of air injection holes are formed at the distal end of the air supply pipe 202 so as to eject air, thereby improving the efficiency of heating or cooling the water

A plurality of heat exchange guide plates 302 are installed inside the heat exchange box 300 located at the upper part of the water tank 200 so as to be in contact with the water surface of the water tank to perform heat exchange, Passes through the heat exchange guide plate 302 and changes into cooling air or hot air.

An air suction pipe 301 is installed on one side of the heat exchange box 300 and an air discharge pipe 400 is formed on the other side to suck air into the heat exchange box 300. The sucked air is heat- .

A plurality of blowers 600 are installed inside the air discharge pipe 400 to suck outside air into the heat exchange box 300 and then to transfer the air inside the air discharge pipe 400 to the air discharge port 401 so that it can be cooled or heated.

FIG. 7 is a cross-sectional view illustrating a state where a cold air heater is formed using an air discharge pipe formed by an inner tube and an outer tube according to another embodiment of the present invention. FIG. 7 shows another embodiment of the present invention, In the construction, the air discharge pipe 400 is combined with a small-diameter inner pipe 403 having a large-diameter outer pipe 402 and a plurality of blowers 600.

A water tank 200 is separately provided at an upper portion of one side of the outer pipe 402 of the air discharge pipe 400 and the water tank is connected to a water supply pipe to supply water to the inside of the outer pipe 402. An air suction pipe 301 'is formed on an outer surface of one side of the water supply pipe 201 so that external air can be introduced into the inside of the external pipe 402.

The outer pipe is provided with a water discharge pipe 404 and a water evaporation blower 303 for discharging water not yet evaporated on the other side where the water supply pipe 201 is installed to induce evaporation of water inside the outer pipe.

A plurality of blowers 600 installed in the inner pipe 403 are connected to the air blowing holes 401 installed to protrude outward through the outer pipe 402 so as to discharge cold air or hot air

FIG. 8 is a schematic cross-sectional view of a circular air discharge pipe according to the present invention, showing a connection structure between an inner pipe 403 and an air outlet 401. FIG.

9 shows a rectangular air discharge pipe according to the present invention in a longitudinal section, and a porous aggregate 601 'having a heat storage function for air resistance is filled between an outer pipe and an inner pipe, and a net-like porous plate 601 is installed at a distal end thereof, Infrared ray radiating member 700 having a heat storage function is installed in the inner pipe to prevent the aggregate 601 'from flowing out. The connection structure of the inner pipe and the air spouting port 401 and the air flow resistance, Infrared radiation member 700 is filled in the inner pipe 403 to store cold air or warm air passing through the inner pipe, and at the same time, clean air can be supplied.

Here, light-weight aggregates such as charcoal, activated carbon, zeolite, and pearlite are used as heat-accumulating members between the outer tube and the inner tube, and far-infrared radiation members such as charcoal, activated carbon, zeolite, pearlite,

10 is a sectional view showing a state in which a net-like porous plate 601 is provided on the inner peripheral surface of an air discharge pipe having an inner tube and an outer tube according to another embodiment of the present invention. The perforated plate 601 is disposed on the outer peripheral surface of the inner tube 403 And the inside of the outer tube 402 is closed so as to generate resistance of the incoming water. Of course, the water blocked by the porous aggregate 601 ', which is a heat accumulating member, is discharged by the pores of the heat accumulating member. The net-like porous plate 601 prevents leakage of the heat accumulating member 601 ', and prevents damage to the suction and discharge blower by the heat accumulating member.

FIG. 11 is a cross-sectional view of a water tank and a heat exchange box formed integrally with each other as shown in FIGS. 2 and 7 and having an inner discharge pipe and an outer discharge pipe installed at one side of the heat exchange box. 11, the water tank 200 located at the lower part and the heat exchange box 300 located at the upper part are formed of a single body, and one side of the water tank is provided with a water supply pipe 201, A supply pipe 202 is installed.

A plurality of heat exchange guide plates 302 are installed inside the heat exchange box located at the upper part of the water tank 200 so as to contact with the water surface of the water tank. An air suction pipe 301 is installed at one side of the exchange box 300 And the air discharge pipe 400 is formed long on the other side.

The above-described configuration of FIG. 11 has the same operational effects as those already described in the configurations of FIG. 2, FIG. 6, and FIG.

In Fig. 11, the air discharge pipe is provided with an inner pipe having a small diameter and having a plurality of blowers inside a large-diameter outer pipe.

A predetermined space is formed between the inner pipe 403 and the outer pipe 402 so that water can be moved.

The evaporation pipe (304) installed on the heat exchange box (300) for forced evaporation is connected between the inner pipe and the outer pipe of the air discharge pipe (400) so that evaporative air for forced evaporation flows into the inside of the outer pipe.

The upper part of the outer tube is connected to a water supply pipe 201 connected to the water tank 200 and an air inlet 301 'is formed at one side of the water supply pipe to increase the efficiency of evaporation by containing air in the water .

The outer tube is provided with a water discharge pipe 404 and a water evaporation blower 303 through which the water is discharged to the other side where the water supply pipe is installed, so that water inside the outer tube can be evaporated.

A plurality of blowers installed in the inner pipe are respectively connected to the air blowing holes 401 installed to protrude to the outside through the outer pipe, so that cold air or hot air can be dispensed.

12 is a perspective view of a heat exchange box according to another embodiment of the present invention, in which the evaporation rate of steam is lowered in the evaporation tube of the heat exchange box so that the temperature can be transferred to the outside of the evaporation tube and the filling material for evaporation resistance is installed. When the air is moved from the suction pipe to the air discharge pipe (400), it is filled with filler to increase the heat efficiency by providing heat resistance or air resistance. Charging materials such as charcoal, activated carbon, zeolite, vermiculite, loess, sericite, etc., are used to put charcoal, activated carbon, zeolite, vermiculite and loess into the bag. Fig. 5 is an external view showing a state where a filled vertical tube is installed

12 of the present invention, as another embodiment,

The cold / hot air heater 100 is provided with a water supply pipe 201 and an air supply pipe 202 on one side thereof and an open water tank 200 on the upper side thereof. A heat exchange box 300 in which an air suction pipe 301 is installed and an air discharge pipe 400 is installed on the other side.

The heat exchange box 300 is provided with a plurality of heat exchange water pipes 305 so as to store the cooled cold or heated heat therein, and the water pipe is installed to be in contact with the lower water surface.

A plurality of evaporation tubes 304 provided with an evaporative blower 303 are installed on the upper surface of the heat exchange box 300 so that the water in the water tank 200 can be forcedly evaporated due to the driving of the upper evaporation blower And the air to be evaporated is installed in the vertical tube (305) and in the heat exchange box with the far-infrared radiation member (700).

At this time, the air introduced from the air suction pipe 301 installed at one side of the heat exchange box 300 is heat-exchanged at the vertical pipe 305 and is cooled or heated through the air discharge pipe 400 installed at the other side.

In addition, the present invention is characterized in that the vertical pipe (305) and the far-infrared ray radiating member (700) filled in the heat exchange box function as well as members that increase the thermal efficiency by increasing air resistance include char, activated carbon, loess, elvan, sericite, pearlite, Artificial aggregate, and artificial aggregate of volcanic stone, thereby discharging far infrared rays and storing cold and heat.

Since charcoal, activated carbon, loess, zeolite, etc. are composed of fine particles, they are placed in a fiber bag and placed in piping, so that the loss of the remaining particles can be prevented.

The outer surface of the heat exchange box 300 of the cold / warm air conditioner according to the present invention is enclosed by a heat insulating material 800 except for various pipes and blowers.

A net (800 ') for protecting the heat insulating material is provided on the outer surface of the end

In the present invention, the heat exchange box (300) is provided with a water tank located at a lower portion thereof and a water forced evaporative blower (303) with a space inside.

As described above, according to the present invention, the evaporator of the mechanical refrigeration system is installed in the water tank, and the effect of the cold wind can be maximized. The hot water is heated by electric heating or external heating, So that clean air can be supplied.

100: a cold air heater 200: a water tank
201: water supply pipe 202: air supply pipe
300: Heat exchange box 301, 301 ': Air intake pipe
302: heat exchange guide plate 303: evaporative blower
304: Evaporation tube 305: Vertical tube
400: air discharge pipe
401: air outlet 402: appearance
403: Inner pipe 404: Water outlet pipe
500: Evaporator 501: Inflator
502: condenser 503: compressor
600: blower 601: perforated plate
602: water is poured 700: far-infrared radiation member
800: Insulation

Claims (12)

A water supply pipe 201 and an air supply pipe 202 are installed on one side and the upper part is an open water tank 200;
A heat exchange box 300 installed at an upper portion of the water tank and having an air suction pipe 301 at one side and an air discharge pipe 400 at the other side;
The heat exchange box includes a plurality of heat exchange guide plates 302 zigzag to cool or heat water therein;
A plurality of evaporation tubes 304 provided on the upper surface of the heat exchange box 300 and equipped with an evaporative blower 303 for forcibly evaporating water;
Wherein a heat insulating material is provided on an outer surface of the heat exchange box to increase the heat exchange efficiency of the heat exchange guide plate (302).
The method according to claim 1,
The evaporator 500 is connected to the compressor 501, the condenser 502 and the compressor 503 so that the refrigerant circulates through the water tank of the cold / hot air fan, And the suction and discharge type cooling / heating apparatus using evaporation water.
The method according to claim 1,
Wherein the cold / hot air fan is provided with one of an electric coil, a heater rod, and a gas burner on the bottom of the water tank (200).
The cold / warm air conditioner (100)
The water tank located at the lower part and the heat exchange box 300 located at the upper part are formed of a single body,
A water supply pipe 201 and an air supply pipe 202 are installed at one side of the water tank,
A plurality of heat exchange guide plates 302 are installed inside the heat exchange box 300 located at the upper part of the water tank so as to contact the water surface of the water tank,
A plurality of blowers installed in the air discharge pipe are connected to an air blowing port 401 formed in the body of the air discharge pipe to suck and discharge the cooling air or heated air in the heat exchange box 300, Discharge type air conditioner

In the cold air heater,
An air discharge pipe 400 having a small-diameter inner pipe having a large number of blowers inside a large-diameter outer tube is provided,
An air suction pipe 301 'is formed at an upper portion of one side of the outer pipe 402 of the air discharge pipe and connected to a water supply pipe 201 connected to the water tank 200 and at one side of the water supply pipe 201,
A water discharge pipe and a water evaporation blower 303 for discharging water are installed on the other side where the water supply pipe 201 is installed,
Wherein a plurality of air outlets (401) installed in the inner pipe are installed to protrude outward through an outer surface of the inner pipe, and suction / discharge blowers are connected to the air outlets to discharge cold air or hot air. Discharge type cold / hot air device.
6. The method of claim 5,
Wherein a far infrared ray radiating member (700) is installed between an outer tube and an inner tube of the cold / hot air fan to have an airflow resistance and emit heat and infrared rays.
6. The method of claim 5,
Wherein the cooling / heating fan is provided with a porous aggregate (601 ') between an outer tube and an inner tube, and a net-like porous plate (601) for preventing the loss of air is installed.
In the cold air heater,
The water tank located at the lower part and the heat exchange box 300 located at the upper part are formed of a single body,
A water supply pipe 201 and an air supply pipe 202 are installed at one side of the water tank,
A plurality of heat exchange guide plates 302 are installed in the heat exchange box 300 located at the upper part of the water tank so as to be spaced apart from the water surface of the water tank,
An air suction pipe 301 is installed on one side of the heat exchange box and an air discharge pipe 400 is formed on the other side,
The air discharge pipe 400 has a small diameter inner tube having a plurality of blower 600 inside a large exterior 402, the diameter 403 is provided,
The evaporation pipe 304 installed on the heat exchange box 300 for forced evaporation is installed to be connected between the inner pipe 403 and the outer pipe 402 of the air discharge pipe 400,
The outer tube is provided with a water discharge pipe 404 and a water evaporation blower 303 through which the water is discharged to the other side where the evaporation pipe 304 is installed,
Wherein a plurality of air blowing openings (401) installed in the inner pipe are installed to protrude outward through the outer tube and connected to the blower to blow cool air or warm air.
In the cold air heater,
A water supply pipe and an air supply pipe are installed on one side and an upper part is an open water tank 200;
A heat exchange box 300 installed at an upper portion of the water tank and having an air suction pipe 301 at one side and an air discharge pipe 400 at the other side;
The heat exchange box includes a plurality of heat exchange water pipes (305) installed to store the cooled or cold heat of water inside,
And a plurality of evaporation tubes (304) provided with an evaporative blower (303) so that water can be forcedly evaporated is provided on the upper surface of the heat exchange box.
In the cold air heater,
A water tank is provided at a lower portion thereof, a heat exchange box is provided at an upper portion thereof, and an evaporation guide is installed therein to allow evaporation water to pass therethrough. A space portion is formed on the evaporation guide. A suction pipe and a suction blower are installed on the upper surface thereof, Wherein the evaporation guide is cooled, an air suction pipe is installed on the side of the heat exchanger box, a suction discharge pipe is installed on the lower side, and at least one blower is installed in the suction and discharge pipe.
The method of claim 10, wherein
And the lower water tank heats the fire at the bottom to provide the heat.
11. The method of claim 10,
Wherein an air discharge pipe is provided inside the heat exchanger box and inside the evaporation guide so as to provide air resistance and heat storage.

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