KR20140106901A - Hot Air Generator using Superheated Steam - Google Patents

Abstract

The purpose of the present invention is to provide a hot-air generator using superheated steam, which uses the superheated steam, thereby improving heating efficiency and drying efficiency; which generates the superheated steam by heating water sprayed into mist at high pressure, thereby generating a large amount of the superheated steam in a short time; which is capable of controlling the generation amount of the superheated steam, thereby applying the hot-air generator to both of a small and a large capacity; and which has a simplified configuration, thereby reducing maintenance costs. The hot-air generator according to the present invention comprises: a water storage tank; a water supply pipe to supply the water to the water storage tank; a high-pressure spray nozzle installed on the water supply pipe, and used to spray the water into the mist; a high-pressure pump installed on the water supply pipe; a far-infrared ceramic heater generating the superheated steam by heating the water sprayed into the mist from the high-pressure spray nozzle; a hot-air transfer duct having an outdoor air inlet to form hot air by mixing air with the superheated steam generated when heated by the far-infrared ceramic heater, and having an outlet to discharge the hot air to the outside; a blower to forcibly discharge the hot air; a thermal insulation cylinder body surrounding the far-infrared ceramic heater; a far-infrared paint coating layer coated on the inner circumferential surface of the hot-air transfer duct; and a water purification filter installed on the water supply pipe.

Description

Technical Field [0001] The present invention relates to a hot air generator using superheated steam,

The present invention relates to an apparatus for generating hot air using superheated steam generated by heating water in the form of mist sprayed at a high pressure.

Generally, a hot air generating device such as a hot air blower or a dryer is heated to a high temperature by heating means such as a heater, and then the temperature is raised by using such hot air or the object is dried.

However, the hot air generating device that generates hot air by heating the air in this way increases the temperature to every corner of the place where the temperature is to be increased, which is disadvantageous in that the heating efficiency is lowered due to prolonged time, The drying efficiency is lowered due to the local drying.

The reason for such a result is that hot air, i.e., heated air is used for heating or drying, and an alternative method has been required.

Accordingly, interest in using superheated steam as a heat source is increasing recently. Superheated steam generally refers to steam having a high calorific value, which is heated to a saturation temperature or higher by further heating the saturated steam at a saturated pressure.

Since the superheated steam is higher in temperature than the saturated steam and it is a particulate, it can uniformly heat the food when it is used as a food cooking utensil, so that the food is not burned locally, and the temperature and supply amount of the superheated steam can be easily controlled. There is no oxidation phenomenon caused by steam, and the taste does not change.

Conventionally, a boiler or an ultrasonic vibrator is applied as means for generating overheated steam of a hot air generating device.

However, since the hot air generating apparatus to which the boiler is applied has a structure in which a complicated component including a screw-type fin heater is built in order to secure the cross-sectional area required to generate and treat superheated steam, In addition, it is difficult to obtain superheated steam having a uniform temperature due to a large deviation of the steam flow rate as well as the complexity of the internal parts. Further, due to the variation of the flow rate, The internal parts are deteriorated and the durability is lowered.

In addition, the hot air generator using the ultrasonic vibrator is advantageous in that it is simple in construction compared to a boiler and has a low cost due to maintenance and repair. However, since the superheated steam generating capacity per unit time is small, it is mainly used in a small capacity dryer or a cooker, It is difficult to use it for indoor heating and drying.

SUMMARY OF THE INVENTION The present invention has been made to solve the above and other problems occurring in the prior art, and an object thereof is to provide a steam generator which is excellent in heating efficiency and drying efficiency by using superheated steam and simultaneously generates superheated steam by heating mist- Which can generate a superheated steam of a large capacity and can control the amount of superheated steam generated, can be used for both small capacity and large capacity, and a hot air generating device using superheated steam which can reduce maintenance and repair costs by simplifying the structure .

In order to accomplish the above object, the present invention provides a water storage tank for storing water; A water supply pipe for supplying water of the water storage tank; A high pressure spray nozzle installed at an end of the water supply pipe for spraying water in the form of mist; A high pressure pump installed in the water supply pipe for transferring water to the high pressure spray nozzle at a high pressure; A far-infrared ceramic heater installed in a spraying direction of the high-pressure spray nozzle and heating the mist-shaped water sprayed from the high-pressure spray nozzle to generate superheated steam; A hot air transfer duct having an external air inlet for mixing hot air generated by the heating of the far infrared ray ceramic heater with air to form hot air and having a discharge port for discharging the hot air to the outside; And a hot air generator using superheated steam, which is installed in the hot air transfer duct and includes a blower for forcibly discharging hot air.

Further, the present invention provides a hot air generator comprising a heat insulating cylinder surrounding the far infrared ray ceramic heater, a far infrared paint coating layer coated on an inner circumferential surface of the hot air transfer duct, and a water filter installed in the water supply pipe, .

In addition, the present invention is characterized by a solenoid valve installed in the water supply pipe for controlling the flow rate, a temperature sensor for detecting the temperature of the hot air installed in the hot air transfer duct, a solenoid valve, a temperature sensor, a far infrared ray ceramic heater , A high-pressure pump, and a control unit for controlling the blower.

According to the hot air generating apparatus using the superheated steam of the present invention having the characteristic features described above, by using the superheated steam, the heating efficiency and the drying efficiency are excellent and the superheated steam is generated by heating the mist type water sprayed at high pressure, It is possible to apply the present invention to both large capacity heaters for indoor heating as well as cooking and small capacity dryers by controlling the amount of superheated steam generated.

Further, according to the present invention, the structure of the apparatus is simplified, the cost of maintenance and repair is reduced, and the occurrence of deterioration of the built-in parts is minimized and the service life can be extended.

According to the present invention, since the superheated steam is used as a drying medium, the quality of the dried object is improved and environmental pollutants are not discharged. In particular, when the agricultural and marine products are dried, When heated by superheated steam, continuous water is supplied, and a large amount of far-infrared rays generated by a far-infrared ceramic heater inhibits the growth of various bacteria and fungi and activates the tissue of the human body and plants.

1 is a sectional view of a hot air generating apparatus using superheated steam according to the present invention.
FIG. 2 is a control block diagram of a hot air generator using a superheating medium according to the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, an apparatus for generating hot air using superheated steam according to an embodiment of the present invention will be described.

1, a hot air generating apparatus using superheated steam includes a housing 11, a water reservoir 12, a water supply pipe 13, a high pressure spray nozzle 14, a high pressure pump 15, a far infrared ceramic heater (not shown) 16, a hot air feeding duct 17, and a blower 18. As shown in FIG.

The housing 11 constitutes the external appearance of the hot air generating device and is hollow in shape so that the structure of the water storage tank 12, the far infrared ray ceramic heater 16, and the like can be built in. An opening 11a for discharging hot air to the outside is formed at an upper portion of one side of the housing 11 with the discharge port 17a of the hot air discharge duct 17 positioned thereon.

The water storage tank 12 is mounted on one side of the inside of the housing 11, and water is introduced and stored through the inflow pipe 12a. The water stored in the water storage tank 12 is supplied to the high-pressure spray nozzle 14 provided at the end of the water supply pipe 13 through the water supply pipe 13 connected to the lower part. At this time, a solenoid valve 19 is installed in the water supply pipe 13 between the water storage tank 12 and the high-pressure spray nozzle 14 so that the amount of water supplied to the high-pressure spray nozzle 14 can be adjusted.

The water supply pipe 13 is provided with a high-pressure pump 15 between the solenoid valve 19 and the high-pressure spray nozzle 14 so that water supplied to the high-pressure spray nozzle 14 is transferred to the high-pressure spray nozzle 14, And a water filter 20 is installed between the solenoid valve 19 and the high pressure pump 15 so as to spray the water supplied from the water storage tank 12 to the high pressure spray nozzle 14. [ To improve water quality.

On the other hand, the far-infrared ceramic heater 16 generates superheated steam by heating mist type water sprayed from the high-pressure spray nozzle 14 in the spraying direction of the high-pressure spray nozzle 14, And is installed in the hot air transfer duct 17 provided in the housing 11. The hot air transfer duct 17 is installed in the housing 11 so as to be heated in the course of passing water sprayed in the form of mist.

The heating temperature of the far infrared ray ceramic heater 16 is preferably 200 to 400 ° C. and the far infrared ray generated from the far infrared ray ceramic heater 16 functions to inhibit the growth of bacteria and fungi and activate the cell structure of the human body and plants do.

1, the far infrared ray ceramic heater 16 is surrounded by the heat insulating cylinder 21 to minimize heat loss. The heat insulating cylinder 21 is connected to the hot air blowing duct 17 with the far infrared ray ceramic heater 16 Or may be provided inside the hot air feed duct 17, though not shown.

The hot air conveying duct 17 is installed in the housing 11 and the lower end of the hot air conveying duct 17 is located in front of the spray direction of the high pressure spray nozzle 14 and the water in the form of mist sprayed from the high pressure spray nozzle 14 flows into the hot air conveying duct 17 And the upper end thereof is located in an opening provided at one side of the upper side of the housing 11 so that hot air can be discharged to the outside.

The hot wind conveying duct 17 is provided with an outside air inlet 17b for sucking outside air in front of the far infrared ceramic heater 16 so that the superheated steam heated by the far infrared ceramic heater 16, So that outside air can be mixed in the hot air feeding duct 17.

Thus, the hot air mixed with the superheated steam and the outside air can be discharged to the discharge port 17a of the hot air transfer duct 17. The reason why the superheated steam is mixed with the external inflow air is to increase the diffusion efficiency after superheated steam is discharged from the discharge port 17a.

The hot air transfer duct 17 is made of a stainless steel material resistant to corrosion and the far infrared ray paint coating layer 22 is formed on the inner circumferential surface to irradiate far infrared ray to the transferred hot air to remove bad odors by bacterial growth, .

A blower 18 for forcedly moving the generated hot air toward the discharge port 17a and discharging the generated hot air to the discharge port 17a and controlling the discharging distance of the hot air, A sensor 23 is installed, and a control unit 24 is installed in the housing 11.

2, the control unit 24 is connected to the solenoid valve 19, the temperature sensor 23, the far infrared ceramic heater 16, the high-pressure pump 15, and the blower 18, So that it can be controlled according to the use conditions.

The operation of the hot air generator using the superheated steam having such a configuration will be described below.

When the solenoid valve 19 of the water supply pipe 13 is opened and the high pressure pump 15, the far infrared ceramic heater 16 and the blower 18 are driven, the water stored in the water storage tank 12 is supplied to the water supply pipe 13 to be sprayed in the form of mist in the hot air transfer duct 17 through the high pressure spray nozzle 14 and then heated by the far infrared ceramic heater 16 to generate superheated steam, The hot air is mixed with the external air introduced through the external air intake port 17b of the hot air conveyance duct 17 to form hot air and the hot air is forcedly discharged through the discharge port 17a by the blower 18, It can be used for drying or heating purposes.

At this time, the water conveyed to the water supply pipe 13 can be removed by passing the water filter 20, thereby improving the quality of the water. If the temperature of the hot air suited to the use conditions is set in the control unit 24, The heating temperature of the far infrared ray ceramic heater 16 can be controlled to maintain the temperature of the hot air according to the use conditions when the temperature of the hot air is higher or lower than the set temperature as compared with the temperature of the hot air detected from the sensor 23. [

Since the superheated steam is generated by heating with the far infrared ceramic heater 16 while spraying in the form of mist from the high-pressure spray nozzle 14, superheated steam can be generated in a short time, and the solenoid valve 19, the flow rate is controlled, and the discharge amount of the hot air can be adjusted by controlling the hydraulic pressure by controlling the driving of the high-pressure pump 15, so that the discharge amount of the hot air suited to the use conditions The present invention can be applied not only to cooking and small-capacity dryers but also to large-capacity heaters for indoor heating.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to be construed as limiting the scope of the present invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

12: Water tank 13: Water supply pipe
14: High-pressure spray nozzle 15: High-pressure pump
16: far-infrared ceramic heater 17: hot air blowing duct
18: blower 19: solenoid valve
20: water filter 21: heat insulating cylinder
22: far infrared paint coating layer 23: temperature sensor
24:

Claims (4)

A reservoir for storing water;
A water supply pipe for transferring water of the water storage tank;
A high pressure spray nozzle installed at an end of the water supply pipe for spraying water in the form of mist;
A high pressure pump installed in the water supply pipe for transferring water to the high pressure spray nozzle at a high pressure;
A far-infrared ceramic heater installed in a spraying direction of the high-pressure spray nozzle and heating the mist-shaped water sprayed from the high-pressure spray nozzle to generate superheated steam;
A hot air transfer duct having an external air inlet for mixing hot air generated by the heating of the far infrared ray ceramic heater with air to form hot air and having a discharge port for discharging the hot air to the outside; And
And a blower installed in the hot air transfer duct for forcibly discharging hot air. The apparatus according to claim 1, further comprising: a heat insulating cylinder surrounding the far infrared ray ceramic heater; and a far infrared paint coating layer coated on an inner circumferential surface of the hot air transfer duct. The apparatus of claim 1 or 2, further comprising a water filter disposed in the water supply pipe. [5] The apparatus according to claim 3, further comprising: a solenoid valve installed in the water supply pipe to adjust a flow rate; a temperature sensor installed in the hot air transfer duct for detecting a temperature of hot air; and a solenoid valve, And a controller for controlling the heater, the high-pressure pump, and the blower.

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