KR20150002502U - Hot Water-Heating Assist Device using Air Heater for Stovepipe Heat Recovery and Greenhouse Heating System having the same - Google Patents

Abstract

In order to reduce the heating energy during the high oil price era, the present invention recovers the exhaust heat from the exhaust gas pipe of the agricultural hot air heater to hot water and reuses it, thereby reducing the energy reuse and heating cost. In order to heat the vinyl house, The present invention provides an apparatus for recovering waste heat of a hot-air heater, which can be installed efficiently and can be installed and maintained easily by a relatively simple structure.
The present invention relates to a method and apparatus for installing a coil type stainless steel pipe, which is a cylindrical type, in the vicinity of an exhaust gas pipe and reusing the waste heat into the atmosphere so that a warm air heater can be operated during growing of crops in a winter greenhouse, do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot-air heating apparatus,

The present invention relates to a communication heat recovery apparatus for a hot-air heater, and more particularly, a hot-air heater is operated to grow crops in a winter greenhouse to heat the seeds suitable for growing a crop. Since the pipe is installed around the communication pipe and the hot water storage tank and the fan coil unit are integrally formed, the communication heat can be reused, the heating cost can be efficiently utilized, and the communication can be facilitated due to the relatively simple structure Heat recovery hot water heater.

In general, greenhouses are used for cultivating special crops such as horticultural crops, fruits, and vegetables regardless of the season, in which the heating of the inside of a house is essential.

Conventionally, in order to heat the interior of a greenhouse, a hot-air heater is mostly used, and heated hot air is blown into a greenhouse so that the crop inside the house is grown under a certain temperature condition.

However, in the conventional hot air heater, the heat exhausted by the communication when the fuel is burned is sent to the atmosphere, the heat loss is very large, and the heat utilization efficiency is very low. In the case of low income households, it is difficult to use warm air heater when oil value is increased.

Because of this problem, the exhaust heat of the warm air heater is recovered and reused, so that the heating cost is reduced to grow the crop.

Korean Patent Registration No. 10-1147609 entitled "Waste Heat Recovery Apparatus" includes a casing forming an external shape of a waste heat recovery apparatus, a fan for sucking air, and a heat exchanger mounted inside the casing.

In the waste heat recovering apparatus configured as described above, the combustion gas passes through the inside of the heat radiating pipe, and the cool air introduced by the fan passes through the outside. At this time, the cool air flowing to the outside of the heat radiating pipe absorbs the heat of the heat radiating pipe heated by the high-temperature combustion gas, thereby recovering the waste heat in the combustion gas, and the warm air flows out to the hood.

As described above, according to the related art, a method of reusing the waste heat by attaching the heat recovery device to the hot-air heater communication effectively while lowering the maintenance cost compared to the method using the hot air by applying the exhaust gas heat to the plate heat exchanger, .

On the other hand, horticultural crops such as tomatoes in the winter are required to be continuously heated since the commercial quality is largely influenced by maintaining the proper temperature.

However, conventionally, there is a problem that there is no communication heat recoverer provided considering such a horticultural crop.

(Patent Document 1) KR10-1147609 B

More specifically, the heat recovery unit, the storage tank, and the fan coil unit capable of recovering the exhaust gas heat discharged through the communication pipe are integrally formed to recycle the heat discharged into the atmosphere And to provide a waste heat recovery apparatus for a warm-air heater capable of reducing heating costs.

In addition, the present invention provides a greenhouse heating system capable of heat recovery from a new type of exhaust gas pipe, which can be installed and maintained easily due to a relatively simple structure as compared with the related art.

According to an aspect of the present invention, there is provided a waste heat recovery apparatus (200) for recycling waste heat discharged from an exhaust gas pipe (50) of a greenhouse heating system (100) The apparatus 200 includes a heat recovery pipe 210 disposed to surround the exhaust gas pipe 50; A hot water supply pipe 260 through which the hot water flowing through the heat recovery pipe 210 circulates; A hot water supply tank 220 disposed on the hot water supply pipe 260; A circulation pump 230 connected to the hot water supply tank 220; And a fan coil unit 240 for transferring the heat of hot water to the greenhouse 7.

The waste heat recovery apparatus 200 further includes a separation plate 225 disposed in the hot water supply tank 220. The separation plate 225 circulates through the hot water supply pipe 260 It may be desirable to allow the car water to flow down and the hot water to move up.

The heat recovery pipe 210 includes a cylindrical pipe disposed outside the exhaust gas pipe 50, a heating medium capable of storing heat in the circular pipe, and a stainless pipe made of a coil type in the circular pipe, It is preferable that the upper and lower plates of the cylindrical tube are formed with holes through which the stainless steel pipe can pass.

According to another aspect of the present invention provided to achieve the above object, a greenhouse heating system 100 includes a radiator main body 1; A combustion furnace (10) for supplying combustion heat into the heater main body (1); A heat exchanger (20) disposed in the heater main body (1) and supplying heating heat through the combustion heat supplied from the combustion furnace (10); A blowing fan (30) for increasing the heat exchange performance of the heat exchanger (20); A power distribution terminal 40 disposed on one side of the radiator main body 1; And the waste heat recovery apparatus 200.

The greenhouse heating system 100 further includes switches 61 and 66 connected to the power distribution terminal 40. The switches 61 and 66 are connected to the blower fan 30 and the burner A first switch 61 connected to the first switch 10; And a second switch (66) connected to the circulation pump (230) and the fan coil unit (240).

As described above, according to the present invention, it is possible to reduce the heating cost by integrally forming a system capable of recovering and reusing the combustion heat discharged to the outside through the exhaust gas pipe when the warm air heater is operated, It is possible to facilitate the installation and maintenance due to the structure.

In addition, the present invention can reuse the coil type stainless steel pipe, which is a cylindrical type, around the exhaust gas pipe and reuse the waste heat into the atmosphere, thereby operating the warm air heater when growing the crop in the winter greenhouse, I will.

In addition, since the hot water storage tank and the fan coil unit are integrally formed, the present invention can reuse the waste heat and effectively utilize the heating cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a whole conceptual view of a greenhouse heating system including a waste heat recovery apparatus for a warm air heater according to an embodiment of the present invention;
FIG. 2 is a conceptual diagram of a hot-air heater according to an embodiment of the present invention;
FIG. 3 is a conceptual diagram of a waste heat recovery apparatus for a hot-air heater according to an embodiment of the present invention;
4 is a use state diagram of the fan coil unit according to the embodiment of the present invention, and Fig.
5 is a view for explaining a power supply system of a greenhouse heating system according to an embodiment of the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an apparatus for recovering waste heat of a warm air heater according to an embodiment of the present invention and a greenhouse heating system including the apparatus will be described in detail with reference to the accompanying drawings.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5, and the same reference numerals are used for the components that perform the same functions in FIG. 1 to FIG.

It is to be understood that both the foregoing general description and the following detailed description of the presently preferred embodiments are merely exemplary and are not to be construed in a limiting sense. Centered on portions.

The apparatus for recovering waste heat of a hot-air heater according to the present invention may be manufactured as an integral type or separately manufactured as required. In addition, some components may be omitted depending on the usage pattern.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an apparatus for recovering waste heat of a warm air heater according to an embodiment of the present invention and a greenhouse heating system including the apparatus will be described in detail with reference to the accompanying drawings.

Greenhouse heating system including waste heat recovery device

First, a greenhouse heating system 100 according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG.

The greenhouse heating system 100 includes a combustion furnace 10 that receives fuel required for combustion from a heater body 1 and a fuel cell 15 and a combustion furnace 10 that is disposed in the heater body 1 and through combustion heat supplied from the combustion furnace 10 A blower fan 30 for increasing the heat exchange performance of the heat exchanger 20, a power distributing terminal 40 disposed on one side of the radiator main body 1, a heat exchanger 20 for supplying heat to the radiator main body 1, A waste heat recovery device 200 for reusing the heat from the exhaust gas pipe 50 connected to the exhaust gas pipe 50 and a greenhouse 7 for receiving heat recycled from the waste heat recovery device 200. Here, the heating system 100 further includes a support plate 3 disposed at a lower end of the heater body 1 and a drive roller 5 rotatably fixed at a lower end of the support plate 3. [

The greenhouse heating system 100 according to the present invention uses the combustion heat of the fuel supplied to the combustion furnace 10 for heating through the heat exchanger 20 and the waste heat discharged to the exhaust gas pipe 50 in the above- So that it can be recovered in the recovery apparatus 200 and reused in the greenhouse 7.

The structure of the waste heat recovery apparatus 200

Hereinafter, the structure of the waste heat recovery apparatus 200 will be described in detail with reference to FIG.

The waste heat recovery apparatus 200 includes a heat recovery pipe 210 disposed to surround the exhaust gas pipe 50, a hot water supply pipe 260 through which the hot water flowing through the heat recovery pipe 210 circulates, A circulation pump 230 connected to the side of the hot water supply tank 220 and a circulation pump 230 connected to the side of the greenhouse 7 for circulating the hot water in the hot water supply tank 220, And a fan body 250 for blowing air to the fan coil unit 240. The fan coil unit 240 includes an air blower 250,

In the meantime, although the fastening members of the respective components are not shown in the waste heat recovery apparatus 200 according to the present invention, the fastening members such as the fastening pins and the like can be used.

The heat recovery pipe 210 may be a coil-shaped stainless steel pipe formed outside the exhaust gas pipe 50, and heat is recovered when the hot water moves from the lower part to the upper part. The hot water recovered through the heat recovery pipe 210 passes through the fan coil unit 240 through the exhaust gas pipe 50 and then through the heat exchange with the air to supply the heating to the greenhouse 7 do.

The heat recovery pipe 210 is composed of a pipe-closed circular pipe 211 installed outside the exhaust gas pipe 50, a heating medium 215 capable of storing heat in the circular pipe 211, And a stainless steel corrugated tube 213 made of stainless steel. The filter-closed cylindrical tube 211 has an upper plate and a lower plate. Holes (not shown) through which the stainless steel corrugated tube 213 can pass are formed in the upper plate and the lower plate.

The separation plate 225 is circulated through the hot water supply pipe 260 so that the separated water flows downward and the hot water moves upward.

The fan coil unit 240 is installed inside the greenhouse 7 and sends the heat recovered from the heat recovery unit 8 to the greenhouse for circulating inside the greenhouse.

On the other hand, the hot water passing through the fan coil unit 240 is configured to continuously recover the heat while passing through the heat recovery pipe 210 again in the hot water supply tank 220.

As described above, in the present invention, since the hot exhaust gas heat discharged into the atmosphere is recovered and the hot water is reused, the thermal efficiency can be increased.

Description of the power supply system centering on the power distribution terminal 40

Referring to FIG. 5, a description will be given of a power distribution and adjustment process centering on the power distribution terminal 40. FIG.

The power distribution terminal 40 is installed on the front surface of the radiator main body 1 and is connected to an external power source and supplies power to the blowing fan 30, the combustion furnace 10, the circulation pump 230, and the fan coil unit 240 To distribute.

The switches 61 and 66 are provided with a blower fan 30, a first switch 61 connected to the combustion furnace 10 and a second switch 66 connected to the circulation pump 230 and the fan coil unit 240 Respectively. The switches 61 and 66 are provided on the outside of the radiator main body 1 and connected to the power distribution terminal 40 to supply power to turn on and off the first switch 61 and the second switch 66 will be.

Specifically, when external power is supplied to the waste heat recovery apparatus 200, the power is distributed to the first switch 61 and the second switch 66 of the switches 61 and 66 through the power distribution terminal 40. The first switch 61 is connected to the blowing fan 30 and the combustion furnace 10 and the second switch 66 is connected to the circulation pump 230 and the fan coil unit 240, (61, 66) are turned on / off and used.

As described above, the power distribution terminal 40 is used by being turned on / off according to the needs of the blowing fan 30, the combustion furnace 10, the circulation pump 230, and the fan coil unit 240, respectively, .

When external power is supplied in a state where the waste heat recovery apparatus 200 according to the embodiment of the present invention is installed in the exhaust gas pipe 50, the power is supplied from the power distribution terminal 40 to the first switch 61 and the second switch 66 A blowing fan 30 connected to the first switch 61 when the first switch 61 and the second switch 66 are operated by the user and a blower fan connected to the combustion furnace 10 so that the hot- It can be adjusted.

In addition, when the second switch 66 is operated, the heat recovered from the circulation pump 230 and the fan coil unit 240 is heated inside the greenhouse, thereby promoting the growth of the horticultural crop.

In this way, the waste heat recovery apparatus 200 according to the embodiment of the present invention is integrally coupled to the radiator main body 1, so that the installation and maintenance can be made convenient due to the relatively simple structure.

In addition, the waste heat recovery apparatus 200 can reduce the energy consumption by setting the second switch 66 separately from the first switch 61 and making the second switch 66 usable as needed.

As described above, according to the present invention, the system for collecting and reusing the heat of combustion discharged to the outside through the exhaust gas pipe when the hot-air heater is operated can be reused by integrating the waste heat recovery apparatus according to the present invention, The simple structure makes the installation and maintenance easy.

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 of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be determined by the claims.

1: Body of radiator
7: Greenhouse
9: Vinyl duct
10: Combustion furnace
15: Fuel tank
20: Heat exchanger
30: Ventilation fan
40: Power distribution terminal
50: gas exhaust pipe
61, 66: Switch
100: Greenhouse heating system
200: waste heat recovery device
210: Heat recovery pipe
220: hot water supply tank
225: separator plate
230: circulation pump
240: Fan coil unit
250: blower
260: Hot water supply piping

Claims (5)

A waste heat recovery apparatus (200) for recycling waste heat discharged from an exhaust gas pipe (50) of a greenhouse heating system (100)
The waste heat recovery apparatus (200)
A heat recovery pipe (210) arranged to surround the exhaust gas pipe (50);
A hot water supply pipe 260 through which the hot water flowing through the heat recovery pipe 210 circulates;
A hot water supply tank 220 disposed on the hot water supply pipe 260;
A circulation pump 230 connected to the hot water supply tank 220; And
And a fan coil unit (240) for transferring the heat of hot water to the greenhouse (7).
A waste heat recovery device (200).
The method according to claim 1,
The waste heat recovery apparatus (200)
And a separation plate 225 disposed in the hot water supply tank 220,
Wherein the separation plate (225) circulates through the hot water supply pipe (260), and the hot water flows to the upper portion while the cold water flows downward.
A waste heat recovery device (200).
The method according to claim 1,
The heat recovery pipe 210 includes a circular pipe 211 installed outside the exhaust pipe 50, a heating medium 215 capable of storing heat in the circular pipe 211, And a stainless pipe 213 made of a coil type,
Wherein a hole through which the stainless pipe (213) passes is formed on the upper and lower plates of the cylindrical pipe (211)
A waste heat recovery device (200).
A radiator main body 1;
A combustion furnace (10) for supplying combustion heat into the heater main body (1);
A heat exchanger (20) disposed in the heater main body (1) and supplying heating heat through the combustion heat supplied from the combustion furnace (10);
A blowing fan (30) for increasing the heat exchange performance of the heat exchanger (20);
A power distribution terminal 40 disposed on one side of the radiator main body 1; And
A waste heat recovery apparatus (200) according to any one of claims 1 to 3,
Greenhouse heating system (100).
5. The method of claim 4,
In the greenhouse heating system 100,
Further comprising switches (61, 66) connected to the power distribution terminal (40)
The switches 61,
A first switch 61 connected to the blowing fan 30 and the furnace 10; And
And a second switch 66 connected to the circulation pump 230 and the fan coil unit 240
Features,
Greenhouse heating system (100).

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