KR20150118384A - warmth supply apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot-air supply device for a greenhouse, and more particularly, to a hot- A main body having a suction fan at an upper air inlet to receive cold air from the outside, a hot air outlet at a lower portion thereof, and a fuel feed pipe connected to a cover flange coupled to an opening at one side; An ignition means is provided in one side of the main body and inserted into the fuel transfer pipe to inject charcoal powder and to ignite the charcoal powder, and charcoal powder is uniformly dispersed by a dispersing plate provided in front of the fuel transfer pipe A first chamber; A heat exchange tube coupled to one end of the first chamber to exchange heat between the combustion heat of the char powder and air inside the body; The heat exchange time is extended due to heat exchange again with the air in the main body while circulating the waste heat along the circulation passage formed in the zigzag by the inner partition, which is embedded in the other side of the main body and coupled to the other end of the heat exchange tube. A second chamber having an exhaust port at an end of the circulation passage; A reservoir containing the above-mentioned charcoal powder and supplying charcoal powder to the fuel transfer pipe through a lower outlet; And a first compressed air supply pipe connected to the fuel feed pipe and adapted to feed charcoal powder into the first chamber by the air pressure supplied from the compressed air supply means.

Description

Warmth supply apparatus for a greenhouse

The present invention relates to a hot-air supply device for a greenhouse, and more particularly, to a greenhouse for a green house which can recycle and burn charcoal powder made of waste wood in a greenhouse or a farmhouse, The present invention relates to a hot air supply device.

Generally, a heating device (hot-air supply device), which is mainly used in winter in a greenhouse of a farmhouse where a crop or a garden grows, generates hot air and hot water by firearm, combustion gas, other hot gas or electric energy. The fuel used as the heat source of the heating device includes solid fuel such as coal, coke, and charcoal, and gas fuel such as city gas, liquid fuel such as oil, alcohol, and liquid natural gas. However, due to the increase in the fuel cost, there is a problem in that the heating is increased. Therefore, various methods for recycling waste materials are being researched and developed.

Here, wood and furniture plywood (MDF), which are generated in large quantities in construction, civil engineering, industrial field, and living environment, are recycled after being buried after being crushed or treated separately. If the waste wood is buried, it will pollute the soil and inhibit the growth of plants and animals. It is not good because it acts as a cause of environmental pollution and it takes a lot of time to be decomposed in the soil when buried, which is an irrational problem. Accordingly, if the waste wood is treated by incineration, the generation of pollutants can be reduced and the treatment cost can be significantly reduced.

Particularly, the waste wood is finely crushed and then incinerated at an incinerator at a high temperature. At this time, harmful substances (dioxins, nitrogen, etc.) are generated in large quantities. Thus, the applicant of the present invention has previously disclosed in Korean Patent No. 10-0993191 (2010.11. 03.), which has been registered and announced, and a detailed description thereof will be omitted as it is already known. According to this, the waste wood is completely burned to completely reduce the amount of residues generated after incineration, as well as the amount of pollutants to be generated is low, thereby preventing environmental pollution when buried in the ground and providing a good component for plant growth. Here, the waste wood is burned and the remaining charcoal is recovered and finely pulverized, so that it can be recycled as a fuel for composting or heating for plant cultivation.

1. Domestic registered patent No. 10-0993191 (Nov. 3, 2010, the same invention by the present applicant)

An object of the present invention is to provide a method and an apparatus for generating hot air by bringing a fine powder of charcoal powder into a first chamber in a main body to generate combustion heat to generate hot air by bringing the heat of combustion and external cold air into thermal contact with each other, And the heat efficiency can be improved by performing heat exchange again in the second chamber.

The present invention reduces the density of the charcoal powder contained in the reservoir and smoothly feeds and supplies the fuel through the fuel delivery line connected to the first chamber by the pressure of the compressed air. In addition, the above-mentioned charcoal powder is provided with a hot-air supply device for a greenhouse, which is capable of saving resources and reducing heating costs by recycling charcoal components generated after incineration of waste wood and finely pulverizing the same There is another purpose in.

The present invention relates to a warm air supply device for a greenhouse, which comprises a suction fan at an upper air inlet, a cold air inlet for the outside, a hot air outlet at the bottom, and a fuel delivery pipe Coupled body; An ignition means is provided in one side of the main body and inserted into the fuel transfer pipe to inject charcoal powder and to ignite the charcoal powder, and charcoal powder is uniformly dispersed by a dispersing plate provided in front of the fuel transfer pipe A first chamber; A heat exchange tube coupled to one end of the first chamber to exchange heat between the combustion heat of the char powder and air inside the body; The heat exchange time is extended due to heat exchange again with the air in the main body while circulating the waste heat along the circulation passage formed in the zigzag by the inner partition, which is embedded in the other side of the main body and coupled to the other end of the heat exchange tube. A second chamber having an exhaust port at an end of the circulation passage; A reservoir containing the above-mentioned charcoal powder and supplying charcoal powder to the fuel transfer pipe through a lower outlet; And a first compressed air supply pipe connected to the fuel feed pipe and supplied with charcoal powder into the first chamber by the air pressure supplied from the compressed air supply means.

According to the present invention, the reservoir is provided with a discharge guide for dispersing a load of charcoal powder on the discharge port to prevent aggregation.

According to another aspect of the present invention, there is provided diffusion means for injecting air into the first chamber through a separate air inlet pipe to assist combustion and diffusion of the inner charcoal powder.

The present invention is characterized in that, by using the combustion heat generated by the combustion of fine charcoal powder in the first chamber, the heating temperature caused by the char component is very high, the thermal efficiency is excellent, and the rapid heating is possible, It provides excellent effects. The heat exchange efficiency is further improved by circulating the waste heat exchanged through the heat exchange tube through the circulation passage in the second chamber and extending the time of the thermal contact with the air inside the body.

In addition, the above-mentioned charcoal powder is accompanied with economic effects such as recycling the waste charcoal by recycling waste wood, thereby saving resources and significantly lowering the heating cost. In particular, it can be heated quickly and efficiently when the heating area is wide, such as a vinyl house of a farmhouse where crops and horticultural crops are cultivated. Since it is economical to save heating costs by more than half, And the like.

In addition, since the unit density is lowered due to the provision of the discharge guide at the lower part of the reservoir, the charcoal powder is smoothly supplied without aggregation and smoothly fed to the first chamber along the fuel transfer pipe by the air pressure to maximize the combustion efficiency It is effective. In addition, the first chamber is provided with a means for diffusing charcoal powder, so that the charcoal powder is uniformly diffused and distributed in the first chamber and uniformly supplied to the heat-exchanging tube, thereby maximizing heat exchange efficiency.

Further, the present invention can be mass-produced because it is simple in structure, robust and has a long life, and can be easily manufactured and produced, and the production cost and the price of the product are low, so that the penetration rate can be increased in the farmhouse. It is advantageous that it can be conveniently used for a long period of time in a farm where one hand is lacking.

1 is a front view showing a durable structure of a warm air supply device 100 for a greenhouse according to a preferred embodiment of the present invention;
Fig. 2 is a side view showing the cross section taken along line "A" to "A "

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. A detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

According to the present invention, in the hot-air supply device for a greenhouse according to the present invention, a suction fan (13) is provided in an upper air inlet (12) to receive external cold air and a hot air outlet A main body 10 through which a fuel feed pipe 26 is coupled to a cover flange 16 coupled to an opening of one side face; An ignition means 27 is provided at one side of the main body 10 for injecting the charcoal powder C by inserting the fuel transfer pipe 26 and for igniting the charcoal powder C, A first chamber 20 in which the charcoal powder C is uniformly dispersed by the dispersing plate 22 provided in front of the first chamber 26; A heat exchange tube (24) having one end coupled to the first chamber (20) to exchange heat between the combustion heat of the charcoal powder (C) and the air inside the main body (10); The waste heat is circulated along the circulation passage 34 which is embedded in the other side of the main body 10 and is coupled to the other end of the heat exchange tube 24 and is zigzag by the partition 32, A second chamber (30) having an exhaust port (36) at the end of the circulation passage (36); A reservoir (40) containing the charcoal powder (C) and supplying the charcoal powder (C) to the fuel feed pipe (26) through a lower outlet (42); And a first compressed air supply pipe body 52 connected to the fuel feed pipe 26 and supplied with charcoal powder C into the first chamber 20 by the air pressure supplied from the compressed air supply means 50 .

The above is explained in more detail as follows.

The hot air supply device 100 for a greenhouse of the present invention comprises a main body 10 having an air inlet 12 and a hot air outlet 14, a first chamber 20 and a second chamber 30, A heat exchange tube 24, a charcoal powder reservoir 40 provided at one side of the main body, a compressed air supply means 50, and the like.

The main body 10 is formed as an enclosed space inside and has one or more air inlets 12 on its upper surface to receive external air and a warm air outlet 14 on the front and rear sides of the lower body to emit warm air . The air inlet 12 is provided with a suction fan 13 for forcibly supplying outside air to the lower hot air outlet 14 or the suction fan 13 can be arranged at the outlet side of the hot air outlet Do. In addition, a pedestal 38 is installed in the lower part of the second chamber 30, which is fixed to the pedestal 28 and has a first chamber 20 at the center of the body. The first and second chambers 20 and 30 are connected to one or a plurality of heat exchange tubes 24 and are brought into thermal contact with air in the main body to perform heat exchange. The main body 10 is provided with a heat insulating material 18 on its inner surface to prevent heat loss.

The main body 10 is inserted into the main body 10 through the cover flange 16 and the cover flange 16 and the fuel feed pipe 26 is inserted into the main body 10 through the opening formed in one side surface thereof. The fuel feed pipe 26 is inserted into the first chamber 20 to supply the charcoal powder C thereto.

The second cover flange 21 is coupled to the opening in the center of the side of the first chamber 20 so that the charcoal powder C is injected through the fuel feed pipe 26 inserted into the second cover flange 21. [ And the charcoal powder C is ignited and burned by the ignition means 27 on one side. At this time, since the dispersion plate 22 supported by the support table 23 is provided in front of the fuel transfer pipe 26, the charcoal powder C is uniformly dispersed in the first chamber interior space while being burned. As a result, the air is evenly introduced into the heat-exchanging tube 24 and equally thermally contacted with the air (cold air) inside the main body. The ignition means 27 is for generating a spark to ignite the charcoal powder, and has an electrical configuration such as an igniter and a transformer.

The cover flange 16 and the second cover flange 21 are assembled by means of fastening means such as bolts and nuts or the like so as to be intercepted or reversely opened and connected to the fuel feed pipe 26 and the first compressed air injection pipe 52, So that it is easy to open the opening of the main body and the chamber and to clean the inside of the chamber.

The second chamber 30 is for recycling the waste heat that is discarded after heat exchange through the heat exchange tube 24 from the other side of the main body 10. The second chamber 30 circulates along the inner circulation passage 34, Heat exchange with the air. To this end, a plurality of chambers 32 are provided at regular intervals in the second chamber so that the circulation passage 34 alternately circulates upward and downwardly, thereby increasing the thermal contact time. An exhaust port 36 is provided at one end of the exhaust port 36 of the second chamber and the exhaust port 36 is formed at the end of the circulation path 36 to extend the exhaust duct to the outside, .

The reservoir 40 contains charcoal powder C and supplies the charcoal powder C to the fuel feed pipe 26 through the lower outlet 42. At this time, the compressed air is supplied through the first compressed air supply tube 52 coupled to the fuel transfer pipe 26, so that the char powder is transferred by the air pressure (air flow) to the first chamber. At this time, the charcoal powder (C) is finely ground powder of waste wood, and is smoothly supplied and supplied along the air stream of the compressed air, and is ignited and burnt by the ignition means. The first compressed air supply pipe 52 is installed obliquely toward the first chamber in which the charcoal powder advances and is connected to compressed air supply means 50 for generating compressed air to supply compressed air. The compressed air supply means 50 includes a compressor (compressor) or a hair hose.

According to the present invention, the reservoir (40) is provided with a discharge guide (44) for dispersing the load of the charcoal powder (C) on the discharge port (42) to prevent aggregation. That is, the fine charcoal powder C contained in the reservoir 40 is supported by the discharge guide 44 provided in the inner lower portion of the reservoir because the particles are fine. As the compressed air is supplied through the second compressed air supply tube 54 provided at the lower portion of the discharge guide 44, the unit density of the char powder is lowered downwardly through the discharge guide. Therefore, the charcoal powder is prevented from being clogged by its own weight and prevented from clumping, and stagnation or clogging at the lower outlet is effectively prevented, and the discharge is smooth. The discharge guide 44 may be formed of a perforated plate or a screen having a plurality of holes formed therein. The second compressed air supply pipe 54 is connected to the compressed air supply means 50 and has an inlet 46 for supplying charcoal powder to one side of the upper portion of the reservoir 40.

According to the present invention, the first chamber 20 is provided with diffusing means for injecting air into the separate air inlet pipe 60 to assist combustion and diffusion of the inner charcoal powder C. In other words, the air inlet pipe 60 is provided adjacent to the lower portion of the fuel feed pipe 26 and includes a blowing fan 62 for sucking outside air, and blows outside air toward the above- Thereby dispersing the charcoal powder C evenly. As a result, the combustion is promoted and the diffusion rate is increased in the first chamber, so that heat is uniformly injected evenly into the heat exchanging tube, and the heat exchange efficiency is improved.

10: Body 12: Air inlet 13: Suction fan
14: exhaust port 16: cover flange 18:
20: first chamber 21: second cover flange 22:
23: support member 24: heat exchange tube 26: fuel delivery pipe
27: ignition means 28, 38: pedestal 30: second chamber
32: partition 34: circulation passage 36: exhaust port
40: Reservoir 42: Exhaust port 44: Discharge guide
46: inlet 50: compressed air supply means
52: First compressed air supply pipe
54: second compressed air supply pipe 60: air inlet pipe
62: blowing fan C: charcoal powder

Claims (3)

A hot-air supply apparatus for a vinyl house,
The air inlet 12 of the upper portion is provided with a suction fan 13 to receive the cold air from the outside and the hot air outlet 14 to the lower portion and the cover flange 16 to be coupled to the opening of one side, (10);
An ignition means 27 is provided at one side of the main body 10 for injecting the charcoal powder C by inserting the fuel transfer pipe 26 and for igniting the charcoal powder C, A first chamber 20 in which the charcoal powder C is uniformly dispersed by the dispersing plate 22 provided in front of the first chamber 26;
A heat exchange tube (24) having one end coupled to the first chamber (20) to exchange heat between the combustion heat of the charcoal powder (C) and the air inside the main body (10);
The waste heat is circulated along the circulation passage 34 which is embedded in the other side of the main body 10 and is coupled to the other end of the heat exchange tube 24 and is zigzag by the partition 32, A second chamber (30) having an exhaust port (36) at the end of the circulation passage (36);
A reservoir (40) containing the charcoal powder (C) and supplying the charcoal powder (C) to the fuel feed pipe (26) through a lower outlet (42);
And a first compressed air supply pipe body 52 connected to the fuel feed pipe 26 and supplied with charcoal powder C into the first chamber 20 by the air pressure supplied from the compressed air supply means 50 And the hot wind supply device for a greenhouse.
The method according to claim 1,
Wherein the reservoir (40) is provided with a discharge guide (44) for distributing the load of the charcoal powder (C) on the discharge port (42) to prevent aggregation.
The method according to claim 1,
Wherein the first chamber (20) is provided with diffusing means for injecting air into a separate air inlet pipe (60) to help combustion and diffusion of the inner charcoal powder (C).

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