KR200205340Y1 - Hot blast machine - Google Patents

Abstract

The present invention makes it possible to control the temperature of the entire room by distributing clean hot air evenly in the room through the indirect heat exchange method of the heat exchanger that heat-exchanges hot water heated by the boiler with indoor air and discharges the heat-exchanged air back to the room. The present invention relates to an indirect hot air blower for livestock farming, which can prevent damage caused by waste gas and maximize fuel savings by maintaining a large room temperature uniformly with a single device.

Description

Indirect hot air blower for agricultural and livestock farming

The present invention relates to a hot air blower for agricultural livestock.

As is well known, the inside of the house, which is a hotbed made of vinyl for the purpose of the vegetable cultivation or the cultivation of crops such as tropical plants, and the livestock raising of cattle, pigs, chickens, etc. Maintaining vegetables, tropical plants, and livestock is desirable.

In order to maintain the indoor temperature, a conventional hot air blower used in winter is proposed and used to directly discharge a heat generated by burning oil to increase the indoor temperature, which will be described in detail with reference to FIG. 1. Is as follows.

In the conventional direct type hot air blower, a blowing unit 11 for pumping and spraying oil on the upper portion of the oil tank 10 is seated, and the front of the blowing unit 11 ignites the oil injected by force to generate a flame. The combustion part 12 is comprised, and the discharge part 13 which communicates with the outside directly is comprised in this combustion part 12. As shown in FIG. This direct type hot air fan is configured as a mobile that can be used while moving indoors.

However, the conventional direct type hot air blower as described above not only impairs the health of workers working indoors because hot air and waste gas generated by burning oil are discharged into the room at the same time, and also causes waste gas to be directly introduced into crops. There is a problem that pollutes the soil.

In addition, since the temperature of the hot air discharged directly through the discharge port is close to the hot air fan is higher than necessary, and the temperature of the remote air is relatively low, the temperature of the entire room cannot be controlled. Since the consumption of the gas is increased, and a plurality of hot air fans are installed to increase the heating efficiency of the room, not only the cost of the apparatus itself increases but also the consumption of fuel is uneconomical.

The present invention has been made in view of the above-mentioned conventional defects, and its object is to discharge the clean hot air generated through the indirect heat exchange method so as to be distributed evenly in the room, and to control the temperature of the entire room. It is to provide an indirect hot air blower for livestock farming to prevent damage caused by fuel, and to save fuel by maintaining a large room temperature uniformly with a single device.

The present invention hot air blower for achieving the above object is characterized in that it comprises a heat exchanger for heat-exchanging hot water heated by a boiler with indoor air, and discharge the heat-exchanged air back to the room.

The heat exchanger includes a heat exchanger which connects the hot water discharge pipe drawn from the upper part of the boiler to the upper part and connects the hot water inlet pipe drawn from the lower part of the boiler to the lower part, and a suction blower that sucks outside air at the upper part of the heat exchanger. Is mounted, the outer side of the heat exchanger is equipped with a discharge blower for discharging the heat-exchanged air to the outside, the discharge fan is characterized in that the discharge port for connecting the discharge pipe made of vinyl.

1 is a cross-sectional view of a conventional direct-discharge type hot air blower.

2 is a perspective view of the present invention

3 is a cross-sectional view of the present invention

4 is a configuration diagram showing an installation state of the present invention

<Explanation of symbols for the main parts of the drawings>

20: boiler 30: heat exchanger

31: heat exchanger 32: suction blower

33: discharge blower 34: discharge port

35: discharge tube 36: outer body

Hereinafter, the configuration of an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a perspective view of the present invention, Figure 3 is a cross-sectional view of the present invention.

The indirect hot air heater of the present invention includes a boiler 20 for heating and circulating water as usual, and heat-exchanging hot water heated and circulated through the boiler 20 with indoor air, and discharging the heat-exchanged air. It is made by configuring the heat exchanger 30, it will be described in more detail as follows.

The boiler 20 is a hot water boiler with a built-in stainless steel combustion furnace (not shown) is used, the hot water discharge pipe 21 for discharging hot water heated through the combustion furnace at the top of the boiler 20 It is provided, the hot water discharge pipe 21 is connected to the water supply 22, the water supply is automatically controlled. In addition, a pump 23 for pumping the hot water discharged through the hot water discharge pipe 21 forcibly circulated through the hot water discharge pipe 21 is connected to the lower part of the boiler 20 to draw the hot water inlet pipe 24 connected to the lower part of the combustion furnace.

The heat exchanger 30 is configured to form an inlet distributor 311 at the top and an outlet distributor 312 at the bottom, and stacks a plurality of fins 313 therebetween, thereby discharging the inlet distributor 311 and the outlet. The heat exchanger 31 is arranged in a zigzag state of the pipe 314 leading to the distributor 312, and connects the hot water discharge pipe 21 drawn out to the upper portion of the boiler 20 to the inlet distributor 311. , And extends the hot water inlet pipe (24) drawn from the lower side through the discharge distributor (312) of the heat exchanger (31).

In addition, an upper portion of the heat exchanger 31 is mounted on the outer body 36 such that a suction blower 32 that sucks outside air acts downwardly so that a blowing force is applied to the outside of the heat exchanger 31. A discharge blower 33 for discharging to the outside is mounted on the protection net 37, and an outer discharge hole 34 for connecting the discharge pipe 35 made of vinyl is provided on the outer side of the discharge blower 33. It is configured on the side wall.

The heat exchange part 30 may be provided with a heat exchanger 31, a discharge blower 33 and a discharge pipe 35, one by one, or a pair of opposite sides, respectively, Figs. This is an example of pairing. In addition, the indirect hot air blower is provided with a discharge pipe 35 in which discharge holes 351 are formed at positions spaced at regular intervals, as shown in FIG. 4, to determine the length and the like according to the installation conditions of the hot air blower. 34). Preferably, the discharge pipe 35 selects a material to be flexible, such as vinyl.

Next, the process of heating the room by the present invention hot air heater configured as described above is as follows.

When the boiler 20 is operated while the water supplied through the water supply 22 is filled in the boiler 20 and the heat exchanger 31, the heated hot water is discharged to the hot water discharge pipe 21 to discharge the water from the heat exchanger 31. It is introduced into the pipe 314 through the inlet distributor 311.

At this time, when the indoor air is introduced into the outer body 36 by the suction blower 32, the air introduced at the same time passes between the fins 313 of the heat exchanger 31 by the suction force of the discharge blower 33. At the same time, after being heat-exchanged with a high temperature, it passes through the discharge pipe 35 through the protection net 37 and the discharge port 34. Thus, the heat passing through the discharge pipe 35 is discharged to the discharge port 34 through the appropriate place of the discharge pipe 35.

The hot water heat exchanged with the indoor air sucked while passing through the heat exchanger 31 as described above is forced into the combustion furnace side through the hot water inlet pipe 24 and heated, and then heat exchanger 31 through the above process. The exhaust gas generated when the oil is combusted in the boiler 20 is repeatedly discharged to the outside via the exhaust pipe 25.

As described above, the present invention heat-distributes hot water heated by a boiler with indoor air, and distributes clean hot air evenly through the indirect heat exchange of the heat exchanger to discharge the heat-exchanged air back to the room, thereby maintaining the temperature of the entire room. It is possible to control, to prevent damage caused by waste gas, and to have the advantage of maximizing fuel savings by maintaining a large room temperature uniformly with a single device.

Claims (1)

In a hot air fan that generates hot air to heat the room, A hot water discharge pipe 21 for discharging hot water heated through a stainless steel combustion furnace is provided at an upper portion thereof, and a water heater 22 for automatically controlling water supply is connected to the upper portion of the hot water discharge pipe 21, and the hot water discharge pipe ( A pump 23 for pumping the hot water discharged through 21 forcibly circulated is connected to the lower part, and a hot water inflow pipe 24 is provided outside the pump 23 to transfer the hot water heated in the combustion furnace to the outside. A boiler 20 which is discharged and heat-exchanged and then circulated back to the combustion furnace side; An inlet distributor 311 and an outlet distributor 312 are configured at the upper portion, and a plurality of fins 313 are transported therebetween, so that a pipe 314 is connected to the inlet distributor 311 and the outlet distributor 312. A heat exchanger 31 arranged in a zigzag state is provided, and the hot water discharge pipe 21 drawn out to the upper portion of the boiler 20 is connected to the inlet distributor 311, and the hot water inlet pipe 24 of the boiler is a heat exchanger. It is connected to the discharge distributor 311 of the (31), the suction blower 32 for generating a blowing force in the upper portion of the heat exchanger 31 is mounted, the side of the heat exchanger 31 is sent outwardly A discharge blower 33 for generating wind power is mounted, and a discharge port 34 is formed outside the discharge blower 33, and a plurality of discharge holes 351 are formed in the discharge hole 34 at regular intervals. Indirect type heat for livestock production, characterized in that the discharge pipe 35 is connected to a predetermined length Group.