KR200275991Y1 - hot blast machine - Google Patents

Abstract

The present invention, after discharging the heated hot water from the combustion furnace of the boiler to the outside to heat exchange, the pipes are densely arranged at regular intervals so as to be circulated back to the combustion furnace side to the other side of the pipe in a zigzag state to the other side. And an inlet distributor for introducing water from the outside to the inlet side of the pipe, and equipped with a heat exchanger having a discharge distributor for discharging water passing through the pipe into the boiler at the outlet side of the pipe. In the livestock indirect type hot air fan, by installing an electric heater inside the inlet distributor and the outlet distributor, when the hot water heated by the boiler is heat exchanged in the indoor air and the heat exchange unit, and the temperature of the hot water introduced through the inlet distributor , Heating the hot water by reducing the temperature difference of the hot water discharged through the discharge distributor as much as possible In addition to reducing the operating time of the boiler, it also reduces the consumption of diesel fuel to operate the boiler, thus preventing environmental pollution and reducing the oxygen deficiency of the room. will be.

Description

Hot blast machine for agricultural and livestock farming

The present invention relates to a hot air blower for farming and 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. It must be maintained to facilitate the growth of livestock such as vegetables or tropical plants.

In order to maintain the indoor temperature, the conventional hot air blower used in the winter has been proposed and used as a direct type hot air blower which directly increases the indoor temperature by directly discharging heat generated by burning oil. The explanation is as follows.

In the conventional direct type hot air blower, a blower part 11 for forcibly pumping and injecting oil is seated on the upper portion of the oil tank 10, and the front of the blower part 11 ignites oil that is forcibly sprayed to ignite a flame. The combustion part 12 which generate | occur | produces is comprised, This discharge part 12 is comprised with the discharge port 13 which communicates with the outside directly. Such a 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 to the room at the same time, and waste gas is directly introduced into crops, thus preventing growth. There was a problem that caused the soil and polluted the soil.

In addition, since the temperature of the hot air discharged directly through the discharge port is close to the hot air fan, the temperature of the position close to the hot air fan is higher than necessary. As the consumption of fuel is increased and several hot air fans are installed to increase the heating efficiency of the room, not only the cost of the device itself is increased but also the consumption of fuel is uneconomical.

In order to solve the above problems, the present applicant used an indirect type hot air blower for agricultural and livestock applications filed in 1998 Utility Model Registration No. 14063 and registered as No. 209130.

The agricultural and livestock indirect type hot air blower as described above, as shown in Figures 2 and 3, the boiler (in the state that the water supplied through the water supply 22 is filled in the boiler 20 and the heat exchanger (31). 20, the heated hot water is discharged to the hot water discharge pipe 21 is introduced into the pipe 314 through the lower portion of the inlet distributor 311 of the heat exchanger (31).

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 is between the fin 313 of the heat exchanger 31 by the suction force of the blower 33 for discharge. After passing through and heat-exchanged with a high temperature, the guide 38 divides and guides the discharge blower 33 to each side, and passes through the discharge pipe 35 through the protection net 37 and the discharge port 34.

In this way, the heat passing through the discharge pipe 35 is discharged to the discharge hole 34 through the appropriate place of the discharge pipe 35, the air flow guide through the guide 38 is discharged separately between each blower It is possible to operate, for example, when one of the discharge blower 32 is damaged by preventing the reverse circulation of the external air due to the operation of the normal discharge blower 32, it is possible to prevent the cooling of agricultural and livestock products Will be.

In addition, the hot water heat exchanged with the indoor air sucked while passing through the heat exchanger is discharged through the discharge hot water distribution pipe (3120), forcibly introduced into the combustion furnace side of the boiler 20 via the hot water inlet pipe (24), Thereafter, the heat exchanger is repeatedly circulated to the heat exchanger 31 through the above process, and continuously heat exchanged. The exhaust gas generated when the oil is combusted in the boiler 20 is discharged to the outside via the exhaust pipe 25. .

By the way, the recent indirect hot air blower as described above has the advantage of solving the problems of the conventional direct hot air blower, but because of the large consumption of light oil supplied to operate the boiler, there was an uneconomical problem, Polluting the environment with soot and also operating the boiler in the room for a long time, the indoor air is turbid, there is a problem that damage to agricultural and livestock products.

The present invention is made in view of the above-mentioned conventional defects, the purpose of which is when the hot water heated by the boiler heat exchange in the heat exchanger with the indoor air, the temperature of the hot water introduced through the inlet distributor, heat exchange By reducing the temperature difference between the hot water discharged through the discharge distributor as much as possible, not only can reduce the operating time of the boiler heating the hot water, but also reduce the consumption of diesel oil to operate the boiler, thus preventing environmental pollution and lack of oxygen in the room. It is to provide an indirect hot air blower for farming and livestock that can keep indoor air clear due to the small number of phenomena.

The present invention for achieving the above object, by discharging the heated hot water from the combustion furnace of the boiler to the outside to heat exchange, and then to the other side of the pipe densely arranged at regular intervals so as to circulate again to the combustion furnace side. Piping in a zigzag state to the side, an inlet distributor is provided on the inlet side of the pipe to allow water to flow from the outside, the outlet side of the pipe is provided with a discharge distributor for discharging so that the water passed through the pipe back into the boiler Indirect type heat blower for agricultural and livestock equipped with a heat exchanger, characterized in that for reducing the temperature difference between the temperature of the hot water introduced and the heat exchanger discharged by mounting an electric heater inside the inlet distributor and the discharge distributor.

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

2 is a perspective view of a conventional indirect discharge type hot air blower

3 is a cross-sectional view of a conventional indirect discharge type hot air blower

4 is a cross-sectional view of the indirect discharge type hot air blower to which the present invention is applied.

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

20: boiler 30: heat exchanger

31: heat exchanger 311: inlet distributor

312: exhaust distributor 40: electric heater

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 4 is a cross-sectional view of an indirect discharge type hot air blower to which the present invention is applied.

The present invention, after discharging the hot water heated in the combustion furnace of the boiler 20 to the outside to heat exchange, and then the fin 313 is densely arranged at regular intervals so as to circulate again to the combustion furnace side of the pipe 314 An inlet distributor 311 is provided on one side and is zigzag to the other side, and an inlet distributor 311 is provided at the inlet side of the pipe 314 to allow water to flow from the outside, and passes through the pipe 314 at the outlet side of the pipe 314. In the agricultural and livestock indirect type hot air fan equipped with a heat exchanger 30 is provided with a discharge distributor 312 for discharging the water back into the boiler,

The electric heater 40 is mounted inside the inlet distributor 311 and the outlet distributor 312 to reduce the temperature difference between the incoming hot water and the heated water.

The following describes the process of heating the room by the present invention hot air heater configured as described above.

First, 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 exchange the heat exchanger ( 31 is introduced into the pipe 314 through the lower part of the inlet distributor 311.

At this time, the hot water introduced into the inlet distributor 311 is heated by the electric heater 40 mounted inside the inlet distributor 311 higher than the temperature of the hot water at the inlet or at least maintain the temperature of the hot water at the inlet. Will be maintained.

When the hot water introduced into the inlet distributor 311 moves to the outlet distributor 312 through the fan 313, the suction blower 32 flows in the indoor air and at the same time the air introduced is discharged. After passing between the fins 313 of the heat exchanger 31 by the suction force of the blower 33 and heat-exchanged with the high temperature, the guide 38 divides and guides them to the respective discharge blower 33 side to protect the protection net 37 And discharge through the discharge port 34 to the discharge tube (35).

The high temperature air discharged to the discharge tube 35 is discharged into the room through the through-holes in a suitable place to prevent the deterioration of agricultural and livestock products.

In addition, while passing through the inside of the heat exchange unit 30 as described above, the hot water heat exchanged with the indoor air is moved into the discharge distributor (312). At this time, the heat-exchanged hot water flowing into the discharge distributor 312 is converted into hot water of a higher temperature than the temperature of the hot water heat exchanged by the electric heater 40 mounted inside the discharge distributor 312, the hot water inflow The tube 24 is forcibly discharged to the combustion furnace side of the boiler 20.

Through a series of processes as described above it is possible to discharge the air of a high temperature to prevent the cooling of agricultural and livestock products.

As described above, the present invention, when the hot water heated by the boiler is heat exchanged in the indoor air and the heat exchanger, the temperature difference of the hot water introduced through the inlet distributor and the temperature difference of the hot water discharged through the discharge distributor as possible to reduce as much as possible According to the present invention, it is possible to reduce the operating time of the boiler for heating hot water, and to reduce the consumption of diesel oil to operate the boiler, thereby preventing environmental pollution and reducing the oxygen deficiency of the room. will be.

Claims (1)

After discharging the heated hot water from the combustion furnace of the boiler 20 to the outside and heat-exchanging, the 휜 313 densely arranged at regular intervals so as to be circulated again to the combustion furnace side to the other side of the pipe 314 Piping in a zigzag state, the inlet distributor 311 is provided on the inlet side of the pipe 314 to allow water to flow from the outside, the water passing through the pipe 314 to the outlet side of the pipe 314 is boiler In the indirect hot air blower for agricultural and livestock equipped with a heat exchanger (30) equipped with a discharge distributor (312) for discharging to be brought back into the furnace, The electric heater 40 is installed inside the inlet distributor 311 and the outlet distributor 312 to reduce the temperature difference between the temperature of the incoming hot water and the heat exchanged. .