KR100963306B1 - An instrument which supply with hot wind - Google Patents

Abstract

PURPOSE: An industrial hot-air bower rapidly supplying gale by maximizing the airflow using one hot-air bower is provided to increase the thermal transfer efficiency of a heat transfer pipe and to reduce the heat loss by the abrupt temperature difference. CONSTITUTION: An industrial hot-air bower comprises an electric fan(235), a heat medium tank(200), a plurality of heat transfer pipes(150), a main chamber(110), an auxiliary chamber, a auxiliary heat medium tank, a auxiliary heat transfer pipe. The electric fan gives the compressed air to an outlet(115) from an inlet(230). Heat transfer pipes are connected to the heat medium tank. A heat source supply part(250) heats the heat medium tank. The main chamber is connected to the auxiliary chamber. The auxiliary chamber discharges the heated air by an auxiliary ventilation unit. The auxiliary heat medium tank is exposed to the main chamber. The auxiliary heat transfer pipe is projected and heats the air facing to the inlet.

Description

Industrial Heater {An instrument which supply with hot wind}

The present invention is to expand the heat transfer area by the heat transfer pipe that is supplied with fruit while smoothly flowing the flow of the wind is supplied to the industrial hot air to quickly supply the hot air to the large area by the heat transfer of each heat transfer pipe is carried out quickly It is about.

Hot air fans are widely used in various industrial sites, and hot air fans of various configurations using oil, gas, and electricity are used.

In particular, in the case of using a hot air fan for crop cultivation facilities such as glass greenhouses or vinyl houses, a hot air fan that uses oil and gas as fuel supplies hot air heated by a boiler to the inside of a house through a blow duct, or installs heated water inside the house. Although it takes a method of heating the room air by supplying it to one heating unit, oil and gas have a lot of economic burdens due to fuel costs, and also has a problem such as the driving noise is severe, which hinders the growth of plants.

In recent years, the hot air fan using electric energy is being supplied, but the hot air fan currently being used is configured to forcibly discharge the heat generated by the electric heater to the blower fan. There is a problem in that a large amount of electromagnetic waves are in use.

In order to improve such a problem, Utility Model Registration No. 352827 discloses an industrial hot air fan 1, the configuration of which is as shown in Figure 1, the blowing fan 4 and the main body (2) for blowing inside the main body (2) A duct 5 for discharging air via the air is provided, and the main body 2 is electrically connected by arranging the radiators 6 in a horizontal direction in a horizontal direction, but the radiators 6 are thermally conductive on the outer circumference. The heat dissipation fin 7a made of excellent metal (aluminum, etc.) is fixed, and the heat transfer pipe body 7 coated with ceramic paint containing 2-5% of tourmaline of powder is sealed on the surface in a vacuum state. Injecting the appropriate amount of heat medium, and the heater inner tube 10 with the electric heater (9) built-in fixed to the inner lower end of the sealed heat transfer pipe body (7), and the fixing of the radiator (6) is the main body The heat radiation fins 7a pass through one side of both side walls 2a of (2). It is possible to separate the radiator 6 by forming a fitting hole 12 of a diameter that can be formed and fixing the cover 13 formed with a coupling hole 13a into which the heater inlet pipe 10 is fitted. And a protective cover 15 which is rotated by a hinge 16 and fixed by a locking means 17 on both sides of the main body 2 to which the heater inner tube 10 is exposed, and a protective cover 15. ) Is configured to provide a control unit 18 for controlling the blowing fan 4 and the electric heater (9).

However, in the industrial hot air heater as described above, each of the heat dissipators 6 having the heat dissipation fins 7a must be maintained at a constant interval so that the air can be quickly discharged through the duct 5 when the wind is supplied by the blower fan 4. There is a disadvantage that the heat transfer is difficult enough resistance.

In addition, for the rapid heat transfer, the number of the radiators 6 should be increased while increasing the capacity of the blower fan 4, which is a problem that causes an increase in operating costs and an increase in noise.

An object of the present invention for improving the conventional problems as described above, to maximize the amount of wind as one hot air fan to supply hot air, to reduce the heat loss due to a sudden temperature difference, and to supply the hot air quickly In addition, the heat transfer of the heat transfer pipe to the wind can be made efficiently, and to provide an industrial hot air blower to enable the rapid transfer of the heat source while preventing the reduction of the supplied wind speed.

In order to achieve the above object, in the main chamber formed inside the casing having an inlet and an outlet, a fan is provided at the inlet or the outlet side to form forced air from the inlet to the outlet,

A plurality of heat transfer pipes are connected to the fruit tank which is installed to be heated to heat the outside air introduced along the air flow inside the main chamber,

Corresponding to each heat tank provides an industrial hot air fan consisting of a heat source supply unit is configured to heat it.

In another aspect, the present invention, the heat transfer pipe connected to the heat tank is installed with different densities so as to have a difference in the flow pressure along the air flow from the inlet to the outlet side, the transfer of the heat source supply unit respectively connected to the heat tank It provides an industrial hot air fan installed to have a difference in calories.

In addition, the heat transfer pipe of the present invention provides an industrial hot air fan that is configured to be connected to the fruit tank in a horizontal direction or inclined while having an arc shape to have a maximum heat contact area according to the flow of air.

In addition, the present invention is connected to the main chamber, the auxiliary chamber is integrally installed, the auxiliary ventilator is provided to form an air flow of the auxiliary chamber, the auxiliary chamber is installed in the auxiliary fruit tank and the auxiliary heat transfer pipe is inlet side It provides an industrial hot air fan that is configured to preheat air.

According to the present invention as described above, by maximizing the amount of air as a hot air fan to supply hot air, reduce the heat loss due to sudden temperature difference, supply the hot air quickly, heat transfer of the heat transfer pipe to the supplied wind is efficient, It is possible to quickly transfer the heat source while preventing a decrease in the supplied wind speed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing an industrial hot air fan according to the present invention, Figure 3a, b is a side view showing an industrial hot air fan according to the present invention, respectively, Figures 4 and 5 are each an industrial hot air fan according to another embodiment of the present invention Figure 6 is a plan view showing, and Figure 6 is a side view showing an industrial hot air fan according to another embodiment of the present invention.

In the present invention, the main chamber 110 formed inside the casing 100 having the inlet 230 and the outlet 115 forms a forced air from the inlet to the outlet to at least one of the inlet or the outlet. ) Is provided.

In addition, the fruit tanks 200 are respectively installed to sequentially heat the cold outside air introduced along the air flow inside the main chamber 110, and the fruit tanks 200 are integrally filled with the heat medium inside. The heat source supply unit 250 is installed on one side thereof so as to heat them.

In this case, the heat source supply unit 250 is selected from an electric heater, a heater tube to which a hot gas or a liquid is supplied.

In addition, a plurality of heat transfer pipes 150 are connected to the heat tank 200 to expose the inside of the main chamber 110.

On the other hand, the heat transfer pipe 150 is installed differently in the installation density of the heat transfer pipes connected to the respective heat tanks 200 to have a difference in the flow pressure along the air flow from the inlet to the outlet.

That is, the installation density of the heat transfer pipes projecting on the upper side of each of the divided fruit tanks 200 is increased again with the installation density decreased at the maximum installation density from the inlet to the outlet so as to have the same area from the inlet to the outlet. It is arranged to have a density.

On the other hand, the heat transfer pipe 150 has a horizontal shape to have a maximum contact angle in the air flow while having an arc shape to have a maximum thermal contact area according to the air flow from the inlet to the outlet of the main chamber 110. It is connected to one side of the fruit tank inclined or connected to each other.

That is, as shown in FIG. 5, the air flows along the heat transfer pipe facing the horizontal direction and the heat transfer pipe inclinedly installed.

At this time, the heat source supply unit 250 respectively connected to the fruit tank 200, the heat transfer amount is installed to have a difference.

In addition, the auxiliary chamber 130 is integrally installed to the main chamber 110, and an auxiliary fan 277 is provided to form an air flow of the auxiliary chamber 130, and the auxiliary chamber 130 is provided in the auxiliary chamber 130. The auxiliary fruit tank 270 and the auxiliary heat transfer pipe 275 are installed to preheat the air flowing into the inlet.

The operation of the present invention having the above configuration will be described.

As shown in Figures 2 to 6, the present invention is a heat medium (not shown) is filled in the inside of the fruit tank 200 when the heat source is supplied to the heat source supply unit 250 connected to the fruit tank 200, which is installed separately ) Moves to the heat transfer pipe 150 to heat the air inside the main chamber 110.

At this time, the main chamber 110, the outside of the cold by the force to push or pull the air inside the main chamber 130 when the fan 235 forming the forced wind is connected to the inlet 230 or the outlet 115 The air is heated inside the main chamber 110 and then discharged into the hot air at the outlet 115.

In addition, the heat transfer pipe 150 is installed so as to have an arc shape so as to have a maximum surface area in the direction of air movement, and heat is rapidly generated by the fruit passing through the inside thereof.

In addition, the heat transfer pipe 150 has a different installation density according to the flow direction of air in the inside of the main chamber 110, so that air is delayed at first, and heat transfer is actively performed, and the installation density is reduced. In the heat loss can be quickly moved while reducing, the outlet 115, the installation density is increased again to enable active heat transfer.

In addition, the heat transfer pipe 150 having the arrangement as described above is connected to a heat source supply unit 250 that is supplied with different amounts of heat while being divided, thereby increasing the amount of heat at the inlet of the outside air, and the installation density of the heat transfer pipe 150 is increased. In the reduced part, the amount of heat to be reduced is supplied.

In other words, the heat density of the heat transfer pipe 150 is different, while the heat quantity of the heat source supply unit 250 supplied thereto is different so as to efficiently utilize the heat quantity supplied as a whole.

In addition, the heat source supply unit 250 provided inside the heat tank 200 is selected from an electric heater, a heater tube to which hot gas or a liquid is supplied, and thus electric or general boilers can be utilized.

Meanwhile, in the auxiliary chamber 130 connected to the main chamber 110, air heated in the main chamber 110 through the auxiliary fan 277 flows in and discharges from the inlet 230 to cool the outside air. Allow the air to warm up before supplying it.

At this time, the auxiliary fruit tank 270 installed in the auxiliary chamber 130 is exposed to the main chamber 110 on one side and heated to transfer the heat amount to the auxiliary heat transfer pipe 275 while vaporizing the heat medium therein. It is to prevent the phenomenon that the air inside the auxiliary chamber 130 is cooled.

In addition, the heat transfer pipe 150 has an arc shape so as to have a maximum heat contact area according to the air flow inside the main chamber 110, and is connected to the fruit tank in a horizontal direction or inclined to maximize the heat contact. It has an area, so that the air flows smoothly and heat transfer is rapid.

1 is a perspective view showing a conventional industrial hot air fan.

Figure 2 is a perspective view showing the industrial hot air according to the present invention.

3A and 3B are side views illustrating an industrial hot air fan according to the present invention, respectively.

4 and 5 are a plan view showing an industrial hot air fan according to another embodiment of the present invention, respectively.

Figure 6 is a side view showing an industrial hot air fan according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100 casing 110 main chamber

130 Auxiliary chamber 150 Heat transfer pipe

200 ... fruit tank 235 ... ventilator

250 ... heat source supply unit

Claims (6)

In the main chamber formed inside the casing having an inlet and an outlet, a ventilator is provided at the inlet or the outlet to form forced air from the inlet to the outlet, and the outside air is introduced to the outside of the main chamber along the air flow. In the industrial hot air fan is installed, the plurality of heat transfer pipes are respectively connected to the heat tank, The heat tank is provided with a heat source supply unit to correspond to each heat tank when the split installation is installed, so that it is heated, The heat source supply units respectively connected to the heat tank are installed to have a difference in heat transfer amount, The main chamber is further connected to one side of the auxiliary chamber for discharging the air heated to the inlet by the auxiliary fan,  The auxiliary chamber is provided with an auxiliary heat tank installed on one side so as to be exposed to the main chamber while an auxiliary heat transfer pipe protrudes on one side so as to heat the air directed toward the inlet. According to claim 1, wherein the heat transfer pipe is connected to the heat tank, the industrial hot air blower, characterized in that the density is arranged so as to have a difference in flow pressure along the air flow from the inlet to the outlet side. The industrial heat blower of claim 1, wherein the heat transfer pipe connected to the heat tank is connected to the heat tank in a horizontal direction or inclined while having an arc shape to have a maximum heat contact area according to the flow of air. delete delete delete

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