KR20090001528U - Electric fan heater - Google Patents

Abstract

The present invention relates to an electric hot air fan, the electric hot air heater according to the present invention is a housing formed with an inlet and outlet; A fan unit installed at a suction port side of the housing to suck external air into the housing; And a heating unit for heating the air introduced by the fan unit. Here, the heating unit includes a first heating unit for directly heating air through a plurality of first electric heaters arranged; And a second heating unit for indirectly heating air through a heat pipe filled with a heat medium heated by heat of a plurality of second electric heaters, wherein the heat radiation fins formed on the heat pipes are formed with a surface material emitting far infrared rays.

Warm air, electric heater, heat pipe, heater block, ocher far infrared

Description

Electric Heater {ELECTRIC FAN HEATER}

The present invention relates to an electric warmer, and more particularly, to an electric warmer capable of directly and indirectly heating air introduced by a blower using a plurality of electric heaters and heater pipes.

In general, a hot air fan includes a case having an inlet port through which external air is introduced and a discharge port through which hot air is discharged, a blower for sucking external air through the inlet port, and a heater for heating the sucked air.

Conventionally, a method of obtaining warm air by blowing heat energy generated by burning oil or gas into a blower has been generally used.

However, the warm air by the fossil fuel used in the above-mentioned hot air blower has a high heat source, but the waste gas generated by combustion and the inconvenience of replacing the fuel, as well as the fuel itself forms a high price, the replacement for this The way is desperately needed.

An electric hot air blower has been developed to generate hot air as a heat source generated by electric energy by replacing the hot air blower as described above.

By the way, since the conventional electric heater is to generate hot air by directly exposing the hot wire to the air, there is an advantage that the temperature of the air can be raised in a short time, while the heat radiation area of the hot wire is small.

In addition, the present invention discloses an electric warmer having a heat radiating fin on a surface thereof and arranging a hot wire under a heat pipe filled with a liquid therein to heat air through the heat pipe. However, such an electric hot air blower has an advantage in that the heat dissipation area is enlarged, but there is a problem in that a plurality of heat pipes and hot wires are connected to each other.

In addition, conventional electric warmers used in facility houses for growing crops merely have a function of heating air, and no electric warmers have been developed with additional functions to help crop growth.

The present invention is to solve the above problems, an object of the present invention is to mix the direct heating method by the heating wire and the indirect heating method by the heat pipe to increase the heat transfer efficiency and to easily control the discharge temperature In providing a warmer.

In addition, another object of the present invention is to provide an electric warmer that is easy to assemble and install between a heating wire and a heat pipe.

In addition, another object of the present invention is to provide an electric warmer having a function of releasing far-infrared rays to help crop growth of the facility house to prevent pests and promote crop growth.

In order to achieve the above object, the electric hot air blower according to the present invention includes a housing formed with an inlet and an outlet; A fan unit installed at a suction port side of the housing to suck external air into the housing; And a heating unit for heating the air introduced by the fan unit. Here, the heating unit includes a first heating unit for directly heating air through a plurality of first electric heaters arranged; And a second heating unit for indirectly heating air through a heat pipe filled with a heat medium heated by heat of a plurality of second electric heaters arranged in plurality. Here, the surface member for emitting far infrared rays is formed in the heat radiation fin formed in the heat pipe.

In addition, the surface material may be spray-painted consisting of a paint containing ocher.

The second heating unit may include a plurality of insertion grooves into which the second electric heater is inserted in one direction, and a plurality of fitting grooves into which a lower portion of the heat pipe intersects with the second electric heater. Heater blocks; And a fastening member penetrating the plurality of heater blocks to fix the heater block to the housing.

In addition, the heater block may be made of aluminum.

In addition, the first electric heater may include a fin of stainless steel on the surface.

In addition, the electric heater may further include a control unit for controlling the discharge temperature of the warm air by changing the operating ratio of the first heating unit and the second heating unit.

The electric warmer according to the present invention can easily control the discharge temperature of the warm air by increasing the heat transfer efficiency by mixing the direct heating method by the first heating unit and the indirect heating method by the second heating unit. In addition, the electric warmer according to the present invention provides an effect that the assembly and disassembly of the electric heater and the heat pipe can be made easily.

In addition, the electric warmer according to the present invention by forming a surface material including the ocher paint on the heat radiation fins, to promote the plant growth of the facility house, provides an effect that can prevent pests.

Hereinafter, an electric warmer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an external perspective view of an electric warmer according to an embodiment of the present invention, Figure 2 is a side view schematically showing the interior of the electric warmer according to an embodiment of the present invention, Figure 3 is an electric warmer according to an embodiment of the present invention It is a perspective view which shows the 2nd heating unit.

1 and 2, the electric warmer 100 according to the embodiment of the present invention has a rectangular parallelepiped housing 10, a fan unit 20 installed inside the housing 10 to suck outside air, and It includes a heating unit 30 for heating the air flowing into the housing 10.

First, the inlet 12 and the outlet 14 for suction and discharge of air are formed on the side of the housing 10, respectively. The inlet 12 and the outlet 14 are formed in pairs at positions facing each other for smooth intake and discharge of air. In addition, the housing 10 is provided with a moving wheel 16 on the lower surface to facilitate the movement of the warm air.

The fan unit 20 is installed inside the suction port 12 side of the housing 10 to suck external air through the suction port 12 to the heating unit 30, and discharge the discharge air to the discharge port 14.

The heating unit 30 includes a first heating unit 40 for directly heating air with an electric heater and a second heating unit 50 for indirectly heating air by using a medium that receives heat from the electric heater. do.

The first heating unit 40 includes a plurality of first electric heaters 42 extending in one direction (the X-axis direction in FIG. 2). The first electric heater 42 includes a heating wire connected to a power source, a tube (not shown) surrounding the heating wire, and a fin 43 formed on a surface of the tube. The fin 43 increases the heat dissipation area to enlarge the contact area with air. Fin 43 is preferably made of a stainless steel material having excellent heat transfer rate, but the material is not limited thereto, and may be variously modified. The air introduced by the fan unit 20 is heated while primarily contacting the first electric heater 42.

Here, the first heating unit 40 transmits the heat of the first electric heater 42 directly to the air, thereby enabling the heating of the low temperature air blown from the fan unit 20 to an instantaneously high temperature.

The second heating unit 50 includes a plurality of second electric heaters 52 extending in one direction (X-axis direction in FIG. 2), a heat pipe 54 filled with a heat medium, and having a heat radiation fin 53 on the surface thereof. ) And a heater block 56 for transferring heat generated from the second electric heater 52 to the heat pipe 54. The heat pipes 54 are arranged in a direction crossing the second electric heater 52 (Z-axis direction in FIG. 2).

Referring to FIG. 3, the second heating unit 50 is described in detail. A plurality of hemispherical insertion grooves 561 are formed on one side of the heater block 56, and a rectangular heat dissipation is formed between the insertion grooves 561. Grooves 563 are formed. The other side of the heater block 56 is formed with a plurality of hemispherical fitting grooves 562 arranged in a direction crossing the insertion grooves 561. When the plurality of heater blocks 56 are assembled to each other, the hemispherical insertion groove 561 and the fitting groove 562 become circular. Hereinafter, the insertion groove 561 and the fitting groove 562 are referred to as meaning circular.

A second electric heater 52 is inserted into the insertion groove 561, and the second electric heater 52 has a structure substantially the same as that of the first electric heater 42. However, since the second electric heater 52 does not directly heat air, the second electric heater 52 does not include the fin 43 like the first electric heater 42.

A lower portion of the heat pipe 54 is inserted into the fitting groove 562, and the heat pipe 54 has a plurality of heat dissipation fins 53 on the outer surface thereof, and a low vapor pressure therein, thermal stability and corrosiveness. There is little, fluidity, high specific heat and heat of evaporation, and a certain amount of a known non-combustible organic or inorganic heat medium is filled.

In addition, the plurality of heater blocks 56, the second electric heaters 52, and the heat pipes 54 are coupled by a fastening member 58 and a fixing bracket 59 formed of a bolt 581 and a nut 582. do.

Fixing brackets 59 are disposed on both sides of the heater block 56, respectively. The fixing bracket 59 includes a lower surface 591 fixed to the base of the housing 10 and a fixing portion 592 extending vertically from the lower surface 591. The fixing portion 592 includes the bolt. The connection hole 593 into which the 581 is inserted is formed.

In addition, a plurality of through holes into which the bolt 581 is inserted are formed in a region between the insertion grooves 561 of the heater block 56.

Looking at the assembly fixing of the second heating unit 50 configured as described above, first align each heater block 56 while inserting the second electric heater 52 into the insertion groove 561 of the heater block 56. Then, the lower portion of the heat pipe 54 is fitted into the fitting groove 562 of the heater block 56. Subsequently, the bolt 581 is sequentially inserted into the connecting hole 593 of the fixing bracket 59 and the through hole of the heater block 56, and then the nut 582 is fastened to the bolt 581. The two electric heaters 52, the heat pipes 54 and the heater block 56 are assembled integrally.

According to the assembling structure of the heater block 56 as described above, the plurality of second electric heaters 52, the heat pipes 54 and the heater blocks 56 can be quickly assembled by one fastening operation by the fastening member 58. Can be combined and the resulting disassembly can be achieved quickly.

The heat generated by the second electric heater 52 is transferred to the heat pipe 54 via the heater block 56, where the heat medium inside the heat pipe 54 is heated to release heat to the outside, by such heat The air is heated. Here, the heater block 56 is made of an aluminum material having a high thermal conductivity to quickly transfer the heat generated from the second electric heater 52 to the heat pipe 54 filled with the heat medium.

The indirect heating method using the heat pipe 54 has a lower heat generation temperature than the direct heating method using an electric heater, but the heat dissipation area is much larger than that of the electric heater, so that heat exchange can be effectively performed.

In addition, the heat dissipation fins 53 of the heat pipe 54 are made of aluminum, and the heat dissipation area is large, so that heat transfer is effective. The surface of the heat dissipation fin 53 is formed with a surface material made of a material capable of emitting far infrared rays such as ocher and charcoal. In one example, the surface of the heat radiation fins 53 may be spray-painted paint containing ocher. Thus, the electric warmer 100 according to the embodiment of the present invention sends far infrared rays directly into the facility house for cultivating plants by emitting far infrared rays to the air passing through the heat radiating fins 53, thereby helping to promote plant growth. Can be.

In addition, the present invention includes a control unit that adjusts an operation ratio of the first heating unit 40 and the second heating unit 50. That is, the control unit can easily control the discharge temperature while changing the operation ratio of the first heating unit 40 and the second heating unit 50. For example, if the temperature is to be raised rapidly, the control unit may raise the operating ratio of the first heating unit 40 and reduce the operating ratio of the second heating unit 50. If a very high discharge temperature is required, only the first heating unit 50 which is a direct heat dissipation method may be used instead of the second heating unit 50 which is an indirect heat dissipation method. Here, the operation ratio may be achieved by adjusting the operating time of the first and second heating units 40 and 50, or adjusting the operation ratio of the electric heaters of the first and second heating units 40 and 50, respectively.

In the above description of the preferred embodiment of the present invention, the present invention is not limited to this, but can be modified and carried out in various ways within the scope of the claims and the detailed description of the invention and the accompanying drawings and this invention Naturally, it belongs to the range of.

1 is an external perspective view of an electric warmer according to an embodiment of the present invention.

Figure 2 is a side view schematically showing the interior of the electric warmer according to an embodiment of the present invention.

3 is a perspective view showing a second heating unit of the electric warmer according to the embodiment of the present invention.

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

 10 housing 12 inlet

 14: outlet 20: fan unit

 30: heating unit 40: first heating unit

 42: first electric heater 43: fin

 50: second heating unit 52: second electric heater

 53: heat sink fin 54: heat pipe

 56: heater block 58: fastening member

 59: fixing bracket 561: insertion groove

 562: fitting groove 563: heat dissipation groove

 581: Bolt 582: Nut

Claims (6)

A housing formed with an inlet and an outlet; A fan unit installed at a suction port side of the housing to suck external air into the housing; And It comprises a heating unit for heating the air introduced by the fan unit, The heating unit, A first heating unit for directly heating air through a plurality of first electric heaters arranged in plurality; And A second heating unit for indirectly heating air through a heat pipe filled with a heat medium heated by heat of a plurality of second electric heaters, The heat dissipation fin formed in the heat pipe is characterized in that the surface material for emitting far infrared rays is formed. The method of claim 1, The surface material is an electric hot air heater, characterized in that the spray coating made of a paint containing ocher. The method of claim 1, The second heating unit, A plurality of heater blocks having a plurality of insertion grooves into which the second electric heater is inserted in one direction and a plurality of fitting grooves into which a lower portion of the heat pipe intersects with the second electric heater; And And a fastening member penetrating the plurality of heater blocks to fix the heater block to the housing. The method of claim 3, The heater block is an electric warmer, characterized in that the aluminum material. The method of claim 2, The first electric heater is an electric warmer, characterized in that it comprises a stainless steel fin on the surface. The method of claim 1, And a control unit configured to adjust a discharge temperature of the warm air by changing an operation ratio of the first heating unit and the second heating unit.

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