KR20160007235A - Hot air blowers using carbon heater - Google Patents

Abstract

The present invention relates to a hot air blower using a carbon heating body discharging hot air heated by a heating element to heat. According to the hot air blower heating an external air with the heating element to be discharged through a discharge hole, provided is the hot air blower using a carbon heating element wherein the carbon heating elements (50) are horizontally installed in a hot air chamber (20) and a hot air passage (80) is formed in a periphery of the carbon heating element (50) by a plurality of chute members (60) and a guide plate (70) and the hot air is discharged to the outside by a provided blower fan (33). Therefore, the present invention significantly improves heat efficiency and minimizes internal latent heat since the blower fan is installed in the discharge hole.

Description

[0001] Hot air blowers using carbon heaters [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot air heater using a carbon heating element, and more particularly, to a hot air heater using a carbon heating element which is heated by heat generated from a carbon heating element, It concerns the hot air.

Generally, in a vinyl house where plants such as vegetables and flowers are grown, in order to keep the internal temperature of the plastic house at a temperature higher than a certain temperature when the weather is cold, such as autumn or winter, a heated heater or solid By heating the air with the heat generated by burning the fuel, the liquid fuel, the gaseous fuel, etc., it is supplied as hot air and heated, thereby enabling the cultivation of the seasonal plants.

BACKGROUND ART [0002] Conventionally, in an electric heating type air conditioner using electricity, heat generated by a heating element or a coil is provided in a main body, heat generated by applying power to the coil or heating wire is heated to a high temperature And then discharged to the outside using the next blowing fan to perform heating.

However, since the heated air passing through the heating element passes through the periphery of the heating element, the peripheral portion of the heating element is heated to a high temperature, but the heating portion is not sufficiently heated at a distance from the heating element, Is not uniform, and the temperature fluctuation as a whole is severe. As a result, not only the heating efficiency is lowered but also the hot air heated inside can not be exhausted completely or the ventilation fan is installed at the position far from the exhaust port, Problems were inherent.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide a carbon heating element, in which air introduced from the outside is allowed to stay around the carbon heating element, The present invention provides a hot air blower using a carbon heating element capable of minimizing latent heat inside and preventing air from being cooled by a blowing fan.

In the hot air blower using the carbon heating element according to the present invention, the external air introduced through the air inlet is heated by a heating element provided in the hot air room, and is discharged through an outlet formed in the blowing room by the operation of a blowing fan rotating according to the operation of the motor In the hot air fan, a plurality of carbon heating elements having carbon fibers are provided in the hot air room in the lateral direction, and a plurality of chute members and an induction plate are provided around the carbon heating element, And the hot air heated by the carbon heating element is discharged to the outside by a blowing fan provided in the blowing chamber.

The present invention relates to a hot air circulating apparatus and a hot air circulating apparatus, which are capable of generating vortex in air falling into a hot air passage provided around a carbon heating element disposed at a certain interval in a hot air chamber to increase a contact time with a heating element, And a blowing fan is provided on the side of the discharge port to minimize the occurrence of latent heat therein and to minimize the cooling of hot air by the blowing fan.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a heat exchanger using a carbon heating element according to the present invention,
FIG. 2 is a side view of a heat exchanger using a carbon heating element according to the present invention,
FIG. 3 is a sectional view showing the connection of the hot air blower using the carbon heating element according to the present invention,
4 is a cross-sectional view showing a carbon heating element applied to a hot air fan using a carbon heating element according to the present invention,
5 is a view showing a hot air guide member applied to a hot air fan using a carbon heating element according to the present invention,
6 is a view showing a wall surface guide member applied to a hot air fan using a carbon heating element according to the present invention.

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

FIG. 1 is a front view of a hot air heater using a carbon heating element according to the present invention, FIG. 2 is a side view of a hot air fan using a carbon heating element according to the present invention, FIG. 3 is an engaging sectional view of a hot air fan using a carbon heating element according to the present invention, A plurality of casters 11 are coupled to the bottom surface of the base plate 10 so as to be movable.

The base plate 10 is provided with a hot air chamber 20 for introducing outside air into the hot plate 20 to generate hot air. The other side of the base plate 10 is provided with a blower The hot air chamber 20 and the air blowing chamber 30 are connected to a communication chamber 40.

In the hot air room 20, an upper cover 21 having a plurality of air inlet openings 21a is connected to the upper side so that outside air can be introduced into the inside, and a plurality of carbon heating elements 50 Are fixed in the lateral direction.

4, a quartz tube 52 is coupled to the tip of a fixing member 51 for fixing the carbon heating element 50 to the inner surface of the hot air chamber 20, And a supporting member 54 for supporting and fixing by a fastening means such as a lock nut is coupled to the wall surface of the opposite side of the quartz tube 52. [ .

The fixing member 51 at one end of the carbon heating element 50 is fixed to the inner wall surface of one side of the hot air chamber 20 and the supporting member 54 at the opposite side is fixed to the inner wall surface of the other side of the hot air chamber 20 in the lateral direction .

On the other hand, around the carbon heating element 50, the outside air introduced through the air vent 21a is guided downward to induce the flow of air to delay the stay of the carbon heating element 50 around the carbon heating element 50, The chute member 60 is fixed to the wall surface of the hot air room 20 facing each other.

5, the inclined guide portion 61 is repeatedly formed in the chute member 60. The inclined guide portion 61 is provided with a passage through which the air is conveyed together with another adjoining chute member 60 Respectively.

The slope guiding portion 61 is formed in a substantially V shape, and fastening portions 62 are formed at both ends of the stem and both ends of the slope guiding portion 61 so that they can be fixed to the inner side wall by fastening means such as screws have.

As shown in Fig. 6, on both sides of the carbon heating element 50 on the outer side of the portion where the chute member 60 is provided, that is, on the both wall surfaces of the hot air chamber 20, The guide plate 70 is attached to both ends of the guide plate 70. The guide plate 70 is also provided with warp guide portions 71 on both sides thereof and at the center and both ends of the both edges are fastened to the inner wall surface by fastening means such as screws, Respectively.

It is most preferable that the inclination angle? 1 (? 2) of the warp inducing portions 61 and 71 of the chute member 60 and the induction plate 70 is 80 to 85 degrees.

The chute member 60 and the induction plate 70 form a W-shaped hot air passage 80. Air descending in the air passage 80 flows toward the periphery of the heated carbon heating body 50 So that the hot air thus heated is lowered to the lower side of the hot air room 20.

A hot air heated by the carbon heating element 50 is guided to the lower side of the hot air room 20 to guide the hot air descending through the chute member 60 and the guide plate 70 to the communication chamber 40 ) Are inclinedly coupled.

Meanwhile, the air blowing room (30) allows the hot air heated at a high temperature to flow through the communication chamber (40) in the hot air room (20) and forcibly discharges the hot air.

A motor 31 is mounted on the upper side of the air ventilation chamber 30 and a blower 30 for rotating in one direction and forcibly discharging the air to the outside is provided inside the ventilation chamber 30, And a fan 33 is coupled.

A blowing guide member 34 for guiding hot air in the hot air room 20 to be smoothly discharged is provided on the outer side of the blowing fan 33. One side of the guide member 34 is connected to a communication chamber 40, And the other side is configured to discharge the hot air through the discharge port (35) of the air blowing chamber (30).

The control panel 90 is provided on the front side of the hot air room 20. The control panel 90 is provided with various settings such as a temperature setting for each step of the carbon heating element 50, Buttons and a display panel.

After setting the heating temperature, the heating time, and the blowing amount of the hot air in the control panel 90 after positioning the hot air blower using the carbon heating element according to the present invention, the motor 31 and the carbon heating element 50 , And the hot air is discharged through the discharge port 35 to be heated.

That is, when power is applied to the carbon fibers 53 of the carbon heating element 50, heat is generated. At this time, the external air introduced through the intake port 21a of the upper cover 21 is heated to the inside Through the hot air passage 80 formed by the chute member 60 and the induction plate 70,

At this time, the air descending through the hot air passage 80 temporarily stays in the passage formed by the "W" character, so that the air descending through the hot air passage 80 is swirled in the peripheral portion of the carbon heating element 50 So that the air is heated to a high temperature and the air passing through the hot air passage 80 is heated at a high temperature while repeating the above process.

When the blowing fan 33 located inside the air blowing chamber 30 is rotated through the belt 32 by the rotation of the motor 31, the air is blown into the carbon heating element 50 in the hot air room 20 The hot air heated by the air is introduced into the air guide member 34 in the air blowing chamber 30 through the communication chamber 40 and then discharged through the discharge port 35 to perform heating.

At this time, the hot air descending through the hot air passage 80 in the hot air chamber 20 is guided through the guide plate 81 and then transferred to the air blowing chamber 30 through the communication chamber 40, The hot air introduced into the air guiding member 34 is forcibly discharged through the discharge port 35 by the operation of the air blowing fan 33. [

Therefore, since the blowing fan 33 is provided in the air blowing chamber 30, the heat loss of the heat due to air blowing is minimized, and a guide plate 81 is provided between the hot air room 20 and the air blowing chamber 30, So that the latent heat in the hot air room 20 can be minimized.

In addition, since the air introduced from the outside flows through the hot air passage 80 to generate a vortex around the carbon heating element 50, the heating time is further increased to further raise the temperature of the hot air and improve the thermal efficiency. It is possible to increase the transmission distance of the hot air by connecting the upper cover 21 of the next hot air blower to the outlet 35. [

20: hot air room 21: upper cover
21a: intake port 30: ventilation chamber
31: motor 32: belt
33: blower fan 35: outlet
50: carbon heating element 53: carbon fiber
60: a chute member 61, 71:
70: guide plate 80: hot air passage
81: Signage

Claims (4)

A hot air blower for blowing outside air introduced through an intake port to a heating element provided in a hot air room and discharging the heated air through an outlet formed in the blower room by operation of a blowing fan rotating according to the operation of the motor,
A plurality of carbon heating elements 50 having carbon fibers 53 are provided in the hot air room 20 in the lateral direction and a plurality of suckers 50 are disposed around the carbon heating elements 50 to guide the air, The hot air passage 80 is formed by the member 60 and the induction plate 70. The hot air heated by the carbon heating element 50 is blown by the blowing fan 33 provided in the air blowing chamber 30 And the air is discharged to the outside. The method according to claim 1,
Wherein the chute member (60) and the induction plate (70) are formed with warp guide portions (61) (71) so that air forms a swirl around the carbon heating element (50). 3. The method of claim 2,
Wherein the angle of inclination? 1 (? 2) formed by the warp inducing portions (61) and (71) is about 80 to 85 degrees. The method according to claim 1,
And a guide plate 81 for guiding the hot air descending through the hot air passage 80 to be smoothly transferred to the air blowing chamber 30 is mounted on the lower side of the hot air room 20 in an inclined manner. .

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