KR100558138B1 - An electric hot wind apparatus - Google Patents

Abstract

The present invention relates to an electric hot air blower, and in particular, a suction air duct having an external air intake port, and a diameter slightly smaller than the diameter of the external air intake port to convert the external air sucked through the external air intake port of the suction air blow duct into hot air. In the electric hot air blower comprising a hot air blowing duct formed with a hot air generating chamber (D2) and a heating means that generates heat to generate hot air in the hot air producing chamber of the hot air blowing duct, the heating means disposed in the hot air blowing duct, Forming a cooling air passage through which the cooling air flows to cool the hot air blowing duct by a part of the outside air sucked through the outside air inlet of the duct, and having a diameter (D3) larger than the diameter of the hot air blowing duct; An outer duct installed outside the hot air blowing duct and the cooling air passage formed by the outer duct. Excessive cooling air is spread in the general 90 degree direction of the outer duct to guide the flow of cooling air so that the hot air generated in the hot air generating chamber does not directly contact the outside air, and the diameter is larger than the diameter of the outer duct. It relates to an electric hot air blower comprising an air curtain member having an diameter (D4) formed in the end of the hot air blowing duct, the cooling air passage is formed outside the hot air blowing duct to cool the hot air blowing duct The structure is compact and the manufacturing cost can be down during manufacture, and the hot air efficiency can be further increased by preventing direct contact of hot air and external air by the cooling air passing through the cooling air passage.

Description

An electric hot wind apparatus             

1 is a cross-sectional view showing the internal structure of Korean Utility Model Registration No. 1989-5444 applied to the prior art.

Figure 2 is a schematic diagram showing the internal structure of the electric hot air fan applied to the present invention.

Figure 3 is a perspective view of the electric hot air blower applied to the present invention with a part of the main parts cut away.

Figure 4 is a perspective view showing a part of the electric hot air blower of another embodiment applied to the present invention.

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

10 ... Suction air duct 11 ... External air intake

20 Hot air duct 21 Hot air generating room

30.Heat means 31.Wire

32 ... heating wire 40 ... external duct

41 Air cooling path 50 Air curtain member

51 Air curtain 52 Hot air outlet

60 Variable member 61. Variable discharge outlet

The present invention relates to an electric hot air blower that generates hot air using electricity, and in particular, cooling air passes through the outside of the hot air blower duct that generates hot air, thereby cooling the hot air blower duct and simultaneously cooling the hot air blower duct. The present invention relates to an electric hot air blower that can double hot air efficiency by blocking hot air from a portion to which hot air is supplied as external air.

In general, various types of electric hot air blowers that generate hot air have been proposed.

An example of such a conventional electric hot air blower is Utility Model Publication No. 1989-5444, which was filed in the Republic of Korea by the present applicant and registered on August 18, 1989.

Conventional Utility Model Publication No. 1989-5444, as shown in Fig. 1, a plurality of supply holes (7-1) is formed on the periphery and one side of the air supply passage (7) by welding a sealed supply pipe (7) to the cap (4- 1) Join to the aluminum tube (4) with a heating chamber (a) to make a screw (6) in the screwing hole 6-1 of the cap (6) is screwed on both ends of the heating wire (5) wound with a nut (8) It is characterized in that it is connected to the connecting terminal (9) and filled with a heat insulating material (3) on the outer periphery of the aluminum tube (4) and screwed into the heat insulating wall tube (1) with a pipe insert outer cap (2).

Such conventional utility model publication No. 1989-5444 has no fear of pollution due to the use of electricity, and can continuously supply high temperature air at a constant temperature, and also provides a hot air duct for a long time. In the state where the cold air supplied to the heating chamber (a) of the aluminum tube (4) is not heated by the heating wire (5), it is reverse-circulating so that supply to the supply tube is impossible. Only one state was raised up and supplied to the inside of the supply pipe (7) through the supply hole (7-1) of the supply pipe (7) and then exhausted to the outside, there was an effect that it is possible to consistently supply a constant hot air evenly .

However, such a conventional electric hot air blower has to fill the heat insulating material (3) between the aluminum tube (4) and the heat insulating wall tube (1), there is a problem that the manufacturing cost is raised and the structure is complicated.

In addition, since the hot air discharged through the supply pipe 7 is in direct contact with the air on the side of the blowing duct 10 ', there is a problem that the temperature of the hot air is lowered and the efficiency of the hot air is lowered.

The present invention has been made in view of the above-mentioned various problems, and an object of the present invention is to cool down the hot air blowing air duct that generates hot air without using a separate thermal insulation material, to lower the manufacturing cost and to compact the structure and to simultaneously cool it. It is to provide an electric hot air blower that doubles the hot air efficiency by preventing the outside air from directly contacting the hot air as the molten air.

In order to achieve the above object, the electric hot air blower of the present invention has a suction air duct having an external air suction hole having a diameter of D1 so that the external air is sucked, and the external air sucked through the external air suction hole of the suction air blow duct. A hot air blowing duct in which a hot air generating chamber is formed with a diameter (D2) somewhat smaller than the diameter of the external air inlet, and generates heat to generate hot air in the hot air generating chamber of the hot air blowing air duct, In the electric hot air fan composed of the heating means disposed, forming a cooling air passage through which the cooling air flows to cool the hot air blowing air duct to a part of the outside air sucked through the outside air inlet of the suction blowing duct; External duct installed on the outside of the hot air blowing duct having a diameter (D3) larger than the diameter of the hot air blowing duct The cooling air passing through the cooling air passage formed by the external duct is spread in the direction of about 90 degrees of the external duct so that the hot air generated in the hot air generating chamber does not directly contact external air. An air curtain portion having a diameter (D4) having a diameter greater than that of the outer duct and guiding the flow is formed, characterized in that the air curtain member is installed at the end of the hot air blowing duct.

According to the electric hot air blower according to the present invention, a cooling air passage is formed on the outside of the hot air blowing duct to cool the hot air blowing duct, so that the structure is compact and the manufacturing cost can be down during manufacture, and at the same time the cooling air passage By preventing the direct contact between the hot air and the outside air by the cooling air passing through it can further increase the hot air efficiency.

Hereinafter, an embodiment of an electric hot air fan applied to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a structural view schematically showing a structure of an electric hot air fan applied to the present invention, and FIG. 3 is a perspective view illustrating a partially disassembled main part of the electric hot air fan applied to the present invention.

In Figs. 2 and 3, reference numeral 10 denotes a suction blowing duct in which an external air suction opening 11 having a diameter of D1 is formed such that the external air is sucked by the blowing means (shown by a dotted line in Fig. 3).

Further, reference numeral 20 denotes a hot air blowing duct for forming a hot air generating chamber 21 for converting the outside air sucked through the outside air inlet 11 into hot air, and therein, the inside of the The heating means 30 which generate | occur | produces heat is arrange | positioned.

That is, the hot air blowing duct 20 has a hot air generating chamber 21 is formed to convert the outside air passing through the outside air inlet 11 of the suction blowing duct 10 into hot air, the hot air generating chamber ( The inner diameter of the 21 is formed to a diameter (D2) somewhat smaller than the diameter (D1) of the external air intake port 11 to more efficiently generate and discharge the suction air sucked through the external air intake port (11) with hot air. It is.

In addition, the heating means 30 is installed in the hot air generating chamber 21 of the hot air blowing air duct 20, the heating wire 32 is wound in a coil form to generate heat, the heating wire 32 is a power source The electric wire 31 is electrically connected so that this may be applied.

In addition, although the heating means 30 is shown in the form of a coil, the present invention is not limited thereto, and the present invention may be applied to the present invention by using any means for generating heat, such as a sheath heater or a bobbin heating wire.

On the other hand, the cooling air to the outside of the hot air blowing air duct 20 to cool the hot air blowing air duct 20 by a part of external air sucked through the external air suction opening 11 of the suction air blowing duct 10. An outer duct 40 is formed to form a cooling air passage 41 for circulation.

That is, the outer duct 40 is larger than the diameter of the hot air blowing air duct 20 so as to cool the hot air blowing air duct 20 by a part of the external air sucked through the external air suction opening 11 (D3). It is installed on the outside of the hot air blowing air duct 20 to form a cooling air passage (41).

In addition, at the end of the hot air blowing air duct 20 disposed inside the outer duct 40, the cooling air passing through the cooling air passage 41 formed by the outer duct 40 is shown in FIG. The diameter of the air curtain film is larger than the diameter of the outer duct 40 so that the hot air discharged in the direction of the arrow shown in the hot air generating chamber 21 does not directly contact the outside air. The air curtain member 50 in which the air curtain part 51 to form is formed is provided.

In addition, the air curtain member 50 has a hot air discharge port 52 having a diameter (D2) substantially the same as the diameter of the hot air blowing air duct 20 so that hot air generated in the hot air generating chamber 21 is discharged to the outside. Formed.

In addition, the air curtain member 50, the diameter less than the diameter of the hot air discharge port (D2) of the air curtain member 50 to adjust the discharge amount of the hot air generated in the hot air generating chamber 21 and the temperature of the hot wind The variable member 60 in which the variable discharge port 61 having a D5 is formed is detachably mounted.

That is, when the user wants to increase the temperature of the hot air, the variable member having the variable discharge port 61 having a diameter smaller than that of the hot air discharge port 52 of the air curtain member 50 is formed in the air curtain member 50. By mounting the 60, part of the hot air generated in the hot air generating chamber 21 is reheated by the heating means 30 to supply hot air of a higher temperature.

Meanwhile, in the present invention, for convenience of description, the discharge port and the suction port are described in a circular state, but the present invention is not limited thereto, and the present invention is not limited thereto. Of course.

On the other hand, the hot air blowing air duct 20 may be applied to the outside of the hot air blowing air duct 20 for stability when the high temperature hot air of 300-400 ℃ generally generated in the hot air generating chamber (21). Of course it is.

Next, the effect of the electric hot air according to the present invention configured as described above will be described.

First, when the blowing means (S) shown in dotted lines in Figure 3 is operated and the power is applied to the heating means 30, the outside air flows into the suction blowing duct (10).

In addition, the outside air flowing into the suction blowing duct 10 is converted into hot air by the heat generated by the heating means 30 is discharged to the outside through the hot air discharge port 52 of the air curtain member 50. .

On the other hand, some of the external air flowing into the suction blowing duct 10 is introduced into the cooling air passage 41 formed by the hot air blowing duct 20 and the outer duct 40 to the hot air blowing The heat generated in the duct 20 is cooled.

That is, since the cooling air for cooling the heat generated in the hot air blowing air duct 20 is distributed on the outside of the hot air blowing air duct 20, a thermal insulation material or the like is built in the outside of the hot air blowing air duct 20. Since the structure is not required, the structure becomes compact and the manufacturing cost is down.

The cooling air that has passed through the cooling air passage 41 collides with the air curtain 51 of the air curtain member 50 to the outer duct 40 as shown in the arrow direction shown in FIG. 2. Spread in a 90 degree direction to be dispersed.

That is, the cooling air passing through the cooling air passage 41 is spread outward by the air curtain member 50 to form hot air discharged through the hot air outlet 52 and air curtain film. It is to prevent the hot air and the outside air to be in direct contact to double the hot air efficiency.

On the other hand, when the user wants to increase the temperature of the hot air can be easily increased by mounting the variable member 60 having a variable discharge port 61 of various sizes to the air curtain member 50. .

That is, the hot air generating chamber is mounted on the air curtain member 50 by mounting the variable member 60 having a variable discharge port 61 having a diameter smaller than that of the hot air discharge port 52 of the air curtain member 50. Part of the hot air generated in 21 is reheated by the heating means 30 to supply a hot air of a higher temperature.

As described above, according to the electric hot air blower according to the present invention, a cooling air passage is formed outside the hot air blowing air duct to cool the hot air blowing air duct so that the structure thereof is compact and the manufacturing cost can be reduced while manufacturing. There is a very practical effect that the hot air efficiency can be more doubled by preventing direct contact between hot air and external air by the cooling air passing through the air air passage.

Claims (3)

The suction air duct 10 having the external air suction hole 11 having a predetermined diameter D1 to suck the external air, and the external air sucked through the external air suction hole 11 of the suction air duct 10. The hot air blowing duct 20 in which the hot air generating chamber 21 is formed to have a diameter D2 slightly smaller than the diameter of the external air inlet 11 so as to be converted into hot air, and the hot air generating chamber of the hot air blowing duct 20 ( In the electric hot air fan that generates heat to generate hot air in 21 and made of the heating means 30 disposed in the hot air blowing air duct 20, Forming a cooling air passage 41 through which cooling air is circulated so as to cool the hot air blowing air duct 20 with a part of external air sucked through the outside air inlet 11 of the suction blowing duct 10; An outer duct 40 having a diameter D3 larger than the diameter of the hot air blowing duct 20 and installed outside the hot air blowing duct 20; The cooling air passing through the cooling air passage 41 formed by the outer duct 40 guides the flow of cooling air so that the cooling air does not come into direct contact with the hot air generated in the hot air generating chamber 21. Air curtain member 51 having a diameter (D4) having a diameter larger than the diameter of the outer duct 40 is formed, characterized in that consisting of the air curtain member 50 installed at the end of the hot air blowing air duct (20) Electric hot air fan. The method of claim 1, The air curtain member 50, An electric hot air blower (52) having a hot air outlet (52) having a diameter (D2) substantially the same as the diameter of the hot air blowing air duct (20) so that hot air generated in the hot air generating chamber (21) is discharged to the outside. The method of claim 1, The air curtain member 50, The variable discharge port 61 having a diameter D5 smaller than the diameter of the hot air discharge port 52 of the air curtain member 50 to adjust the discharge amount of the hot air generated in the hot air generating chamber 21 and the temperature of the hot wind is The formed hot air blower, characterized in that the variable member 60 is easily mounted.

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