KR101000571B1 - Small size electric hot air generator - Google Patents

Abstract

The present invention relates to an electric miniature hot air fan, comprising an inner tube having an inward bent portion at the front and rear ends and having an inner surface formed on an inner surface thereof in a straight conduit, wherein the inner tube is provided with an electric heating element, and a heat resistant insulating material is provided between the conduit and the inner tube. One of the air inlet and the discharge port of the conduit is configured so that the fan is assembled and installed, the air introduced into the hot air can be discharged while being sufficiently warmed by the electric heating element to improve the thermal efficiency.

Small Heat Fan, Inner Tube, Thermal Efficiency, Reflective Surface, Inward Bending

Description

Electric small hot air fan {SMALL SIZE ELECTRIC HOT AIR GENERATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot air fan, and more particularly to an improvement of a small hot air fan driven electrically.

The electric small hot air blower can be installed as a built-in device and can also be used as a portable type. In addition, it can control temperature and air flow rate, and has a quiet hot air flow compared to a large hot air blower. Moreover, it can be appropriately installed in various places such as a plastic house, a barn, a general home or an industrial site. I get a good response from them.

However, since the electric small hot air blower is mainly in the form of a straight pipe, the inlet air is often discharged in a state in which the air is not sufficiently heated evenly inside the electric heating element, which has a disadvantage in that the heating efficiency is lowered.

Accordingly, it is an object of the present invention to provide an electric compact hot air fan in which the introduced air can be sufficiently warmed and discharged by the electric heating element.

In order to achieve the above object, the present invention provides a small electric fan, the inner tube having an inward bent portion at the front and rear end and the inner surface formed on the inner surface of the reflection pipe in a straight conduit, the inner tube is equipped with an electric heating element and the conduit Between the inner tube and the heat-resistant insulating material is characterized in that the fan is installed in one of the air inlet and outlet of the conduit.

In addition, the discharge port of the conduit is characterized in that the inward bending portion is configured to be formed.

The electric small hot air blower of the present invention has good thermal efficiency since the introduced air can be discharged while being sufficiently warmed by the electric heating element.

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

1 is an external view of an electric small hot air fan according to an embodiment of the present invention, Figure 2 is a perspective view of the main portion of the electric small hot air blower of Figure 1, Figure 3 is a cross-sectional view of FIG.

The electric small hot air fan 2 according to the embodiment of the present invention includes a straight conduit 10 and an inner tube 12 installed in the conduit 10, and a heat resistant heat insulating material 14 between the conduit 10 and the inner tube 12. Configure through). It should be understood that the conduit 10 and the inner tube 12 may be embodied in a square tube such as a square tube as shown in the accompanying drawings, and may also be implemented in a cylindrical shape.

In the embodiment of the present invention, the inner tube 12 has a front and rear end inwardly bent portion (12a) to form a reflective surface 16 on the inner surface. In addition, a plurality of electric heating elements 18 are provided near the central portion of the inner tube 12. 1 to 3 show an example in which the electric heating element 18 is located slightly rearward from the center of the inner tube 12 and a plurality of linear electric heating elements 18 are installed upright.

The reflective surface 16 of the inner tube 12 may be implemented using a metal material having a surface having a high reflectance. Alternatively, the reflective surface 16 of the inner tube 12 may be formed by forming a reflective layer on the inner surface of the inner tube 12. The reflective surface 16 of the inner tube 12 may be configured as an example in which each surface of the tube is formed in a plane as shown in FIGS. 1 to 3, and in another example, each surface of the tube is curved to widen the reflective area. It may be apparent to those skilled in the art that it may be formed to be centrally raised in a square shape, or may be formed in a wrinkled or irregular shape such as a wavy pattern.

The plurality of electric heating elements 18 which are preferably installed slightly rearward from the center of the inner tube 12 may be composed of a nano carbon heating element lamp, a halogen lamp, and the like, of which the nano carbon heating element lamp is preferable. The nanocarbon heating element lamp is a heating element capable of producing high-efficiency heat with little power, and has excellent acid resistance and alkali resistance, the most important electrical stability as a heating element, and heat generation to nearly 450 ° C. is also possible. An electric heating element 18 such as a nano carbon heating element lamp may be implemented as a linear lamp and a spiral lamp as shown in FIGS. 2 and 3.

The inner tube 12 has a length of 50 to 100% of the length of the conduit 10, when the inner tube 12 occupies 50 to 80% of the length of the conduit 10, the inner tube 12 is air inflow It is preferably installed in the front portion of the conduit 10 to be. A plurality of electric heating elements 18 installed in the inner tube 12 is mounted to the outside of the conduit 10 is electrically connected to the control box 20 for performing electrical control.

As the heat-resistant heat insulating material 14 interposed between the inner tube 12 and the conduit 10 as described above, for example, a heat-resistant insulating material such as a soft atiron can be used for thickness control. Heat-resistant heat insulating material such as Atyron is easy to install and easy to cover both the bent portion (12a) (12b) of the inner tube 12 because it is good heat resistance, flexibility, heat resistance, and does not take the internal heat to the outside.

The inward bending portion 12a constituting the inlet portion of the inner tube 12 is fastened by overlapping with the inlet portion of the inlet portion of the conduit 10, and the inward bending portion of the inlet portion, which is the air inlet of the conduit 10, is provided with a fan for blowing air. A sleeve 13 for communicating with 22 is extended. In addition, a bracket 15 is installed between the inward bending portion 12b constituting the end of the inner tube 12 and the conduit 10 to fix the outer edge of the heat resistant heat insulating material 14.

The bracket 22b of the fan 22 including the wing portion 22a is preferably formed of a tubular body having the same shape as that of the inner tube 12, and is screwed into the inlet sleeve 13 of the conduit 10. Is assembled. Although the fan 22 has been described as a preferred example formed at the beginning of the conduit 10, it should be understood that the fan 22 may also be installed at the rear of the conduit 10. When the fan 22 is installed in the rear of the conduit 10, it should be configured to have a fan structure that does not affect the heated air. The fan 22 is electrically connected to a control box 20 installed outside the conduit 10.

The control box 20 is not only electrically connected to the fan 22 and the electric heating element 18 but also electrically connected to a hot air temperature detection sensor (not shown) installed at the outlet of the conduit 10 to perform electric control. The circuit portion is mounted, and the control circuit portion is also connected to the power cord line. The operation panel of the control box 20 may include, for example, a power lamp and a heater lamp, and include a temperature controller and a blower strength controller.

When the electric small hot air fan 2 is driven as described above, the electric heating element 18 generates heat and the fan 22 is driven. As the heating element 18 generates heat, the heat reflection of the inner tube 12 heats up much faster due to heat reflection by the reflecting surface 16 of the inner tube 12, and the inward bending portions 12a and 12b at the front and rear ends of the inner tube 12. ) Is formed so that the inner reflection surface of the inwardly bent portions (12a, 12b) is also repeated reflection of heat. By the internal reflection surface of the inner tube 12 and the reflection surface 16 by the inward bending portion (12a) (12b) and the effect of causing the internal temperature to be amplified due to the insulation of the heat-resistant heat insulating material (14) The heat of amplification of the electric heating element 18 is spread evenly inside the inner tube 12 to stay.

The air flowing through the fan 22 installed at the beginning of the conduit 10 enters the inner tube 12 and is mixed with the heat inside, but by the inward bending portion 12a formed at the front end of the inner tube 12. Due to the expansion of the air, the air flow is slowed down, and the inward bending portion 12b formed at the rear end of the inner pipe 12 exerts an impeding pressure on the air flow to be discharged from the inner pipe 12. This happens. As a result, the air is delayed in the inner tube (12) while the aging process is more mixed with the amplified heat.

 The air heated by mixing with the heat in the inner tube 12 is discharged from the inner tube 12 and mixed again while delaying to the rear end of the conduit 10, and in the present invention, the inward bent portion 10a is formed at the discharge port in the conduit 10. By giving a disturbing pressure to the air flow to the discharge port of the conduit 10 once again by adjusting the air pressure and at the same time to better mix the air discharged.

It should be understood that the inward bent portion 10a formed at the outlet of the conduit 10 may not be provided as necessary.

The bent angle or length of the inward bent portions 12a and 12b formed at the front and rear ends of the inner tube 12 and the inward bent portion 10b formed at the discharge ports in the conduit 10 are proportional to the internal temperature and the air pressure. do. Therefore, the bent angle or the extended length should be determined based on the requirements (internal temperature and air pressure, etc.) in which the electric small hot air blower 2 of the present invention will be used.

As described above, the small electric electric fan 2 of the present invention induces diffuse reflection and repetitive reflection of heat generated from the electric heating element 18 and amplifies the internal temperature of the hot air fan by applying a static pressure to the flow of air, and the outlet temperature in the conduit 10. Since it raises the capacity of the fan 22, which is a blower, can be increased. To increase the capacity of the fan 22 means that the warm air flow can warm the greenhouse or the interior in a short time, which implies that the heating efficiency of the hot air fan is high.

Unexplained reference numeral 30 in the drawings is a portable handle.

The shape of the electric small hot air fan 2 shown in FIGS. 1 to 3 described above, that is, the rear end portion of the conduit 10 extends to a tube size substantially the same as that of the main body tube of the conduit 10, is used for agriculture requiring heat. It is desirable to.

4 is a small electric hot air blower (2A) according to another embodiment of the present invention, the rear discharge port of the conduit 10 is formed narrower and longer than the main tube size to increase the internal temperature and the air pressure. The tourmaline small hot air fan 2A of FIG. 4 is a structure that can be suitably used for industrial use requiring high heat.

The electric small hot air blower 2 of the present invention can be used for small greenhouses of several tens of squares per unit, and can also be installed in several, so it is also useful for heating large greenhouses, and particularly, it is easy to move and can be suspended or suspended from the ceiling. Also excellent.

In addition, by adjusting the size of the electric small hot air blower (2) and the number of heater lamps can be utilized in the interior of the office, etc., the length of the conduit 10 and the inner tube 12 of Figs. It can be manufactured and installed in public baths or home bathrooms, and can be used as a substitute for drying hands and hair.

The tourmaline small hot air blower (2) (2A) can be used in a variety of industrial, agricultural, household, etc., if the discharge port of the conduit 10 is different because the narrower the outlet of the conduit 10 can produce a higher temperature. In addition, when the heat source of the electric heating element 18 is used as a nanocarbon heating element lamp, a large amount of far infrared ray emission effect can be obtained incidentally.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be defined by the claims and their equivalents.

The present invention can be used in small and large greenhouses, indoors, bathrooms, and the like, which require an electric small hot air fan.

1 is an external view of an electric small hot air fan according to an embodiment of the present invention,

Figure 2 is a perspective view of the main cutaway of the electric small hot air fan of Figure 1,

3 is a cross-sectional view of FIG.

Figure 4 is an external view of the electric small hot fan according to another embodiment of the present invention.

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

(2) (2A)-tourmaline mini hot air fan (10)-conduit

(12)-Inner tube (12a) (12b) (10a)-Inward bending

(14)-heat resistant insulation (16)-reflective surface

(18)-Electric Heating Element (20)-Control Box

(22)-fan

Claims (2)

In the electric small hot air fan, A straight conduit (10) and an inner pipe (12) installed in the conduit (10), and between the conduit (10) and the inner pipe (12) with a heat resistant heat insulating material (14) and an air inlet and outlet of the conduit (10). One of the fan 22 is assembled and installed, the inner tube 12 is 50 to 80% of the length of the conduit 10 is installed in the front of the conduit 10 and the electric heating element 18 in the inner tube 12 ) And the inner surface of the inner tube 12 to form a reflective surface 16, and the front and rear ends of the inner tube 12 to have inward bending portions (12a, 12b) and inwardly bent portion (10a) in the outlet of the conduit 10 ) Is formed to amplify the internal temperature of the inner tube 12 by the heat generation of the electric heating element 18 and the repeated heat reflection of the reflecting surface 16 and the heat insulation of the heat resistant heat insulating material 14 and by the fan 22 As the air flow introduced into the inner tube 12 is delayed by expansion and interruption of flow by the front and rear inward bending portions 12a and 12b, the air heat is matured, and the air heat is Small electric tube yeolpunggi, characterized in that the 12 mixture while the air heat proceeds aft portion while proceeding to the flow disturbance member by inwardly bending part (10a) of the conduit 10 is configured to be discharged to the outside in. In the electric small hot air fan, A straight conduit (10) and an inner pipe (12) installed in the conduit (10), and between the conduit (10) and the inner pipe (12) with a heat resistant heat insulating material (14) and an air inlet and outlet of the conduit (10). One of the fan 22 is assembled and installed, the inner tube 12 is 50 to 100% of the length of the conduit 10 is installed in the front of the conduit 10 and the electric heating element 18 in the inner tube 12 ), The inner surface of the inner tube 12 is formed with a reflective surface 16, and the front and rear ends of the inner tube 12 have inward bending portions 12a, 12b, and the tail outlet of the conduit 10 is the conduit main tube size. It is configured to be formed narrower and longer than, the amplification of the internal temperature of the inner tube 12 by the heat generation of the electric heating element 18, repeated heat reflection of the reflective surface 16 and heat insulation of the heat resistant heat insulating material 14 and the fan 22 The air flow introduced into the inner tube 12 by the air is delayed due to expansion and obstruction of the flow by the front and rear inward bending portions 12a and 12b. Formation and penetration small electric yeolpunggi and proceeds to a narrow and long discharge port aft of the duct (10) from (12), characterized in that the air heat rises inside temperature and pressure configured to be discharged to the outside.

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