KR20230117949A - Hot air blower - Google Patents

Abstract

The present invention mainly relates to a hot air blower used to supply hot air in a greenhouse or barn, and includes a cylindrical housing 100 having a double structure of an outer cylinder 110 and an inner cylinder 120; a blowing fan (200) installed at the rear inlet (I) of the cylindrical housing (100); a circular heater 300 installed inside the inner cylinder 120 to be spaced apart from the inner wall of the inner cylinder 120 by a predetermined distance; It is installed between the blowing fan 200 and the circular heater 300, and the air introduced into the inner cylinder 120 by the blowing fan 200 is guided between the circular heater 300 and the inner cylinder 120 to form a circular heater 300. After being heated by the cone 400 to be discharged to the discharge port (O) in front of the cylindrical housing 100; it is made including; so that cold wind does not come out as it is and can be discharged after sufficient heat exchange with the heater there is.

Description

Hot air blower

The present invention mainly relates to a hot air blower used to supply hot air in a greenhouse or barn.

In general, a hot air blower uses electricity or fuel as a heat source, and when electricity is used, a heating wire made of a heater or coil is provided in the main body (housing), electricity is applied to it, and the sucked gas is raised to a relatively high temperature, and then a blowing fan In the case of the fuel type, high-temperature combustion heat generated by burning fuel in the combustion chamber is ejected to the outside using a blowing fan.

These hot air fans are usually used to cure concrete or supply heat to the inside of greenhouses, barns, cages, and barns. However, in conventional electric heating fans, the air introduced by the blower fan passes through the inner cylinder and does not effectively contact the heater. Since it is discharged through the outlet in an unheated state, there is a problem in that cold air comes out, and instead, only the housing of the hot air blower becomes hot.

As prior art related to the present invention, a hot air blower with increased heat exchange efficiency of Patent Document 1 and a hot air blower of Patent Document 2 are disclosed.

In Patent Document 1, some of the introduced air is returned to the blower fan side and contacted to exchange heat with the heat exchange pipe again to provide hot air at a higher temperature, and Patent Document 2 introduces air between the outer and inner cylinders After the air is heated by a heater installed in the inner cylinder and then discharged, the air introduced between the outer cylinder and the inner cylinder is preheated to increase thermal efficiency.

Korean Patent Publication No. 10-2016-0108850 (published on September 21, 2016) Korean Registered Patent No. 10-1188774 (registered on September 28, 2012)

The present invention has been made to solve the above problems, and an object of the present invention is to increase the temperature of the housing by allowing the air introduced into the housing to contact the heater (heating wire) as efficiently as possible to achieve heat exchange and then to be discharged. It is an object of the present invention to provide a hot air blower having an improved structure capable of maximizing the generation efficiency of hot air while preventing heat loss.

In order to achieve the above object, the present invention provides a cylindrical housing composed of a double structure of an outer cylinder and an inner cylinder, a blowing fan installed at a rear inlet of the cylindrical housing, and a circular cylinder installed inside the inner cylinder to be spaced apart from the inner wall of the inner cylinder by a predetermined distance. It includes a heater and a cone installed between the blowing fan and the circular heater so that the air introduced into the inner cylinder by the blowing fan is guided between the circular heater and the inner cylinder, heated by the circular heater, and discharged through an outlet in front of the cylindrical housing. It provides a hot air blower made by.

In a preferred embodiment, a spiral protrusion for forming a vortex is formed on the outside of the cone.

In a preferred embodiment, the cone consists of a variable cone that can expand or contract the diameter of the base as needed.

According to the embodiments of the present invention, simply by installing a simple cone, the air introduced into the inlet of the housing is guided toward the heater by the cone, so that the air does not come into contact with the heater and is discharged to the outlet as it is, solving the phenomenon of cold wind coming out The spiral protrusion formed on the outside of the cone forms a vortex in the air to increase the contact efficiency with the heater. It has the advantage of being able to adjust properly.

1 is a perspective view of the front of a hot air blower according to an embodiment of the present invention;
Figure 2 is a perspective view of the rear of the hot air blower according to an embodiment of the present invention,
Figure 3 is a cutaway perspective view showing the internal structure of the hot air blower shown in Figure 1;
4 is a longitudinal cross-sectional view of a hot air blower according to an embodiment of the present invention;
Figure 5 is a front view of the hot air blower shown in Figure 1;
6 is a perspective view of a cone showing another embodiment of the present invention;
7 is a longitudinal sectional view of a hot air blower showing another embodiment of the present invention.

Hereinafter, preferred embodiments that do not limit the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show a hot air blower 1 according to an embodiment of the present invention, in this embodiment, a cylindrical housing 100 having a double structure of an outer cylinder 110 and an inner cylinder 120; a blowing fan (200) installed at the rear inlet (I) of the cylindrical housing (100); a circular heater 300 installed inside the inner cylinder 120 to be spaced apart from the inner wall of the inner cylinder 120 by a predetermined distance; It is installed between the blowing fan 200 and the circular heater 300, and the air introduced into the inner cylinder 120 by the blowing fan 200 is guided between the circular heater 300 and the inner cylinder 200 to form a circular heater 300. After being heated by the cone 400 to be discharged to the discharge port (O) in front of the cylindrical housing 100 is made up of.

Reference numeral 500 in the drawing is a control box.

In this embodiment, the cone 400 is installed so that its rear end is supported by the mesh 130 whose outer shell is fixed to the inner cylinder 120. (vertex), and the tip, which is the base, has a diameter smaller than that of the circular heater 300.

In addition, as shown in FIG. 4, the cone 400 has a relatively longer distance (L) from the base to the apex of the rear end than the diameter (R) of the base, so that wind resistance due to the cone is minimized while It is designed to be able to effectively exhibit the function of guiding toward the inner wall of the inner cylinder 120.

In the drawing, reference numeral 140 denotes a support member and reference numeral 150 denotes a hanger hook. The hot air fan 1 according to the present embodiment can be used by being fixed on the floor of the installation site or on a carrier such as a cart, or can be installed and used suspended from a ceiling, etc. there is.

Also, reference numeral 210 is a motor for a blowing fan, reference numeral 220 is a net for fixing the motor, and reference numeral 310 is a bracket for fixing the circular heater 300 to the inner cylinder 120 in a spaced apart state.

As shown in FIG. 4, in the hot air blower of the present embodiment configured as described above, air (arrow) introduced into the inner cylinder 120 through the inlet I of the housing 100 by the blowing fan 3200 is directed toward the cone 400. It is induced between the circular heater 300 and the inner wall of the inner cylinder 120 by heat exchange with the heat generated in the circular heater 300, and after being sufficiently heated, it is discharged through the outlet (O) in front of the cylindrical housing 100, so that the circular heater ( 300) can effectively heat the air passing through the inner cylinder 120 to solve the phenomenon that the introduced cold wind is discharged as it is, and the air introduced into the inlet (I) is a circular heater ( 300) and the inner cylinder 120, it is possible to prevent the heat generated from the circular heater 300 from heating the inner cylinder 120 unnecessarily, thereby solving the phenomenon that the housing 100 becomes hot, so that the hot air blower It has the advantage of being able to transmit the heat generated as far as possible.

6 shows a cone 400 showing another embodiment of the present invention, in which a spiral protrusion 410 is formed on the surface of the cone 400 to apply rotational force to the air introduced by the blowing fan 200. The spiral protrusion 410 is formed in multiple spirals so that the introduced air can be further diffused outward and guided toward the circular heater 300 to maximize heat exchange efficiency.

7 is a cross-sectional view of a hot air blower 1 showing another embodiment of the present invention. In this embodiment, it is basically the same as the embodiment shown in FIGS. 1 to 5, except that the cone 400 is the bottom It consists of a variable cone capable of varying the diameter (R) of, which is that a plurality of variable blades 420 are radially rotatably fixed to the net body 130, and are spread outward or inward by the lever 430. Since it can be contracted, the bottom diameter (R) of the cone 400 can be varied and used as needed, so that the intensity and temperature of the hot air discharged from the hot air blower 1 can be appropriately adjusted to suit the situation there is.

In this embodiment, the variable blade 420 is made of an overlapping structure such as a wing plate of a foldable steamer support or an aperture of a camera, and one end of the lever 430 is connected to one side variable, so that the lever 430 is moved outward. When pulled, the variable blades 420 open together to widen the bottom diameter, and when the lever 430 is pressed inward, the variable blades 420 are retracted and the bottom diameter can be contracted.

As described above, according to the embodiments of the present invention, by simply installing a cone in front of the blowing fan in the inner cylinder, the air introduced into the inlet of the housing is guided toward the heater by the cone, so that the air does not come into contact with the heater. It is possible to solve the phenomenon of cold wind coming out through the outlet, as well as to increase the contact efficiency with the heater by forming a vortex in the air by the spiral protrusion formed on the outside of the cone. Since it can be formed and induced outward, it is possible to make air contact with the circular heater as much as possible, so that heat exchange efficiency can be maximized. It has the advantage of being able to adjust it appropriately according to the needs.

1 : Heater
100: housing
110: outer tube
120: inner tube
130: mesh
140: support member
150: hanger ring
200: blowing fan
210: motor
220: mesh
300: circular heater
310: Bracket
400: cone
410: spiral projection
420: variable wing
430: lever
500: control box

Claims (8)

a cylindrical housing 100 having a double structure of an outer cylinder 110 and an inner cylinder 120;
a blowing fan (200) installed at the rear inlet (I) of the cylindrical housing (100);
a circular heater 300 installed inside the inner cylinder 120 to be spaced apart from the inner wall of the inner cylinder 120 by a predetermined distance;
It is installed between the blowing fan 200 and the circular heater 300, and the air introduced into the inner cylinder 120 by the blowing fan 200 is guided between the circular heater 300 and the inner cylinder 120 to form a circular heater 300. After being heated by the cone 400 to be discharged to the discharge port (O) in front of the cylindrical housing 100; characterized in that it comprises a hot air blower.
The method of claim 1,
The cone 400 is a hot air blower, characterized in that installed so that the rear end is supported on the net body 130 whose outer shell is fixed to the inner cylinder 120.
According to claim 1 or 2,
The cone 400 is a hot air blower, characterized in that the rear end has a peak and the bottom end has a smaller diameter than the circular heater 300.
The method of claim 3,
The cone 400 is a hot air blower, characterized in that the distance (L) from the bottom to the apex of the rear end is formed relatively longer than the diameter (R) of the bottom.
The method of claim 3,
The hot air blower, characterized in that the spiral protrusion 410 is formed on the surface of the cone 400 so that the air introduced by the blowing fan 200 forms a vortex.
The method of claim 5,
The spiral projection 410 is a hot air blower, characterized in that consisting of multiple spirals.
The method of claim 3,
The cone 400 is a hot air blower, characterized in that made of a variable cone that can change the diameter of the bottom.
The method of claim 7,
In the variable cone 400, a plurality of variable blades 420 are radially and rotatably fixed to the net body 130, and are spread outward or contracted inward by a lever 430. Heater, characterized in that.