KR101111003B1 - A electric hot wind appliance - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric hot air blower, and more particularly, to an electric hot air blower having a simple structure and greatly improving thermal efficiency of an electric hot air blower that blows air heated by a heat source generated by heating an electric heater to a blower fan.

That is, the present invention is composed of an electric hot air blower for discharging the heated air in the hot air generating chamber equipped with an electric heater by a blower, the hot air generating tube for generating hot air in the hot air generating chamber is disposed, the hot air generating tube is Heater mounting space for mounting the heater horizontally, the rear end of the heater mounting space is bent vertically to moore the hot air and upright hot air mooring space to be supplied, and the top of the hot air mooring space is bent horizontally A configuration consisting of a discharge unit for discharging hot air to the outside; A rod-shaped heater is disposed in the longitudinal direction of the internal heater mounting space of the hot air generating tube, and the heat exchanger plate is spirally rotated in the longitudinal direction on the outer circumferential surface of the heater so as to be integrally attached to allow heat conduction; And a blower configured to allow air to flow in a direction orthogonal to the longitudinal direction of the heater and be blown in a spiral manner along the heat exchange plate to one side of the heater mounting space.

Heater, hot air, heat exchange plate, spiral, heat generating tube

Description

Electric hot winder {A electric hot wind appliance}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric hot air blower, and more particularly, to an electric hot air blower having a simple structure and greatly improving thermal efficiency, wherein the electric hot air blower blows air heated by the heat source generated by heating the electric heater to the blower.

In general, an electric hot air heater is a device that heats air by using a heater and then discharges the heated air at a constant speed to heat a certain place. Currently, it is widely used because of its high stability and economy compared to other heating appliances using gas or oil. In the electric hot air fan, a plurality of heaters generated by electricity are heated while air passes through the internal space of the hot air base body, and the heated air is discharged at a constant speed by a blower installed in the hot air base body.

The conventional electric hot air blower can increase the flow rate of air by widening the cross-sectional area of the hot air base, but when the cross-sectional area of the hot air base increases, the space between the plurality of heaters installed in the hot air base increases, thereby exchanging heat exchange efficiency. As the fall, the air was not heated properly, and the amount of heat released through the heat insulating material attached to the outer wall of the hot air base was also increased, resulting in a significant decrease in the energy usage efficiency. In the case of increasing the size, a lot of additional costs arise.

The present invention has been made in order to solve the above problems, a rod-shaped heater is built in the hot air blower body and provided with a hot air generating tube for transmitting the heated air flowed in by the blower, such as spirally on the outer peripheral surface of the rod-shaped heater The heat exchanger plate is integrally attached to the air blower blown by the blower to rotate the heat exchanger plate in such a configuration that the heat exchange efficiency is provided to provide an electric hot air blower to significantly increase.

The present invention is composed of an electric hot air blower for discharging the heated air in the hot air generating chamber equipped with an electric heater by the blower, the hot air generating pipe disposed in the hot air generating chamber is a heater mounting space for mounting the heater horizontally; The rear end of the heater mounting space is vertically bent and the upright hot air mooring space for mooring hot air and then supplying, and the upper end of the hot air mooring space is bent horizontally and composed of a discharge part for discharging hot air to the outside; ; A rod-shaped heater is disposed in the longitudinal direction of the internal heater mounting space of the hot air generating tube, and the heat exchanger plate is spirally rotated in the longitudinal direction on the outer circumferential surface of the heater so as to be integrally attached to allow heat conduction; A blower configured to allow air to flow in a direction orthogonal to the longitudinal direction of the heater to be blown in a spiral manner along the heat exchange plate to be blown to one side of the heater mounting space;

The electric hot air blower of the present invention has a simple structure of an electric hot air blower that blows air heated by a heat source generated by heating an electric heater to a blower, and the inside of the hot air blower tube spirally rotates the heat exchange plate in the longitudinal direction on the outer circumferential surface of the heater. Heat conduction and air flows in a direction orthogonal to the longitudinal direction of the heater to one side of the heater mounting space, and the air flowing from the blower is swirled in the hot air generating tube and is spirally contacted at the same time. Since the hot air is generated in a state in which the state is maximized, there is an effect of having an electric hot air fan which greatly increases the heat efficiency by increasing the heat efficiency.

In the electric hot air blower of the present invention, a hot air generating tube for generating hot air is disposed in a hot air generating chamber of an electric hot air blower in which heated air is discharged by a blower using an electric heater as a heat source in the main body of the hot air blower. Heater mounting space for mounting the heater horizontally, the rear end of the heater mounting space is bent vertically to moore the hot air upright hot air mooring space for supplying, and the top of the hot air mooring space is bent horizontally A configuration consisting of a discharge unit for discharging hot air to the outside; A rod-shaped heater is disposed in the lengthwise direction of the inner heater mounting space of the hot air generating tube, and the heat exchanger plate is spirally rotated in the lengthwise direction on the outer circumferential surface of the heater so as to be integrally attached to allow heat conduction; And a blower configured to allow air to flow in a direction orthogonal to the longitudinal direction of the heater to be blown in a spiral manner along the heat exchange plate and blown to one side of the heater mounting space.

In addition, the outer circumferential surface of the hot air generating tube is characterized in that a heat insulating layer made of a heat insulating material is formed in order to block heat generated from being transferred to the outside to the outside.

In addition, the heater disposed in the heater mounting space is characterized in that the ends of the longitudinal direction is bent and connected to form a pair in the horizontal and vertically arranged in multiple stages to form a heat exchange plate integrally attached to the heater.

In addition, the heat exchange plate is characterized in that a plurality of irregularities for enlarging the heat exchange cross-sectional area is formed in the embossed form.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Electric hot air according to the present invention, the hot air generating chamber 20 and the electric heater 40 is provided with a hot air generating means in the hot air body main body 10 made of a rectangular cylinder power supply having a control device The operating chamber 18 is separated.

The front upper end of the hot air blower main body 10 is provided with an operation switch 12, the front lower end is provided with an opening and closing door 14 for opening and closing the power operation chamber 18, both side walls are inside the hot air generating chamber ( 20 and a ventilation hole 16 penetrating is formed.

The hot air generating tube 30 for generating hot air is disposed in the hot air generating chamber 20, and a blower 60 is mounted on one front side of the hot air generating tube 30 to convert external air into the hot air generating tube 30. It is possible to discharge the hot air generated by the heat exchange action to the outside, the outer circumferential surface of the hot air generating tube 30 is wrapped around the thermal insulation material to block the heat loss generated by the heat generated from the inside to the outside The heat insulation layer 32 is formed.

The hot air generating pipe 30 is composed of a heater mounting space (30a) for mounting a heater, a hot air mooring space (30b) for generating hot air and a discharge unit (30c) for discharging hot air.

The heater mounting space 30a is formed to be mounted while maintaining the heater 40 horizontally in the front and rear longitudinal direction, and the front end portion of the heater mounting space 30a is separated from the power operation chamber 18 by a partition wall. It is supported in a sealed state and penetrates the blocking wall to connect the power supply line 19 of the heater.

The hot wind mooring space 30b is connected to the vertical form bent vertically at the rear end in the horizontal heater mounting space (30a) so that the hot air generated in the hot air mooring space (30b) is not immediately discharged to accumulate hot air. It is sent to the discharge part 30c in a state so that discharge may be performed.

 The discharge part 30c is connected in a horizontally bent shape at the upper end of the hot air mooring space 30b to protrude to the outside so that hot air is discharged to the outside.

The rod-shaped heater 40 is disposed in the longitudinal direction in the internal heater mounting space 30a of the hot air generating tube 30, but the heat exchange plate 50 spirally rotates in the longitudinal direction on the outer circumferential surface of the heater 40. It is arranged at regular intervals and is integrally attached to allow thermal conduction.

Blower 60 to allow air to flow in a direction orthogonal to the longitudinal direction of the heater 40 to one side wall of the heater mounting space (30a) to be spirally rotated along the heat exchange plate (50) to be blown Characterized in that installed.

The heater 40 disposed in the heater mounting space 30a has a form in which a heat exchanger plate 50 attached to the heater 40 is densely arranged by forming a pair of horizontal ends and vertically arranged in a multi-stage direction. The air introduced by the blower 60 is brought into contact with the dense heat exchanger plate 50 and spirally rotated along the heat exchanger plate 50 to perform heat exchange.

The heat exchange plate 50 has a plurality of uneven portions 50a for enlarging the heat exchange cross-sectional area is formed in the embossed form to increase the heat exchange efficiency.

The blower 60 is installed on one side wall of the heater mounting space 30a so as to be blown in a direction orthogonal to the longitudinal direction of the heater 40 so that the air introduced by the blower 60 is exchanged through the heat exchange plate 50. In addition to the contact with the hot air generating tube 30 and hit the inner wall of the spiral spiral along the heat exchange plate 50 is increased to increase the heat exchange efficiency.

When power is applied to the electric hot air blower according to the present invention as described above, the heater 40 disposed in the heater mounting space 30a of the hot air generating tube 30 is heated, and the heat exchanger is integrally attached to the outer circumferential surface of the heater 40. Heat is conducted to the plate 50 to increase the air inside the hot air generating tube (30).

When the heater 40 is heated to a predetermined temperature and the blower 60 provided at one front side of the hot air generating tube 30 is operated, air is supplied to the heater mounting space 30a of the hot air generating tube 30. The hot air is introduced to generate hot air to send hot air to the outside through the hot air mooring space 30b through the discharge part 30c.

At this time, the air introduced from the blower 60 comes into contact with the heater 40 arranged in multiple stages and the heat exchange plate 50 attached to the heater 40 in an integrated state, and also hits the inner wall of the hot air generating tube 30. The vortex is generated and then the heat exchange plate 50 spirally disposed in the longitudinal direction on the outer circumferential surface of the heater 40 is spirally rotated to generate hot air to be sent toward the hot air mooring space 30b.

As described above, the air flowing from the blower 60 becomes the vortex in the hot air generating tube 30 and spirally rotates at the same time, so that hot air is generated in a state in which the contact state is maximized. It will greatly increase the heat conversion efficiency.

In addition, by using a plurality of uneven portions 50a formed in the heat exchange plate 50 in an embossed form, the heat exchange cross-sectional area of the heat exchange plate 50 may be increased to double the heat exchange efficiency.

The hot air generated by the above-described action is not immediately discharged from the hot air mooring space 30b, which is bent vertically and is upright, but is moored and sent to the discharge part 30c in a state in which hot air is accumulated. Since the wall surface of the hot air generating tube 30 is always maintained in a heated state, the thermal efficiency can be increased.

In the above, the present invention has been described with reference to the above embodiment, but the present invention can be variously modified within the technical scope.

1 is a perspective view showing an electric hot air blower of the present invention.

2 is a partially cutaway perspective view of the electric hot air blower of the present invention.

Figure 3 is an exemplary cross-sectional view of the electric hot air blower of the present invention.

Figure 4 is a perspective view showing the configuration of the heat exchanger plate attached to the electric heater of the electric hot air blower of the present invention.

Fig. 5A is an enlarged perspective view and a cross-sectional view of a portion “A” of Fig. 4.

DESCRIPTION OF THE REFERENCE NUMERALS

10: hot air blower body 12: operation switch

14: opening and closing door 16: ventilation hole

18: power operation room 19: power supply line

20: hot air generating chamber 22: blocking wall

30: hot air generating tube 30a: heater mounting space

30b: hot air mooring space 30c: discharge section

32: heat insulation layer 40: heater

50 heat exchange plate 50a uneven portion

60: blower

Claims (4)

In the electric hot air blower to discharge the air heated by the blower 60 in the hot air generating chamber 20 provided with the electric heater 40 in the inside of the hot air blower body 10, Hot air generating pipe 30 for generating hot air in the hot air generating chamber 20 is disposed; Hot air generating tube 30 is a heater mounting space (30a) to the heater 40 is mounted horizontally, and the rear end of the heater mounting space (30a) is bent vertically to hold the hot air and then upright to supply The hot air mooring space 30b and an upper end of the hot air mooring space 30b are horizontally bent to have a discharge part 30c for discharging hot air to the outside; The rod-shaped heater 40 is disposed in the longitudinal direction in the internal heater mounting space 30a of the hot air generating tube 30, but the heat exchange plate 50 spirally rotates in the longitudinal direction on the outer circumferential surface of the heater 40. The heat exchange plate 50 has a plurality of uneven parts 50a formed in an embossed shape while being integrally attached to be uniformly spaced so that thermal conduction can be made; A blower 60 is installed to allow air to flow in a direction orthogonal to the longitudinal direction of the heater 40 to one side wall of the heater mounting space 30a so as to be spirally rotated and blown along the heat exchange plate 50. An electric hot air fan characterized in that. The method of claim 1, The outer circumferential surface of the hot air generating tube 30 is an electric hot air blower, characterized in that the heat insulating layer 32 made of a heat insulating material is formed to block heat generated from being transferred to the outside. The method of claim 1, The heater 40 disposed in the heater mounting space 30a is bent and connected in a longitudinal direction to form a pair horizontally and arranged vertically in multiple stages so that the heat exchange plate 50 integrally attached to the heater 40 is dense. An electric hot air blower characterized in that it was shaped. delete

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