WO2024122892A1

WO2024122892A1 - Heater with automated heat diffusion by non-powered fan

Info

Publication number: WO2024122892A1
Application number: PCT/KR2023/017611
Authority: WO
Inventors: 김지혜; 장규호
Original assignee: 김지혜
Priority date: 2022-12-05
Filing date: 2023-11-06
Publication date: 2024-06-13
Also published as: KR102558853B1

Abstract

The present invention relates to a heater that maintains constant indoor temperature by automating forced-air circulation driven by a non-powered fan, thereby raising heating efficiency and resolving the issues of incomplete combustion, soot generation, and safety.

Description

A stove that implements automatic heat diffusion by a non-powered fan

The present invention relates to a stove, and in particular, to a stove that automatically maintains the indoor temperature by automatically forcing air circulation by driving a non-powered fan.

The stove burns fuel to generate heat and warm the room. However, the heated air gradually spreads out from around the stove relying only on natural convection phenomena, but there is a problem in that it takes a long time to warm the air throughout the room and high heating costs are incurred. In other words, the air heated by the heater rises upward and warms the air from the top, so it takes a long time for the air to become warm at a distance from the stove and high heating costs are incurred.

Accordingly, the present applicant has proposed Domestic Patent No. 10-1949088, “Assembly-type air circulator with non-powered fan” (prior literature). The prior literature includes a heat generation device that generates electricity by the temperature difference between one side receiving the heat of the stove and the other side in contact with the cooling plate. The heat generation device is used when the temperature difference between one side and the other side is more than a certain value. This produces power that can drive the blower motor.

On the other hand, the 'assembled air circulator with a non-powered fan' proposed in the prior literature is used by placing it on the upper part of the stove. This configuration has a problem, namely, as the wind from the blowing fan moves to the lower part, the stove main body is damaged. This means that wind also flows into the combustion section. Therefore, the inflow of wind causes problems such as incomplete combustion and soot generation in the wick of the combustion part, which also poses a safety problem.

Therefore, in constructing a stove, the present invention provides automatic heat diffusion by a non-powered fan that allows the heated air to be automatically circulated throughout the room in a faster time without the wind generated by the blowing fan having any effect on the combustion part. The goal is to provide a stove that can be implemented.

The present invention for achieving the above object is a stove consisting of a combustion heating unit 20 that receives fuel (F) in the fuel tank 10 and combusts it, and a case 30 surrounding the combustion heating unit 20. In

The fuel tank 10 forms a hollow hole 10a penetrating upward and downward, and the hollow hole 10a communicates with the hollow hole 22a of the heating net 22 constituting the combustion heating unit 20. ,

Inside the case 30, a vertical pipe body 40 extending up and down is formed, and the vertical pipe body 40 includes the hollow hole 22a of the heating net body 22 and the hollow hole 10a of the fuel tank 10. The vertical tube 40 is provided with a blowing fan 60 coupled to and driven at the bottom of the motor 62 shaft, which produces power using electricity generated from the heat generation unit 50.

The motor 62 coupled with the blowing fan 60 is automatically driven by the heat generation unit 50, which generates electricity using the combustion heat generated from the combustion heating unit 20, and accordingly, the combustion heating unit 20 ) Some of the warm air generated from the case 30 escapes through the heat diffusion hole 30b formed in the upper part of the case 30, and some part is sucked into the upper part of the vertical pipe 40 by driving the blowing fan 60 and then into the lower part. It is characterized by increasing heating efficiency by forcing discharge.

The present invention forcibly circulates the warmed air downward, thereby rapidly warming the entire room. In particular, the wind forcibly moved downward by the blower fan 60 moves only through the inside of the vertical pipe 40, thereby causing combustion. Since it does not affect the unit 20 at all, there is an advantage in that incomplete combustion, soot generation, and safety problems can be solved.

1 is an external configuration diagram of a stove in which forced air circulation is achieved by driving a non-powered fan according to an embodiment of the present invention;

2 (FIGS. 2A and 2B) is a cross-sectional view showing the interior of a stove in which forced air circulation is performed according to an embodiment of the present invention;

Figure 3 is an exploded configuration diagram of Figure 1;

Figure 4 is a detailed configuration diagram of Figure 2.

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

Referring to Figure 1, the stove is composed of a combustion heating unit 20 that receives fuel (F) in the fuel tank 10 and combusts it, and a case 30 surrounding the combustion heating unit 20. A detailed description of the basic known configuration will be omitted, and the characteristic configuration of the present invention will be described in detail.

Referring to FIGS. 1 to 4 together, the stove 2 in which automatic heat diffusion by a non-powered fan is implemented according to an embodiment of the present invention is configured with a fuel tank 10 at the bottom and an upper part of the fuel tank 10. The combustion heating unit 20 is coupled.

In particular, the fuel tank 10 forms a hollow hole 10a penetrating upward and downward. And the hollow hole (10a) is configured to communicate with the hollow hole (22a) of the heating net body (22) constituting the upper combustion heating part (20).

In order to form a hollow hole (10a) in the fuel tank (10), the lower body (12) extends upward around the hollow hole (10a) based on the container interior (11) of the fuel tank (10) to form an inner wall ( 12a) is formed, and the upper body 14, based on the container interior 11 of the fuel tank 10, extends upward with a space 16 outward with respect to the inner wall 12a to form an outer wall 14a. ) is formed by forming. According to this configuration, the fuel tank 10 has a core hole 10a formed, and the space 16 is connected to the inside of the container 11.

The wick 24 is inserted through the space 16 connected to the inside of the container 11, so that the fuel F filled in the inside of the container 11 is supplied to the wick 24. The wick 24 is moved up and down by manipulating the control knob 25 to adjust the heating power.

The case 30 surrounding the combustion heating unit 20 has an air inlet hole 30a at the bottom and a heat diffusion hole 30b at the top, and an upper cover 32 is attached at the top to partition it from the outside. do.

Next, a vertical pipe body 40 extending up and down is formed inside the case 30, and the vertical pipe body 40 includes the hollow hole 22a of the heating net body 22 and the hollow hole of the fuel tank 10 ( Make sure to pass 10a). In addition, a blowing fan 60 is formed at the bottom of the vertical pipe 40, and the blowing fan 60 is coupled to the shaft of the motor 62, which produces power using electricity generated in the heat generation unit 50, for combustion. It rotates automatically when the temperature rises.

The blower fan 60 is provided with an upper plate 64 and a lower plate 65 at the lower part of the fuel tank 10 for smooth positioning, and the upper plate 64 and the lower plate 65 are connected to each other by support pins 66. They are spaced apart vertically from each other, and the blower fan 60 and the motor 62 are coupled and fixed in the space spaced apart. At this time, the through hole 64a formed in the center of the upper plate 64 communicates with the lower end of the vertical pipe body 40.

The heat generation unit 50 is located near the heating net 22 and is provided with a heat conduction plate 52 that receives heat generated from the heating net 22, and one side is in contact with the heat conduction plate 52. It is composed of a thermoelectric device 54 that receives heat and the other side contacts the heat sink 56 to generate electricity by temperature difference. The basic operating principle of the heat generation unit 50 is published in the applicant's registered patent No. 10-1949088, “Assembly-type air circulator with non-powered fan,” so detailed description is omitted.

Referring to Figure 2, the stove (2) in which forced air circulation is achieved by driving the non-powered fan of the present invention having the above configuration,

First, when external air enters through the air inlet hole (30a), it is exposed to fire while passing through the combustion heating unit (20) and is directly heated. At this time, the heat conduction plate 52 of the heat generation unit 50 located near the heating net 22 receives heat and transfers it to the thermoelectric device 54, and the thermoelectric device 54 uses the received heat to generate electricity. causes.

The motor 62 coupled with the blowing fan 60 is automatically driven by the electricity generated by the thermoelectric device 54. As the blowing fan 60 rotates, some of the warm air heated in the combustion unit 20 is blown. It escapes through the heat diffusion hole (30b) formed in the upper part of the case (30), and some is sucked into the upper part of the vertical tube (40) by the driving of the blowing fan (60) and then forcibly discharged to the lower part of the stove.

As the warm air is forcibly circulated downward, the entire room is quickly warmed, which increases heating efficiency. In particular, the wind that is forcibly moved downward by the blower fan (60) moves only through the inside of the vertical pipe (40) and therefore has no effect on the combustion unit (20), resulting in incomplete combustion and soot generation, which have been pointed out as problems in the prior art. All safety issues will be resolved.

In addition, according to the present invention, in adding a configuration for forcibly discharging the heated air to the lower part of the indoor blade, only the height corresponding to the component part of the blowing fan 60 is increased. In other words, there is no expansion in volume to the sides and the existing shape is not significantly changed.

In the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but by the scope of the patent claims and their equivalents.

None

The present invention is used in a stove in which automatic heat diffusion by a non-powered fan is implemented.

Claims

In the stove consisting of a combustion heating unit 20 that receives fuel (F) in the fuel tank 10 and combusts it, and a case 30 surrounding the combustion heating unit 20,

The fuel tank 10 forms a hollow hole 10a penetrating upward and downward, and the hollow hole 10a communicates with the hollow hole 22a of the heating net 22 constituting the combustion heating unit 20. ,

The case 30 has an air inlet hole 30a at the bottom and a heat diffusion hole 30b at the top, and an upper cover 32 is attached at the top to separate it from the outside.

Inside the case 30, a vertical pipe body 40 extending up and down is formed, and the vertical pipe body 40 is formed through the hollow hole 22a of the heating net body 22 and the hollow hole 10a of the fuel tank 10. It is allowed to pass through, and a blower fan 60 is provided at the bottom of the vertical pipe 40, which is coupled to and driven on the shaft of a motor 62 that produces power using electricity generated from the heat generation unit 50,

The motor 62 coupled with the blowing fan 60 is automatically driven by the heat generation unit 50, which generates electricity using the combustion heat generated from the combustion heating unit 20, and accordingly, the case 30 The external air that enters the case 30 through the lower air inlet hole 30a is exposed to fire as it passes through the combustion heating unit 20 and is directly heated, and some of the heated air is transferred through the heat diffusion hole at the top of the case 30. Automatically by a non-powered fan, which is characterized in that heating efficiency is increased by exiting through (30b), and some of it is sucked into the upper part of the vertical pipe (40) by driving the blowing fan (60) and then forced out to the lower part. A stove that implements heat diffusion.
According to paragraph 1,

In order to form a hollow hole (10a) in the fuel tank (10), the lower body (12) extends upward around the hollow hole (10a) based on the container interior (11) of the fuel tank (10) to form an inner wall ( 12a) is formed, and the upper body 14, based on the container interior 11 of the fuel tank 10, extends upward with a space 16 outward with respect to the inner wall 12a to form an outer wall 14a. ) is formed by forming,

A non-powered fan characterized in that the fuel (F) filled in the container interior (11) is supplied to the wick (24) by inserting the wick (24) through the space (16) connected to the container interior (11). A stove in which automatic opening diffusion is implemented.
According to paragraph 1,

The heat generation unit 50 is located near the heating net 22 and is provided with a heat conduction plate 52 that receives heat generated from the heating net 22,

Automatic heat diffusion by a non-powered fan is characterized in that one side is in contact with the heat conduction plate 52 to transfer heat, and the other side is in contact with the heat sink 56 and consists of a thermoelectric device 54 that generates electricity by temperature difference. A hearth that is realized.