KR20130124681A - Hybrid boiler having door coupled with burner and fan together - Google Patents

Abstract

The present invention relates to a hybrid boiler using oil and wood as fuel, and to the hybrid boiler includes: an external housing; a combustion chamber being formed inside the external housing and in which the fuel is combusted; and a door part being coupled outside the external housing to be able to be opened or closed, and through which the fuel is injected into the combustion chamber, wherein the door part includes: a door panel being coupled to the external housing to be able to rotate; an oil burner being coupled to the door panel and igniting the fuel; and a blower being placed at one side of the oil burner and feeding air into the combustion chamber.

Description

HYBRID BOILER HAVING DOOR COUPLED WITH BURNER AND FAN TOGETHER}

The present invention relates to a hybrid boiler, and relates to a hybrid boiler in which an oil burner and a blower are integrally coupled to a door.

Hybrid boiler is a boiler that can use oil and wood together as fuel. Hybrid boilers have been disclosed in Patent No. 1026937.

The disclosed conventional hybrid boiler is independently provided with a firewood combustion chamber and an oil combustion chamber in which wood fuel is burned. At this time, the ignition burner for igniting the oil is coupled to the side of the oil combustion chamber, and the air required for combustion was supplied using the ignition burner.

Conventional hybrid boilers have two independent combustion chambers, so the overall size is large.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and to provide a hybrid boiler integrating a firewood combustion chamber and an oil combustion chamber and integrating a blower in addition to an ignition burner on a door.

Another object of the present invention is to provide a hybrid boiler that can improve the combustion efficiency of wood by implementing a smooth air supply according to the separate blower.

Still another object of the present invention is to provide a hybrid boiler capable of preventing air from overheating by allowing air to flow inside the door.

The object of the invention can be achieved by a hybrid boiler. Hybrid boiler of the present invention, the outer housing; A fire chamber formed inside the outer housing to combust the fuel; A door unit coupled to the outside of the outer housing to be opened and closed and injecting fuel into the firebox, wherein the door unit includes a door panel rotatably coupled to the outer housing; An oil burner coupled to the door panel to ignite fuel; It is characterized in that it comprises a blower disposed on one side of the oil burner for supplying air to the firebox.

According to an embodiment, an air flow path through which air supplied from the blower flows is formed in the door panel, and the air flowing through the air flow path is evenly spread inside the firebox on the inner side of the door panel. A plurality of air diffusion holes are formed.

Hybrid boiler according to the present invention can be formed in a separate blower on one side of the oil burner to supply sufficient air when burning wood to improve the combustion efficiency.

In addition, the oil combustion chamber and the wood combustion chamber may be integrated into the primary combustion chamber, and the flame and combustion gases may be moved to the secondary combustion chamber and the third combustion chamber to maximize the heat exchange efficiency and minimize the overall size.

In addition, an air flow path and an air diffusion hole are formed in the door panel to allow the air to be evenly supplied, thereby improving combustion efficiency and preventing overheating of the door panel.

1 is a cross-sectional view schematically showing the internal configuration of a hybrid boiler according to the present invention,
Figure 2 is a schematic diagram showing an enlarged configuration of the door portion of the hybrid boiler according to the present invention,
3 is a front view showing the structure of the door panel of the hybrid boiler according to the present invention.

1 is a cross-sectional view showing the configuration of a hybrid boiler 100 according to the present invention. Here, the hybrid boiler 100 according to a preferred embodiment of the present invention is implemented as a horizontal type boiler, it may be applied to the vertical type boiler in some cases.

As shown, the hybrid boiler 100 according to the present invention, as shown in the horizontal boiler 100 according to the present invention is the outer housing 110, the primary chamber is disposed in the lower region of the outer housing 110 ( 120, the secondary chamber 130 and the tertiary chamber 150 disposed above the outer housing 110, the association 140 connecting the secondary chamber 130 and the tertiary chamber 150 and It includes a hot water coil 160 disposed on the upper portion of the association (140).

In addition, the hybrid boiler 100 according to the present invention includes a door portion 200 which is coupled to the outside of the outer housing 110 to be openable. The door part 200 is disposed on the door panel 230 for opening and closing the primary chamber 120, an oil burner 220 coupled to the door panel 230 to ignite oil, and an upper portion of the oil burner 220. And a blower 240 for supplying air into the primary chamber 120.

The outer housing 110 accommodates the primary chamber 120 therein, and a water chamber 114 in which heating water is accommodated outside the primary chamber 120 is formed. In the lower region of the outer housing 110, a heating water inlet 111 through which heating water is introduced is formed. The water chamber 114 is formed between the inner wall surface of the outer housing 110 and the primary chamber 120 to receive the heating water.

The primary chamber 120 is disposed in the lower region of the outer housing 110. The primary chamber 120 is disposed in the transverse direction of the outer housing 110, and an ignition burner (not shown) is also disposed in the transverse direction about the outer housing 110.

The primary chamber 120 may be burned together with oil and wood. In the primary chamber 120, fuel is ignited by the oil burner 220, and combustion proceeds. The flame and the combustion gas generated by the combustion of the fuel are heat-exchanged with the heating water of the water chamber 114 surrounding the primary combustion chamber 120.

In the present invention, since the primary chamber 120 is disposed in the lower region relative to the outer housing 110, the hot combustion gas may move upwards to increase the heat transfer efficiency of the hot water coil 160 disposed above. .

The secondary chamber 130 and the tertiary chamber 150 allow the combustion gas to heat exchange with the heating water inside the upper housing 115. The secondary chamber 130 and the tertiary chamber 150 are connected by the association 140, the heat of the combustion gas moved through the association 140 is transmitted to the hot water coil 160 located at the top.

The door part 200 is coupled to the outer housing 110 to be opened and closed. The door part 200 is disposed on the door panel 230 for opening and closing the primary chamber 120, an oil burner 220 coupled to the door panel 230 to ignite oil, and an upper portion of the oil burner 220. And a blower 240 for supplying air into the primary chamber 120 and a door casing 210 for covering the door panel 230.

The door casing 210 is formed to cover the entire door panel 230 so that the oil burner 220 and the blower 240 are accommodated therein. The door casing 210 prevents hot heat from being transferred to the outside of the primary chamber 120 to secure the user's safety when opening and closing the door panel 230.

The oil burner 220 ignites the oil in the primary chamber 120 so that fuel is burned. The oil burner 220 is formed of a vortex chamber 221, an arc generator 223, an oil electron pump 225, and a burner tube 229. The vortex chamber 221 is provided with a blowing fan (not shown) to supply external air to the burner tube 229. The arc generator 223 creates an arc for ignition of oil. The oil electron pump 225 sprays high pressure oil to the burner tube 229. The oil pump 225 is supported by the bracket 227.

The burner tube 229 is crushed by the oil electronic pump 225 and the atomized oil and the air supplied along the vortex chamber 221 meet to form a flame. The burner tube 229 is inserted through the door panel 230 to supply the flame into the primary chamber 120.

The door panel 230 is rotatably coupled to the outer housing 110. The door panel 230 is formed in a hollow area therein to allow the air flow path 231 through which the air introduced by the blower 240 flows, and to allow the user to monitor the flame inside the primary fire chamber 120. Flame monitoring window 233, and the air diffusion hole 235 formed through the inner surface of the door panel 230.

The air flow path 231 is formed in the entire area of the door panel 230 to allow air to flow therein. This prevents the door panel 230 from overheating.

The air diffusion hole 235 supplies the air flowing in the air flow path 231 into the primary chamber 120. As shown in FIG. 3, a plurality of air diffusion holes 235 may be formed to uniformly supply air into the primary chamber 120. This allows the burning of wood to be evenly carried out without concentrating on any part of it.

The blower 240 supplies air into the primary chamber 120. The blower 240 supplies a large amount of air when burning wood fuel so that the wood is smoothly burned. The blower 240 includes a vortex chamber 441 to which a blower fan (not shown) is attached to generate compressed air, a condenser 443 for operating the blower driving motor (not shown), and a blower driving motor (not shown). It includes a rotation speed sensor 445 for detecting the rotation speed of the.

The operation of the hybrid boiler 100 according to the present invention having such a configuration will be described with reference to FIGS. 1 to 3.

The user opens the door panel 230 and loads the wood fuel in the primary chamber 120. Then, wood fuel is ignited. Then, when power is applied, air is supplied to the inside while the blower driving motor (not shown) is driven.

Air is flowed through the air flow path 231 by the driving of the blower 240, and the air is evenly supplied into the primary chamber 120 through the air diffusion hole 235. As a result, the wood fuel is burned evenly without concentrating combustion on specific parts.

At this time, since air flows along the air flow path 231 inside the door panel 230, it is possible to prevent the outer surface of the door panel 230 from being overheated by the heat inside the primary chamber 120.

On the other hand, when all the wood fuel is burned and the present temperature is lower than the set heating temperature, the oil burner 220 is automatically driven by a controller (not shown). The arc generator 223 generates an arc, and a flame is supplied into the primary chamber 120 through the burner tube 229 to burn the oil.

As described above, the hybrid boiler according to the present invention may provide a separate blower on one side of the oil burner to supply sufficient air when burning wood to improve combustion efficiency.

In addition, the oil combustion chamber and the wood combustion chamber may be integrated into the primary combustion chamber, and the flame and combustion gases may be moved to the secondary combustion chamber and the third combustion chamber to maximize the heat exchange efficiency and minimize the overall size.

In addition, an air flow path and an air diffusion hole are formed in the door panel to allow the air to be evenly supplied, thereby improving combustion efficiency and preventing overheating of the door panel.

The embodiment of the hybrid boiler of the present invention described above is merely exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. There will be. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: horizontal boiler 110: outer housing
120: first room 130: second room
140: Association 150: Room 3
160: hot water coil 200: door part
210: door casing 220: oil burner
221: vortex chamber 223: arc generator
225: oil electronic pump 227: bracket
229: burner tube 230: door panel
231: air flow path 233: flame monitoring window
235: air diffusion hole 240: blower
241: blower and air chamber 243: motor capacitor
245 rotation speed detector

Claims (2)

In a hybrid boiler that uses oil and wood as fuel,
External housing;
A fire chamber formed inside the outer housing to combust the fuel;
It is coupled to the outside of the outer housing so as to open and close the fuel inlet to the firebox,
The door portion
A door panel rotatably coupled to the outer housing;
An oil burner coupled to the door panel to ignite fuel;
And a blower disposed at one side of the oil burner and supplying air to the firebox.
The method of claim 1,
An air flow path through which the air supplied from the blower flows is formed in the door panel,
And a plurality of air diffusion holes formed on the inner side of the door panel to evenly distribute the air flowing through the air flow path into the firebox.

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