KR101940537B1 - Burner device using waste heat and steam generator and hot water generator applying it - Google Patents

Abstract

The present invention relates to a burner device and, more particularly, to a burner device using exhaust gas and a steam and hot water generator to which the same is applied, including a burner housing having a space portion open upward formed inside and having a hollow pipe at the center that has an upward and downward communication structure for blocking from the space portion; an air-fuel supply pipe supplying an air-fuel mixture to the space portion; a flame plate configured on the open upper surface of the burner housing, configured to discharge the air-fuel mixture supplied from the air-fuel supply pipe, and having a communication hole having the same inner diameter as the hollow pipe at the center; a waste heat supply pipe disposed inside the hollow pipe, configured such that a waste heat discharge port at the end is exposed on the flame plate through the communication hole, and configured such that the exhaust gas is discharged; and an ignition unit installed adjacent to the flame plate at the upper end of the burner housing and igniting the discharged air-fuel mixture. The combustion chamber is heated in a way that the exhaust gas is discharged toward the center of the flame plate having a wide and short flame. As a result, the heating amount is improved as compared with the fuel amount, the inside of the combustion chamber is not directly exposed to the flame, and thus the durability of the steam and hot water generator provided with the combustion chamber can be improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a burner device using a flue gas and a steam and hot water generator applying the same,

The present invention relates to a burner apparatus using flue gas and a steam and hot water generator employing the flue gas. More particularly, the present invention relates to a flue gas generator and a hot water generator, A steam generator provided with a combustion chamber for supplying heat to the combustion chamber in a state of being mixed with the exhaust gas generated in the burner apparatus, and a flue gas which greatly improves the thermal efficiency of the hot water generator, and a steam and hot water generator .

Generally, the steam generator or the absorption type cold / hot water generator is configured to generate steam or hot water by directly heating the water. Such a conventional steam generator or absorption type water heater / heater will directly heat the water at room temperature and therefore takes a long heating time, And the like.

In order to overcome this problem, the problems have been partially improved by preheating the feed water through a heat exchanger using exhaust gas discharged from an engine for power generation and supplying the steam to the steam generator.

However, in the case of the steam generator or the absorption type cold / hot water generator using the above arrangement, heat is lost due to a multi-stage process in which exhaust gas passes through a heat exchanger and water preheated by the heat exchanger is supplied to the steam boiler again, .

Korean Patent No. 10-0912218

SUMMARY OF THE INVENTION It is an object of the present invention to provide a steam generator or hot water generator in which exhaust gas discharged from an engine for power generation is introduced into a steam generator or a hot water generator and heat exchanged with fuel and air flowing into the burner apparatus, And a steam and hot water generator using the flue gas using the flue gas and the steam and hot water generator using the flue gas, wherein the flue gas is supplied to the combustion chamber in a mixed state with the flue gas.

According to an aspect of the present invention, there is provided a burner apparatus comprising: a burner housing having a hollow space having an upper surface opened inside thereof and a hollow tube vertically communicating with the space, An air-fuel supply pipe for supplying a mixer in which air and fuel are mixed to the space portion; A flame plate formed on an opened upper surface of the burner housing and configured to discharge a mixer supplied from the air-fuel supply pipe and having a communicating hole having the same inner diameter as the hollow tube at the center; An array supply pipe disposed inside the hollow tube and configured such that an array discharge port at an end thereof is exposed on the flame plate through the communication hole to discharge the flue gas; And an ignition unit for igniting a mixer installed adjacent to the flame plate at an upper end of the burner housing and sensing a flame.

In one embodiment, the ignition portion is formed at least on the upper edge of the burner housing.

As another example, the flame plate is provided with at least one through-hole, the through-hole communicates with a shielding tube formed so as to pass through the space portion to be blocked from the space portion, and the ignition portion is connected to the through- And is exposed to the upper side.

Further, the flame plate is characterized in that a gradient is formed such that the edge side is higher than the center portion where the arrayed supply port is formed.

Meanwhile, the steam and hot water generator using the burner apparatus according to the present invention includes a burner device; And a combustion chamber in which the burner device is built in the lower portion and is supplied with a heat source from the burner device.

At this time, the combustion chamber includes a supply chamber configured to receive and receive water and to surround the burner apparatus airtightly in the form of a donut; A discharge chamber spaced above the supply chamber and defining a discharge port; A combustion chamber in which a lower end portion of the supply chamber is closed and an upper end portion of the combustion chamber surrounds the discharge chamber in an airtight manner and an exhaust port is formed at one side; And one or more heat exchange tubes communicating with the supply chamber at one end and communicating with the discharge chamber at the other end inside the combustion chamber.

As an example, the exhaust port is formed on a lower side of the combustion chamber.

The burner apparatus using the flue gas and the steam and hot water generator using the flue gas according to the present invention are configured to heat the heat exchange tube formed around the combustion chamber in such a manner that the flue gas is discharged through the center of the flame plate having a flame having a wide flue gas, Since the temperature of the flame is increased and the thermal efficiency is improved and the periphery of the burner and the flame are piled up with the water-filled supply chamber by preheating the air-fuel mixture contacting the burner while the flue gas is effectively passing through the burner, Is prevented from being directly exposed to the flame, there is an effect of improving the durability of the steam and the hot water generator.

In addition, the high-temperature heat of the exhaust gas and the burner supplied to the combustion chamber is transferred to the upper portion of the combustion chamber, and then the heat is transferred to the heat exchange tube again. The time required for heat transfer is shortened and the heat transfer efficiency is maximized.

1 is a perspective view showing a burner apparatus according to the present invention;
Fig. 2 is a side sectional view of Fig. 1; Fig.
3 is a view showing an embodiment of a burner apparatus according to the present invention.
4 is a view showing one embodiment of an ignition part which is an embodiment of the present invention.
5 is a view showing one embodiment of a flame plate as an embodiment of the present invention.
6 is a perspective view showing an embodiment of a steam and hot water generator using a burner apparatus according to the present invention.
7 is a cross-sectional view schematically showing a steam and hot water generator using the burner apparatus of FIG. 6;

In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention But also the meaning and the concept corresponding to the technical idea of.

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

FIG. 1 is a perspective view showing a burner apparatus according to the present invention, FIG. 2 is a side sectional view of FIG. 1, and FIG. 3 is a view showing an embodiment of a burner apparatus according to the present invention. 5 is a view showing an embodiment of a flame plate according to an embodiment of the present invention, and Fig. 6 is a sectional view of a burner apparatus according to the present invention. Fig. FIG. 1 is a perspective view showing an embodiment of a steam and hot water generator using a steam generator. And FIG. 7 is a cross-sectional view schematically showing a steam and hot water generator using the burner apparatus of FIG.

The burner apparatus and the hot water generator using the same according to the present invention allow the exhaust gas or waste heat discharged from an engine for power generation to be introduced into a lower part of a steam generator or a hot water generator, The thermal efficiency of the steam and hot water generator provided in the combustion chamber 2 can be greatly improved. Since the periphery of the burner and the flame is surrounded by the water-filled supply chamber, The durability of the combustion chamber 2 and its internal parts can be improved.

The burner apparatus 1 includes a burner housing 10, an air-fuel supply pipe 20, a flame plate 30, an ignition part 50, and an arrangement supply pipe 40 as shown in FIGS. And a control unit.

As shown in the figure, the burner housing 10 has a structure in which the lower portion of the burner housing 10 is exposed on an upper surface of the inner space portion 12 which is opened.

At this time, the burner housing 10 is further provided with a hollow tube 14 which is vertically communicated with the upper and lower surfaces of the burner housing 10 while being blocked from the space 12 at the center of the burner housing 10, 14 have the following arrangement supply pipes 40 therein.

The air-fuel supply pipe 20 is directly connected to the space portion 12 and includes a fuel-air mixture formed by mixing fuel and air through the air-fuel supply pipe 20 into the space portion 12 ).

3, the mixer may be configured to mix the fuel and the air in the mixing chamber 21 connected to the air-fuel supply pipe 20, As shown in FIG. 3, the mixing chamber 21 may include, for example, an air supply fan 22 and a vantity line.

Although not specifically shown, the supply air discharged from the air supply fan 22 may be configured to mix fuel and air while passing through a venturi pipe 23 provided with a fuel nozzle, To the space portion 12, which is an inner space of the burner housing 10. As shown in FIG.

The flame plate 30 is disposed and installed on the opened upper surface of the burner housing 10 so that the mixer provided from the air-fuel supply pipe 20 is connected to the burner housing 10 through the flame plate 30. [ As shown in Fig.

The flame plate 30 may be formed of various porous materials such as a metal fiber, a metal foam, a ceramic fiber, a ceramic plate, a ceramic foam, and a stainless steel plate. The mixer introduced into the inside through the supply pipe 20 is discharged through the porous holes and ignited, so that the flame can be formed on the entire surface of the flame plate 30.

A communication hole 31 having the same inner diameter as that of the hollow tube 14 is formed at the center of the flame plate 30 so as to be seated on the open upper surface of the burner housing 10 in which the hollow tube 14 is formed And can be fixed.

The arrangement supply pipe 40 is a means for supplying the exhaust gas discharged from an engine or the like to the flame plate 30. The arrangement supply pipe 40 is connected to the discharge port through the inside of the hollow pipe 14 42 are passed through the communication hole 31 and are exposed on the flame plate 30.

In this case, since the high temperature gas is discharged from the flame center formed in the flame plate 30, the thermal efficiency can be greatly improved. In the case of the steam generator using the general arrangement, In the case of the burner apparatus 1 according to the present invention, the water is preheated in a separate heat exchanger and then the preheated water is supplied to the steam generator. In contrast, in the case of the burner apparatus 1 according to the present invention, The combustion chamber 2 is heated together with the flame of the burner so that the structure can be simplified and the heat loss can be reduced compared with the conventional steam generator.

In the present invention, the flame formed on the flame plate 30 is formed into a relatively wide and short shape as shown in FIG. 7, and the flame is discharged through the center of the flame plate 30 And then the exhaust pipe passing through the heat exchanging tube is heated again to heat the exhaust pipe provided in the lower portion of the combustion chamber. This improves the thermal efficiency, and water exists around the burner and the flame, and the steam and hot water generator It is possible to greatly improve the durability.

Also, the temperature of the exhaust gas supplied to the array supply pipe 40 is not always constant, that is, the temperature is not constant depending on various factors such as the type of engine and the operation time. In the present invention, The proportional control and the operation of the burner unit 1 can be performed in generating the hot water, so that the energy saving effect can be realized.

In this case, although not shown, in the present invention, a sensor for measuring the temperature of the flue gas introduced through the array supply pipe 40 and a sensor for controlling the amount of the mixed gas supplied to the air-fuel supply pipe 20 based on the sensing value obtained from the sensor It will be appreciated that a control unit may be further configured.

As shown in FIG. 2, the high-temperature flue gas passes through the center of the space 12 to be mixed with the mixer, so that the mixer discharged to the flame plate 30 can be preheated, The thermal efficiency of the hot water generator can be improved.

The ignition unit 50 is disposed at an upper end of the burner housing 10 to ignite a mixer discharged through the flame plate 30. [

Hereinafter, the ignition part 50, which is an embodiment of the present invention, will be described in detail with reference to FIGS. 3 to 4. FIG.

As shown in FIG. 3, the ignition part 50 according to the first embodiment is formed at one or more of the upper edges of the burner housing 10, and at this time, And the ignition portion 50 can be installed adjacent to the upper surface of the flame plate 30 through the seating groove 51 as shown in FIG.

The ignition part 50 is ignited by the high voltage discharge of the ignition rod and the ignition terminal so that the mixer discharged through the flame plate 30 can be burned.

Here, the ignition unit 50 may include an ignition coil and an ignition terminal, which are not shown in detail, but generate a spark to ignite the mixer. The ignition unit 50 may be provided separately from the ignition rod and the ignition terminal, And a flame detection sensor for detecting the flame.

Meanwhile, the ignition part 50 according to the second embodiment is configured such that the space efficiency can be improved when the burner device 1 is installed because the compact design of the burner device 1 is possible. 4, the ignition plug 50 includes a shut-off pipe 32 installed upright inside the burner housing 10, an ignition pin 55 inserted into the shut-off pipe 32, and an ignition terminal 56 And the like.

At this time, the upper end of the shutoff tube 32 communicates with the outside of the upper surface of the flame plate 30, and the lower end thereof communicates with the outside of the lower end surface of the burner housing 10.

The upper end of the ignition pin 55 protrudes upward from the upper surface of the flame plate 30 through the shutoff tube 32 and the lower end of the ignition pin 55 extends outside the lower end surface of the burner housing 10, (Not shown).

A support base 53 for fixing and supporting the ignition bar 55 at the center of the shut-off pipe 32 is inserted into the upper portion and the lower portion of the inside of the shut-off pipe 32, And an ignition terminal 56 for high-voltage discharge is provided on one side of the outer peripheral surface of the upper end so as to be energized.

In this case, the ignition part 50 according to the present embodiment may further include a flame detection sensor. However, the flame detection sensor is not shown in detail, but its upper end is installed upright inside the burner housing 10 (Not shown) to be exposed to the outside of the upper surface of the flame plate 30 through another inner side of the shutoff tube 32 and the lower end to be connected to a control unit (not shown) to sense the flame through the lower end surface of the burner housing 10 .

That is, according to this embodiment, when the mixer supplied through the air-fuel supply pipe 20 flows into the space portion 12 of the burner housing 10 and is discharged through the flame plate 30, the igniter 50 And the ignition terminal 56. The flame sensor senses the ignited flame and sends a signal to the controller (not shown).

Since the ignition portion 50 is formed to pass through the burner housing 10 as described above so that the ignition portion 50 is provided at the edge of the burner housing 10, It is possible to secure the structural stability that prevents the ignition portion 50 from being deformed or broken by the spark plug 50 and the space efficiency can be greatly improved.

In the first embodiment and the second embodiment, the flame detection sensor is constructed in the ignition part 50, so that it is possible to safely operate the device to prevent a fire or an explosion accident.

In addition, various conventional techniques for detecting flames may be applied to the flame detection sensor shown in the above embodiments, and a specific embodiment thereof will be omitted.

Hereinafter, another embodiment of the flame plate 30, which is a constitution of the present invention for improving the thermal efficiency of the burner apparatus 1, will be described with reference to FIG.

The flame plate 30 'according to this embodiment is formed with an inclined surface as shown in the drawing. Preferably, the edge of the flame plate 30' which is lowered toward the central portion where the array supply port is formed, that is, The flame burned on the upper surface of the flame plate 30 'is collected toward the center of the flame plate 30', that is, the flame plate 30 ' The flames of the flame plate 30 'are supplied to the hot flue gas discharged to the upper side of the flame plate 30' from the arrangement discharge port 42 formed at the center of the flame plate 30 ' The thermal efficiency of the burner apparatus 1 for operating the steam and the hot water generator can be maximized.

That is, the discharged exhaust gas can be heated to a structure more adjacent to the flame, so that an energy efficiency improvement effect can be expected.

At this time, the inclination of the flame plate 30 'can be formed in the range of 0 ° to 45 ° as shown in FIG. 5, and when the inclination? Of the flame plate 30' is 45 ° or more, 1 may become too high and the space efficiency may be deteriorated and the durability of the flame plate 30 'may be deteriorated due to structural reasons.

Hereinafter, a steam and hot water generator using the burner apparatus 1 according to the present invention will be described with reference to FIGS. 6 to 7. FIG.

The steam and hot water generator according to the present invention can be selectively operated according to the temperature at which the water is heated through the burner apparatus 1, that is, when the temperature of the water is relatively high, Generator and can be operated as a hot water generator when the temperature of the water is relatively low and the hot water is discharged.

The steam and hot water generator using the burner apparatus 1 according to the present invention includes a burner apparatus 1 and a combustion chamber 2 as shown in FIG.

First, the burner apparatus 1 is the burner apparatus 1 described in the above embodiments, and a detailed description thereof will be omitted.

6 to 7, the burner apparatus 1 can be applied to the burner apparatus 1 as a heat source supply means.

The combustion chamber 2 may include a supply chamber 210, a discharge chamber 220, a combustion chamber 230, and a heat exchange tube 240, as shown in FIG. 7, in addition to the burner apparatus 1 do.

As shown in the drawing, the supply chamber 210 is shaped like a donut, which surrounds the burner apparatus 1, so that the diameter of the inner circumference thereof corresponds to the outer circumference diameter of the burner housing 10, And is structured so as to functionally receive and receive water in the supply chamber 210.

As shown in the drawing, the discharge chamber 220 is spaced vertically from the supply chamber 210 with the same diameter as the supply chamber 210, and a discharge port 222 through which steam or hot water is discharged is formed at one side.

The combustion chamber 230 includes a lower supply chamber 210 and an upper discharge chamber 220 in a cylindrical shape having a lower end portion sealing the supply chamber 210 and an upper end sealingly surrounding the discharge chamber 220, And the combustion chambers 230 on the side surfaces form an airtight sealing structure with respect to each other.

At this time, an exhaust port 232 through which exhaust gas is exhausted is formed in one side of the combustion chamber 230.

One end of the heat exchange tube 240 communicates with the supply chamber 210 and the other end thereof communicates with the discharge chamber 220 as shown in FIG. And a predetermined amount of water may be supplied from the supply chamber 210 and maintained at a predetermined level in the combustion chamber 2. The water supplied into the heat exchange tube 240 may be supplied to the combustion chamber 2 by the burner device 1, And then discharged through the discharge chamber 220 and the discharge port 222 in the steam or hot water state.

Preferably, the heat exchange tubes 240 can be arranged in a plurality of locations radially spaced apart from each other around the discharge port 42 along the donut-shaped supply chamber 210 inside the combustion chamber 2, The exhaust gas discharged to the inside of the combustion chamber 2 by the burner apparatus 1 is discharged from the lower center to the upper center of the combustion chamber 2 as shown in FIG. And then the elevated flue gas can heat the side of the heat exchange tubes 240 while passing through the spacing spaces (not shown) of the heat exchange tubes 240 radially arranged after hitting the lower surface of the discharge chamber 220 And then the exhaust gas flowing downward and outward in the combustion chamber 2 is heated to the outside via the exhaust port 232 formed at one side of the lower portion of the combustion chamber 2 while heating the radially arranged external heat exchange tubes 240 So that the discharged convection action can be induced.

By the convection action of the exhaust gas as described above, a complex heating action is applied to the heat exchange tubes 240 radially arranged around the array discharge port 42, thereby doubling the thermal efficiency. In addition, As the exhaust gas collides against the discharge chamber 220, it may be possible to further heat the steam or hot water introduced into the discharge chamber 220.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: Burner unit 2: Combustion chamber
10: burner housing 20: air-fuel supply pipe
30: flame plate 40: array supply pipe
50: ignition part 210: supply chamber
220: exhaust chamber 230: combustion chamber
240: Heat exchange tube

Claims (7)

And a hollow tube having a vertically communicating structure is formed at the center so as to be separated from the space portion.
An air-fuel supply pipe for supplying a mixer in which air and fuel are mixed to the space portion;
A flame plate formed on an opened upper surface of the burner housing and configured to discharge a mixer supplied from the air-fuel supply pipe, and a communicating hole having the same inner diameter as the hollow tube is formed at the center;
An array supply pipe disposed inside the hollow tube and configured such that an array discharge port at an end thereof is exposed on the flame plate through the communication hole to discharge the flue gas;
An igniter for igniting a mixer disposed adjacent to the flame plate at an upper end of the burner housing to be discharged;
Wherein the burner device comprises:
The method according to claim 1,
Wherein the ignition part is configured at least one on an upper edge of the burner housing.
The method according to claim 1,
Wherein at least one through hole is formed in the flame plate, the through hole being in communication with a shield tube formed to penetrate through the space portion to be blocked from the space portion,
And the ignition part is configured to be exposed to the upper side of the through hole through the shielding tube.
The method according to claim 1,
Wherein the flame plate is formed such that a gradient is formed so that a side of the flame plate is higher than a center portion of the array discharge port.
A burner apparatus according to any one of claims 1 to 4;
A combustion chamber in which the burner device is built in the lower portion and is supplied with a heat source from the burner device;
And the steam and hot water generator using the burner apparatus.
6. The method of claim 5,
In the combustion chamber,
A supply chamber in the form of a donut that receives and receives water and hermetically surrounds the burner apparatus;
A discharge chamber spaced above the supply chamber and defining a discharge port;
A combustion chamber in which a lower end portion of the supply chamber is closed and an upper end portion of the combustion chamber surrounds the discharge chamber in an airtight manner and an exhaust port is formed at one side;
One or more heat exchange tubes inside the combustion chamber, one end communicating with the supply chamber and the other end communicating with the discharge chamber;
And a steam generator connected to the steam generator.
The method according to claim 6,
And the exhaust port is formed on a lower side of the combustion chamber.

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