KR101713217B1 - Briquette boiler - Google Patents

Abstract

The present invention relates to a briquetting boiler, and more particularly, to a briquetting boiler comprising a furnace (10) and a first heating water tank (20) in which hot water is stored in the outer periphery of the furnace (10) A second heating water tank 40 provided at an upper end of the housing 30 which is above the furnace 10 and a second heating water tank 40 to which the cold water flows from outside the housing 30 to the inside of the housing 30, And a circulation channel portion which is supplied with hot water while passing through the second heating water tank 40 and the first heating water tank 20. The first heating water tank extends from the center of the outer side toward the central furnace A partition wall for partitioning the inner space of the first heating water tank is provided and the partition wall is extended from the center of one side of the second heating water tank to the opposite side of the other side of the first heating water tank and a gap is formed between the extension end and the other side of the partition wall .
According to the present invention, the first heating water tank is disposed on the outer periphery of the furnace, the second heating water tank is provided above the furnace, and water is circulated in the second heating water tank and the first heating water tank, The hot water can be sufficiently heated and exchanged while the cold water stays in the second heating water tank and the first heating water tank. As a result, the hot water generating capacity of the boiler is maximized, 1 heating water tank to obtain an effect that can be used.

Description

Briquet boiler {BRIQUETTE BOILER}

The present invention relates to a briquetting boiler, and more particularly, to a briquetting boiler provided with a first heating water tank on the outer circumference of an oven and a second heating water tank on the top of the first heating water tank above the oven, The present invention relates to a briquet boiler in which heat efficiency is maximized by efficient heat exchange while passing through a water tank and a first heating water tank.

Generally, a boiler refers to a device that warms water to generate hot water, which can be heated by the hot water or used as hot water itself.

These boilers can be generally divided into gas boilers, oil boilers, and briquet boilers, and these boilers are selectively used according to the respective conditions. The use of briquet boilers is increasing in consideration of the areas where gas and oil supply are not smooth, and the economic conditions.

Such a conventional briquetting boiler has a Korean Utility Model No. 20-0238369 filed in the Korean Registered Patent Literature, and the briquetting boiler disclosed in the patent documents of this prior art document is shown in FIG. Here, an oven 2 in which briquettes are burnt, and an inner pipe 2 surrounding the oven 2, the upper pipe connected to the water pipe passing through the water pipe and the lower pipe connected to the heating pipe installed at the floor, An outer case 4 surrounding the furnace 2 and the inner tube 3; an air conditioning unit 4 positioned at the lower end of the outer case 4 to adjust the supply amount of the outside air; A communication pipe 6 positioned at the upper end of the outer case 4 for discharging the briquetting gas generated by the combustion of the briquettes to the outside and a lid 7 covering the upper end of the furnace 2.

In such a conventional briquetting boiler, the heating water generated in the inner tube 3 surrounding the furnace 2 is heated by the heat of the high temperature generated by the combustion of the briquettes in the furnace 2 of the boiler, The heating water flows into the water supply tank through a straight wall connected to the boiler inner pipe (3) and one pipe at the lower end of the water supply pipe. The heating water flowing into the water supply pipe flows into the heating pipe The heating pipe is heated by heating the floor while flowing along the heating pipe.

The heating pipe and the inner pipe (3) of the boiler are connected to the inner pipe (3) of the boiler through a vertical pipe connected to the heating pipe and the inner pipe (3) of the boiler to heat the hot water, 3, and the water introduced into the inner tube 3 is again heated to a high temperature through heat transfer by the briquetting combustion of the above process.

However, in the prior art briquet boiler, since the inner pipe for heating and heating water is disposed in a state of being directly in contact with the outer peripheral surface of the heating chain furnace, and the hot water is supplied immediately after heating the water while being heated, It is impossible to expect the hot-water supply function at all, and since there is no separate water tank for storing the hot water, the hot water generated by the hot water should be used immediately, And the like.

KR 20-0238369 Y1 (Registered July 3, 2001)

A first heating water tank is provided on the outer circumference of the furnace, and a second heating water tank is provided on the upper side of the furnace so that the second heating water tank and the first heating water tank The hot water can be sufficiently heated and exchanged while the cold water stays in the second heating water tank and the first heating water tank, As a result, it is an object of the present invention to provide a briquet boiler for maximizing the hot water generating capability of a boiler and storing the generated hot water in a first heating water tank.

Further, according to the present invention, the second and first heating flow passages passing through the exhaust gas flow path of the circulating flow path portion are provided and circulated by connecting them to the second heating water tank and the first heating water tank through the second and first hoses, The present invention also provides a briquetting boiler which can heat exchange with waste heat of the briquetting boiler and thereby improve thermal efficiency.

Further, the present invention is characterized in that a partition wall is provided in the inner space of the second heating water tank and the first heating water tank so that water flowing into the second heating water tank or the first heating water tank immediately flows into the virtual water flow path, Another object of the present invention is to provide a briquet boiler which can secure sufficient time for heating water and improve heat exchange efficiency.

Further, the present invention is characterized in that the upper end of the first heating water tank is covered with the shielding cover from the upper inner surface of the furnace so that the flames and the heat generated by the combustion of the fuel in the furnace are prevented from leaking through the separation between the furnace and the first heating water tank So that the heating power of the fuel can be concentrated only in the second heating water tank in the upper room and the heat dissipated to the outside of the heating furnace can pass through the separation space between the heating water tank and the first heating water tank, The present invention provides a briquetting boiler for heating and heating a heated water tank.

According to the present invention, the lower end of the furnace is extended to the bottom surface of the housing, and the lower end of the first heating water tank is separated upward from the bottom surface of the housing. That is, The present invention provides a briquette boiler which can maximize heat efficiency by providing a first heating water tank in the first heating water tank.

Finally, according to the present invention, since the exhaust gas is formed in the central portion and the bottom portion of the housing in a double exhaust structure, the exhaust gas of high temperature is exhausted to the middle or inner bottom of the housing and then exhausted to the outside, The briquetting boiler is provided with a briquetting boiler.

According to an aspect of the present invention, there is provided a briquette boiler comprising: a furnace having an upper portion and a lower portion opened to have an inner space into which fuel is introduced; A first heating water tub of a polygonal column type having an inner space in which hot water is stored outside the furnace to surround the outer periphery of the furnace; A housing having an outer portion open to the outside of the first heating water tank and having an exhaust port communicating with the exhaust gas flow path on an outer side of the exhaust gas flow path, A second heating water tank disposed above the furnace and installed in an open portion at an upper end of the housing to be heated by fuel combustion in the furnace; And a circulation flow portion for heating the cold water introduced from the outside of the housing into hot water while passing through the second heating water tank and the first heating water tank, and then supplying the heated water to the outside.

Further, in the briquet boiler according to an embodiment of the present invention, the circulation flow path portion may include a water tank inflow path for guiding the external cold water to the second heating water tank, and a water tank inflow path for guiding the hot water heated in the second heating water tank to the first heating water tank And an external supply passage for supplying the hot water temporarily stored in the first heating water tank to the outside, wherein the second and the third water supply passages are provided from the lower portion to the upper portion of the housing so as to pass through the exhaust gas passage in the housing. A first heating passage, a first hose connecting the first heating passage and the water tank outflow passage, and a second hose connecting the second heating passage and the water tank inflow passage.

In the briquette boiler according to an embodiment of the present invention, the partition wall may extend from the center of one side of the second heating water tank to the other side of the opposite side thereof, the extension end of the partition may be spaced from the other side, The water tank inflow passage and the water tank exhaust passage are connected to both sides of the one side of the second heating water tank so that the water introduced from the water tank inflow passage is guided along the partition wall to the other clearance of the second heating water tank, .

In the briquette boiler according to an embodiment of the present invention, the first heating water tank is provided with a partition wall extending from the center of the outer side toward the central furnace to partition the inner space of the first heating water tank, The first heating channel is connected to the lower part of the other side of the outer surface of the outer surface of the water tank, and the external supply channel is connected to the upper surface of the other surface of the outer surface of the first surface, And is heated while flowing along the virtual passage and the U-turn at the bottom of the heating water tank.

Further, in the briquet boiler according to an embodiment of the present invention, in order to concentrate the flames and the heat generated as the fuel in the furnace is burned into the second heating water tank, between the outer peripheral surface of the furnace and the inner peripheral surface of the first heating water tank A shielding cover may be provided to cover the entire upper end of the first heating water tank including the spacing portion from the upper inner surface of the furnace.

In the briquette boiler according to an embodiment of the present invention, the shield cover is provided with a penetrating portion at the center for guiding the flame and the heat of the fuel upward only, and is inserted into the gap between the burner and the fuel on the inner side surface of the penetrating portion. It may be provided with an extending blocking plate.

The lower end of the first heating water tank is spaced upward from the bottom surface of the housing to be supported by the legs. And may be provided with a striking structure.

Further, in the briquette boiler according to an embodiment of the present invention, an exhaust port connected to the communication at the central portion and the bottom portion of the housing may be provided in a double exhaust structure so as to prevent condensation from being generated in the lower portion of the housing. have.

As described above, in the briquet boiler of the present invention, the first heating water tank is disposed on the outer periphery of the furnace, and the second heating water tank is provided above the furnace. In particular, the water in the second heating water tank and the first heating water tank, It is possible to obtain hot water by sufficiently performing heat exchange while the cold water stays in the second heating water tank and the first heating water tank, and as a result, the hot water generating ability of the boiler So that the generated hot water can be stored and used in the first heating water tank.

In addition, by providing second and first heating flow passages through the exhaust gas flow path of the circulating flow path portion and connecting them to the second heating water tank and the first heating water tank through the second and first hoses to circulate the waste heat It is possible to perform heat exchange with the heat exchanger and improve the thermal efficiency.

In addition, partition walls are provided in the internal spaces of the second heating water tank and the first heating water tank, so that water introduced into the second heating water tank or the first heating water tank is immediately transferred without heat and flows along the virtual channel inside the heating water tank. The time for heating the water can be sufficiently secured and the effect of improving the heat exchange efficiency can be obtained.

Further, by covering the entire upper end of the first heating water tank with the shielding cover from the inner surface of the upper end of the furnace, the flame and the heat generated when the fuel in the furnace is burned are prevented from leaking through the separation between the furnace and the first heating water tank, So that the heat of the fuel can be concentrated only in the second heating water tank of the upright room and the heat radiated to the outside of the fired oven can pass through the separation between the fired oven and the first heating water tank, The effect of being guided while heating is obtained.

In addition, the lower end of the furnace is extended to the bottom surface of the housing, and the lower end of the first heating water tank is separated upward from the bottom surface of the housing. In other words, By providing the heating water tank, the effect of maximizing the thermal efficiency can be obtained.

By forming the exhaust port in the central portion and the bottom portion of the housing in a double exhaust structure, the exhaust gas of high temperature is exhausted to the middle or inner bottom of the housing and then exhausted to the outside, thereby preventing condensation from being generated in the lower portion of the housing The effect can be obtained.

1 is a schematic view showing a conventional briquette boiler.
FIG. 2 is a perspective view of a briquette boiler according to an embodiment of the present invention in which the first heating water tank is opened. FIG.
3 is a perspective view schematically illustrating a briquet boiler according to an embodiment of the present invention.
4 is a longitudinal sectional view showing the briquette boiler of the present invention.
FIGS. 5 and 6 are views for explaining a circulation channel in which water is circulated in the briquette boiler according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the size, line thickness, and the like of the components shown in the drawings referred to in describing the present invention may be somewhat exaggerated for ease of understanding. It is to be understood that the terms used in the description of the present invention are defined in consideration of the functions of the present invention and may vary depending on the intention of the user, I will do it.

As shown in FIGS. 2 to 6, the briquet boiler according to an embodiment of the present invention includes an oven 10 into which fuel 11 is introduced, and a hot water tank 13 surrounding the outer periphery of the oven 10, A first heating water tank 20 having a polygonal columnar shape and having an internal space to be stored therein; a housing 30 disposed outside the first heating water tank 20; A heating water tank 40 and a circulation channel unit connected to the inside of the housing 30 and the second heating water tank 40 or the like.

As shown in FIG. 2, the furnace 10 has a cylindrical structure having an inner space into which briquettes as fuel 11 are injected and an inner flange at the lower end of the furnace 10 so that the outer periphery of the fuel 11 is caught.

A duct-shaped air conditioning unit 12 for controlling the supply amount of outside air is supplied to the inside of the furnace 10 at the lower end of the furnace 10 and extends to the outside of the housing 30 to close the lower end of the furnace 10 .

The supply amount can be adjusted by, for example, an opening portion 12a and a shut-off portion 12b so that the end portion of the air adjusting portion 12 is opened in a circular shape to close half of the open end of the circular portion, Since the opening 13a and the blocking film 13b are also provided in the lid 13 covering the end portion of the lid 13, the lid 13 can be rotated to adjust the amount of air sucked in accordance with the degree of opening due to the overlapping of the openings 12a, have.

That is, when the openings 12a and 13a mutually coincide with each other, the maximum opening value is obtained. When the cover 13 is rotated so that the shielding film 13b closes the opening 12a of the air conditioning part 12, The air intake amount can be adjusted by reducing or increasing the amount of air.

The first heating water tank 20 has a cylindrical inner wall surrounding the outer periphery of the furnace 10 and a square pillar-shaped closed container structure for storing hot water outside the inner wall. The first heating water tank 20 is provided in a square pillar shape, but it may be provided in a hexagonal to octagonal pillar shape.

The outer circumferential surface of the furnace 10 and the inner wall of the first heating water tank 20 are spaced apart from each other by a predetermined distance so that the heat of the furnace 10 is radiated to the first heating water tank 20 .

The spacing 15 is provided to prevent damage to the furnace 10 due to thermal expansion due to the temperature of the inner wall of the first heating water tank 20 while the heat of the furnace 10 is transferred to the first heating water tank 20 . It is preferable that the furnace 10 uses a ceramic material having excellent thermal energy retention capability.

The shielding cover 21 is hingedly connected to one side of the upper end of the first heating water tank 20 through a hinge so that only the flame or heat of the fuel 11 burned in the flue 10 is blown to the flue 10 And is concentrated to the second heating water tank 40.

The shielding cover 21 is provided with a circular penetration portion 21a at the center so that the flame of the fuel 11 is directed upward and the inner surface of the penetration portion 21a is provided with the fume 10 and the fuel 11 Shaped shielding plate 21b to be inserted between the clearances of the ring-shaped shielding plate 21b. The blocking plate 21b is provided to prevent heat energy such as heat generated as the fuel 11 is burned from leaking to the separation part 15 between the furnace 10 and the first heating water tank 20. [

The upper end portion of the first heating water tank 20 is formed to be slightly higher than the upper end portion of the furnace 10 so that the blocking plate 21b can be smoothly inserted into the gap between the furnace 10 and the fuel 11 desirable.

That is, since the upper end of the hearth 10 is positioned lower than the closed position of the shielding cover 21 where the hinge rotation is completed, the shielding plate 21b is positioned lower than the closed position of the shielding cover 21, The end portion of the blocking plate 21b can prevent the fuel 11 from being damaged or damaged by the blocking plate 21b such as cutting the fuel 11, .

Since the housing 30 is spaced apart from the outer surface of the first heating water tank 20 and spaced apart from the outer surface of the first heating water tank 20 so that the combustion gas generated in the fuel 11 is discharged to the outside between the first heating water tank 20 and the housing 30 And an exhaust port 32 communicating with the exhaust gas flow path 31 is provided at one side of the outer surface of the housing 30. The exhaust gas flow path 31,

The lower end of the furnace 10 extends to the inner bottom surface of the housing 30 and the lower end of the first heating water tank 20 is spaced upward from the bottom surface of the housing 30, .

Since the lower end of the furnace 10 has a structure having a low thermal efficiency in which the briquettes as the fuel 11 rises from the lower end thereof and is burned and cooled down, It is not preferable to extend the heating water tank 1 and is provided so as to concentrate heat transfer only to the high heat efficiency portion of the upper side except for the lower end portion of the furnace 10. [

A communication port 33 is formed on the outer side of the housing 30 to communicate with the exhaust port 32 to exhaust the exhaust gas to the outside of the housing 30. The exhaust port 32 communicates with the center 30 of the housing 30, The exhaust gas is exhausted to the outside from the middle to the inner bottom surface of the housing 30 and is exhausted to the outside. As a result, the exhaust gas is exhausted to the outside of the housing 30, Thereby preventing condensation from being generated in the lower portion of the condenser.

The second heating water tank 40 is disposed above the furnace 10 in a state of covering and covering the upper end of the housing 30 so that the fuel 11 in the furnace 10 is burned, It is a heated water tank structure.

5 and 6, the circulating flow path portion is heated by the cold water introduced from the outside of the housing 30 through the inside of the housing 30 and the second heating water tank 40 to become hot water, 1 heating water tank 20 to be temporarily stored in a heated state and then supplied to the outside.

This circulating flow path portion includes a water tank inflow passage 51 for guiding the external cold water to the second heating water tank 40 and a water tank inflow passage 51 for guiding the hot water heated in the second heating water tank 40 to the first heating water tank 20 A water tank exhaust flow path 52 and an external supply flow path 53 for supplying hot water temporarily heated and heated by the first heating water tank 20 to the outside.

The water tank inflow passage 51 and the water tank exhaust passage 52 are connected to the second and first heating portions 31a and 31b provided from the lower portion of the housing 30 to the upper portion of the housing 30 through the exhaust gas passage 31 inside the housing 30, The second heating passage 54 and the water tank inflow passage 54 are connected to each other through a second hose 55. The first heating passage 56 and the water tank outflow passage 52 are connected to each other through the first hose 57.

The second heating water tank 40 has a partition wall 42 extending from the center of the one side to the other side of the opposite side of the second heating water tank 40. The extending end of the partition wall 42 has a gap 41, The water tank inflow passage 51 and the water tank exhaust passage 52 are connected to both sides of one side of the heating water tank 40 so that the water introduced from the water tank inflow passage 51 flows into the second heating water tank 40 along the partition wall 41 and then is sufficiently heated while flowing to the water tank exhaust flow path 52. [

The hot water firstly heated by the second heating water tank 40 is supplied to the first heating water tank 20. The first heating water tank 20 has a central oven 10 at the center of the outer surface, And a partition wall 23 for partitioning the inner space of the first heating water tank 20 is provided at a lower portion of the other side of the corner of the outer side of the first heating water tank 20 and the water tank exhaust passage 52 of the second heating water tank 40, The first heating passage 56 is connected through the hose 57 and the external supply passage 53 is connected to the upper part of the other surface of the outer side of the one side so that the water introduced into the first heating water tank is discharged from the bottom of the first heating water tank It is heated sufficiently during the U-turn and rising.

The operation of the briquette boiler according to one embodiment of the present invention will be briefly described.

First, when the cold water is filled in the first heating water tank 20 and the second heating water tank 40 and the circulation pump (not shown) is operated, the cold water is continuously circulated along the circulation flow path. In this state, the burned fuel 11 is injected into the furnace 10 to be burned.

The flame and the heat generated while the fuel 11 in the furnace 10 is continuously burned directly heats the lower surface of the second heating water tank 40. As a result, the cold water in the second heating water tank 40 is heated And heated to become hot water.

At this time, the water flowing into the water tank inflow passage 51 of the second heating water tank 40 flows through the gap 41 behind the other side of the partition wall 42 and returns again along the partition wall 42 2 Heating is performed while flowing toward the water tank exhaust passage 52 of the heating water tank 40.

The hot water firstly heated in the second heating water tank 40 passes through the water tank exhaust passage 52 and the first hose 52 and the first heating passage 56 to the lower side of the front side of the first heating water tank 20 .

The hot water introduced into the lower part of the front side of the first heating water tank 20 flows backward through the partition 23 in the first heating water tank 20, The hot water is further heated by the heat of the radiant heat radiated from the radiator 10 and the heat of the combustion gas flowing along the exhaust gas flow path 31 outside the first heating water tank 20.

The hot water of the first heated water tank 20 thus heated is ultimately supplied to the outside through the external supply flow path 53 to be utilized as heating or hot water.

Since the heating pipe or the external cold water replenishing pipe is connected to the second heating channel 54 of the housing 30 in the circulating channel portion of the briquetting boiler in general, The hot water or cold water is supplied to the second heating water tank 40 through the heating pipe or the external cold water supplement pipe through the second hose 55. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It should be understood that all of the techniques that can be easily changed and used by those skilled in the art are included in the technical scope of the present invention.

10: Furnace 11: Fuel 12: Air conditioning unit
12a: opening part 12b: blocking film 13: cover
13a: opening portion 13b: shielding film 20: first heating water tank
21: shielding cover 21a: penetrating portion 21b: shielding plate
22: leg 23: bulkhead 30: housing
31: exhaust gas flow path 32: exhaust port 33:
40: second heating water tank 41: clearance 42: partition wall
51: Water tank inflow channel 52: Water tank exhaust channel 53: External supply channel
54: second heating passage 55: second hose 56: first heating passage
57: 1st hose

Claims (5)

A furnace in which the upper and lower sides are opened so as to have an inner space into which fuel is injected; A tubular first heating water tank having an inner space for storing hot water outside the furnace to surround the outer periphery of the furnace; A housing having an outer portion open to the outside of the first heating water tank and having an exhaust port communicating with the exhaust gas flow path on an outer side of the exhaust gas flow path, A second heating water tank disposed above the furnace and installed in an opening portion of the housing to be heated by fuel combustion in the furnace; And a circulation flow portion for allowing the cold water flowing from the outside of the housing to be heated by hot water while passing through the first heating water tank in the second heating water tank,
The first heating water tank is provided with a partition wall extending from the center of the outer side toward the central furnace to partition the inner space of the first heating water tank,
The second heating water tank has a partition wall extending from the center of the one side to the opposite side of the other side of the first heating water tank, a gap is formed between the extension end and the other side of the partition,
A gap is formed between the outer circumferential surface of the furnace and the inner circumferential surface of the first heating water tank so as to concentrate flames and heat generated as the fuel in the furnace is burnt by the second heating water tank, A shielding cover for covering the entire upper end of the first heating water tank is provided,
Wherein the shielding cover is provided with a circular penetrating portion at the center so that the flame of the fuel is directed upward, and a ring-shaped shielding plate is provided on the inner side surface of the penetrating portion so as to be inserted between the fumes and the gap of the fuel. The method according to claim 1,
The circulation flow portion includes a water tank inflow passage for guiding the external cold water to the second heating water tank, a water tank exhaust flow path for guiding warm water heated in the second heating water tank to the first heating water tank, and hot water stored temporarily in the first heating water tank A second heating passage and a second heating passage provided from the lower portion to the upper portion of the housing so as to pass through the exhaust gas passage in the housing; And a second hose connecting the second heating passage and the water tank inflow passage. delete The method according to claim 1,
Wherein the lower end of the furnace extends to the bottom surface of the housing and the lower end of the first heating water tank is spaced upward from the bottom surface of the housing and is supported by the legs. The method according to claim 1,
The briquette boiler according to any one of claims 1 to 3, wherein the exhaust port is connected to the central portion and the bottom portion of the housing at one side thereof to prevent condensation from being generated in the lower portion of the housing.

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