KR101386208B1 - Steam boiler - Google Patents

Abstract

The present invention relates to a steam boiler of a new structure which may minimize a volume and is suitable to use a pellet for a raw material. The steam boiler in accordance with the present invention includes a heating case (20) in a housing (10) in which water is stored so that the water is heated by heat generated while the pellet is combusted in the heating case (20). Therefore, the steam boiler in the present invention may be compact in comparison with an existing steam boiler in which a water storage tank (1) and a boiler main body (2) are individually formed. The air of a high temperature generated when the pellet is combusted in the heating case (20) repetitively heating the water while passing through the water stored in the housing (10). The present invention improves thermal efficiency and minimizes exhaust resistance generated when the air passes through first and second heating pipes (40,50).

Description

Steam boiler

The present invention relates to a steam boiler with a novel structure suitable for pellets as a raw material while minimizing volume.

In general, steam boilers used for heating or various other uses are widely used as products of various structures have been developed according to their capacity, as shown in a number of prior documents, including Patent No. 10-0613397.

However, a large-capacity steam boiler which generates a large amount of steam among these steam boilers is provided at one side of the storage tank 1 and water storage tank 1 in which water is stored therein, as shown in FIG. 1. It consists of a boiler body (2).

At this time, the boiler body (2) is provided with a circulation pipe (2a) is connected to the water storage tank (1) to circulate the water stored in the water storage tank (1), the inside of the boiler body (2) It is configured to heat the water passing through the circulation pipe (2a) using the heating means (2b) indirectly to heat the water stored in the water storage tank (1).

The heating means 2b uses an electric heater using electricity or a gas heater or oil heater using gas or oil.

However, such a steam boiler has a problem in that the water storage tank 1 and the boiler main body 2 are separately provided, thus taking up a lot of space.

In addition, in recent years, the use of boilers using pellets is increasing, the conventional steam boiler has a problem that is not suitable for using the pellets as fuel.

Therefore, there is a need for a new method to solve such a problem.

The present invention has been made to solve the above problems, and an object thereof is to provide a steam boiler having a novel structure suitable for pellets as a raw material while minimizing volume.

The present invention for achieving the above object is composed of a cylindrical shape having a space formed therein, the housing 10 is connected to the water supply pipe 11 and the drain pipe 12 on the circumferential surface, and extends in the front and rear direction the housing 10 The heating case 20 is coupled to penetrate the front and rear surfaces and the rear end portion is provided with a protrusion 27 protruding into the housing 10, and pellets provided as fuel inside the heating case 20. The combustion device 30 to allow the combustion, the plurality of first heating pipes 40 disposed at both ends to penetrate the front surface of the protrusion 27, and the front surface of the housing 10, and both ends of the housing 10. A plurality of second heating pipes (50) disposed to penetrate the front and rear surfaces, and front ends of the first and second heating pipes (40, 50) on the front surface of the housing (10). Before forming the front combustion chamber 61 interconnecting the first and second heating pipes (40, 50) An outer combustion chamber 60 and a rear combustion chamber connected to the rear end of the second heating pipe 50 are provided to cover the rear end of the second heating pipe 50 on the rear side of the housing 10. And a rear outer cover 70, which forms 71, and an exhaust pipe 80 extending from the rear outer cover 70, wherein water is stored in the housing 10, and the heating case 20. The hot air generated while the pellet is burned by the combustion device 30 in the interior of the first heating pipe 40 through the protrusion 27, and then through the front outer cover 60 2 is introduced into the heating pipe 50 and discharged to the outside through the rear outer cover 70 and the exhaust pipe 80 to heat the water stored in the housing 10 to generate steam. A steam boiler is provided.

According to another feature of the present invention, an air jacket 31a is formed inside the combustion device 30 and a plurality of semicircular recesses 31b extending forward and backward are connected to the upper surface and the air jacket 31a. An air supply housing 31 having an air supply hole 31c, an air supply means 32 connected to the air jacket 31a to supply air into the air jacket 31a, and a concave of the air supply housing 31; It is installed to extend in the front and rear direction in the groove (31b) comprises a conveying means 33 for conveying the pellets supplied to the concave groove (31b) to the rear, the conveying means 33 is a rotating shaft arranged to extend in the front and rear And a transfer member (33c) spirally extending along the circumference of the rotary shaft (33a) and whose outer surface is in close contact with the concave groove (31b).

According to another feature of the invention, the front side of the heating case 20 is provided with a supply pipe 22 for supplying a pellet of fuel to the upper portion of the air supply housing 31, the concave groove 31b and the transfer means (33) are each composed of a pair of left and right, the conveying means 33 on the left side is rotated counterclockwise and the conveying means 33 on the right side is rotated in the opposite direction in the clockwise direction of the air supply housing 31 Provided is a steam boiler characterized in that the pellets fed to the upper surface are collected in mutually adjacent directions.

According to another feature of the invention, the washing pipe further comprises a plurality of washing pipes 62 extending from the front outer cover 60 to the interior of the first and second heating pipes (40, 50), The high pressure air is supplied to the inside of the first and second heating pipes 40 and 50 through the 62 to remove foreign substances stuck to the inside of the first and second heating pipes 40 and 50. A steam boiler is provided.

According to another feature of the invention, further comprises a heat exchanger 81 provided in the middle of the exhaust pipe 80, and the air supply pipe 24 connected to the heating case 20, the air supply pipe 24 ) Is connected to the heat exchanger 81 and the high-temperature exhaust gas discharged through the exhaust pipe 80 and the air supplied through the air supply pipe 24 exchange each other to the inside of the heating case 20. Provided is a steam boiler characterized in that heated air is supplied.

Steam boiler according to the present invention is provided with a heating case 20 in the interior of the housing 10 in which water is stored therein, heating the water using heat generated by the combustion of the pellets inside the heating case 20 Thus, unlike the conventional steam boiler in which the water storage tank 1 and the boiler body 2 are separately configured, there is an advantage in that the size can be compactly configured.

In addition, a protrusion 27 is formed at one side of the heating case 20, and the first heating pipe 40 extending from the protrusion 27 to the front of the housing 10 and the front and rear of the housing 10. A second heating pipe 50 penetrating a surface and a front outer cover 60 and a rear outer cover 70 are provided on front and rear surfaces of the housing 10, respectively, and pellets are burned in the heating case 20. While the hot air generated while being repeatedly passed through the water stored in the housing 10 to heat the water, the first and second heating pipes (40, 50) can be configured in a straight form. In addition, the thermal efficiency is high, and there is an advantage of minimizing the exhaust resistance generated when air passes through the first and second heating pipes 40 and 50.

In particular, the front outer cover 60 and the rear outer cover 70 by the inner portion of the connecting portion of the first and second heating pipes (40, 50) and the rear end of the second heating pipe (50) is large Since the front combustion chamber 61 and the rear combustion chamber 71 are formed, ashes contained in the hot air passing through the first and second heating pipes 40 and 50 are transferred to the front combustion chamber 61 and the rear combustion chamber. There is an advantage that can be induced to be completely burned while staying in the interior of the chamber (71).

1 is a configuration diagram showing a conventional steam boiler,
2 is a front view showing a steam boiler according to the present invention;
3 is a side view showing a steam boiler according to the present invention;
4 is a front sectional view of a steam boiler according to the present invention;
5 is a side configuration view of a steam boiler according to the present invention;
6 and 7 are reference diagrams for explaining the operation of the steam boiler according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 to 7 illustrate a steam boiler according to the present invention, a housing 10 having a tubular shape having a space formed therein, a heating case 20 provided in the housing 10, and the heating case. Combustion device 30 provided in the interior of the 20, a plurality of first and second heating pipes (40, 50) arranged to extend forward and backward in the housing 10, and the front and rear of the housing (10) The front outer cover 60 and the rear outer cover 70 provided on the surface, respectively, and the exhaust pipe 80 extending from the rear outer cover 70.

In detail, the housing 10 is water is stored therein, the water supply pipe 11 is connected to the upper surface and the drain pipe 12 is connected to the lower surface, the cold water to the inside through the water supply pipe (11). The supply and heated water and steam are configured to be discharged to the outside through the drain pipe 12.

The heating case 20 is formed in a cylindrical shape extending in the front and rear, the combustion unit 21 is coupled to penetrate through the front and rear surfaces of the housing 10 is provided with the combustion device 30 inside the housing 10. To form, the front is provided with a supply pipe 22 for supplying the pellets of the fuel, and a burner 23 for igniting the pellets supplied through the supply pipe 22, the supply pipe 24 is connected A coupling hole 26 is formed to which the mechanism 25 and the transfer means 33 of the combustion device 30 are coupled.

In addition, a protruding portion 27 protruding into the housing 10 is formed at a rear end circumference of the heating case 20.

On the other hand, in the case of Figure 5, the protrusion 27 is shown to extend upward from the upper surface of the rear end of the heating case 20, which is the protrusion 27 and the first and second heating according to the present invention In order to effectively explain the arrangement and operation of the pipes 40 and 50, substantially, the protrusions 27 are configured to protrude laterally from both sides of the rear end of the heating case 20, as shown in FIG. do.

As shown in FIGS. 4 and 5, the combustion device 30 is connected to an air supply housing 31 having an air jacket 31a formed therein, and connected to the air jacket 31a to form an interior of the air jacket 31a. Air supply means 32 for supplying air to the air and a conveying means 33 installed at an upper portion of the air supply housing 31 for conveying the pellets introduced through the supply pipe 22 to the rear, the supply pipe 22 Allow the pellet fed through) to burn.

The air supply housing 31 is made of a metal material of high strength and is fixed to the inner lower side of the heating case 20. The concave groove 31b on which the transfer means 33 is seated is elongated in the front and rear direction. Is configured to extend, the upper surface is formed with a plurality of air supply holes (31c) connected to the air jacket (31a).

Preferably, as shown in FIG. 4, the air supply hole 31c is a plane between the concave groove 31b and the concave groove 31b and the concave groove 31b in the upper surface of the air supply housing 31. The portion 31d is formed to penetrate the upper and lower surfaces.

The air supply means 32 is composed of an air compressor connected to the air jacket 31a through a connecting pipe 32a. When the high pressure air is supplied into the air jacket 31a, the air jacket 31a is provided. The air supplied into the inside of the air is supplied to the upper portion of the air supply housing 31 through the air supply hole 31c.

The conveying means 33 is a rotating shaft 33a arranged to extend in the front and rear, and a conveying member 33c extending spirally along the circumference of the rotating shaft 33a and having an outer surface closely contacting the concave groove 31b. It is composed.

The rotating shaft 33a is disposed in parallel with the concave groove 31b so that the front and rear ends thereof are rotatably coupled to the front and rear ends of the heating case 20 and are rotated by a driving motor (not shown). A plurality of support bars 33b for supporting the member 33c are provided to extend in the radial direction.

The conveying member 33c is formed by bending a long circular pipe in a coil shape around the rotating shaft 33a, and is fixed to an outer end of the support bar 33b.

At this time, the concave groove 31b and the conveying means 33 are constituted by a left and right pair as shown in FIG. 4.

In addition, the conveying means 33 provided on the left side of the conveying means 33 has the conveying member 33c configured to have a right-side thread shape and rotates counterclockwise, and the conveying means 33 provided on the right side is The conveying member 33c is configured in the form of a left screw and rotates clockwise.

In addition, the supply pipe 22 is configured in a pair of left and right so that the pellets supplied through the supply pipe 22 is supplied to the upper portion of the concave groove 31b.

Therefore, when the conveying means 33 is rotated, the pellets supplied to the concave groove 31b through the supply pipe 22 are collected by the conveying member 33c to be pushed backward while being pushed back by the conveying means 33. do.

Both ends of the first heating pipe 40 are disposed to penetrate the front surface of the protruding portion 27 and the front surface of the housing 10.

The second heating pipe 50 is disposed above the first heating pipe 40 and is disposed such that both ends penetrate the front and rear surfaces of the housing 10.

The front outer cover 60 is formed in a box shape with a rear side open, and is provided to cover front ends of the first and second heating pipes 40 and 50 on the front surface of the housing 10. A front combustion chamber 61 is formed on the front surface 10 to interconnect the first and second heating pipes 40 and 50.

The rear outer cover 70 is formed in a box shape with an open front surface, and is provided to cover the rear end of the second heating pipe 50 on the rear side of the housing 10 so as to cover the rear side of the housing 10. The rear combustion chamber 71 is connected to the rear end of the second heating pipe 50.

In this case, the front outer cover 60 is provided with a plurality of washing pipes 62 extending into the first and second heating pipes 40 and 50.

The washing tube 62 is composed of a tube having a diameter smaller than that of the first and second heating pipes 40 and 50, and the same number as that of the first and second heating pipes 40 and 50. The circumferential surface is inserted into the respective first and second heating pipes 40 and 50 so as not to interfere with the inner circumferential surfaces of the first and second heating pipes 40 and 50.

Therefore, when the high pressure air is supplied to the washing tube 62 by using the auxiliary air supply means 63 connected to the washing tube 62, the air is strongly injected into the washing tube 62 and the first and Foreign matter stuck to the inside of the second heating pipe (40, 50) can be removed.

The exhaust pipe 80 extends from an upper surface of the rear outer cover 70, and a heat exchanger 81 is provided at an intermediate portion thereof, and an intermediate portion of the air supply pipe 24 is connected to the heat exchanger 81. .

Therefore, the cool air supplied through the air supply pipe 24 is heat-exchanged with the high-temperature exhaust gas discharged through the exhaust pipe 80 while passing through the heat exchanger 81, and the heated air is heated. It is supplied into the heating case 20 through the air supply pipe 24.

The operation of the steam boiler configured as described above is as follows.

First, when water is stored in the housing 10, the outer surface of the heating case 20 and the middle portion of the first and second heating pipes 40 and 50 are submerged in water.

Then, the air supply means 32 is operated and at the same time air is supplied to the inside of the heating case 20 through the air supply pipe 24, and through the supply pipe 22 to the upper portion of the air supply housing 31. After the pellet is supplied, the pellet may be ignited by the burner 23 so that the pellet may be burned. When the combustion device 30 is operated, the pellet is completely burned while being transported backward along the concave groove 31b.

In addition, the heating case 20 is heated by the hot air generated as the pellet is burned as described above, thereby primarily heating the water stored in the housing 10, and the heated air causes the protrusion 27 to be heated. After flowing into the first heating pipe 40 through and discharged to the front combustion chamber 61 of the front outer cover 60, the water in the housing 10 is heated second.

In addition, the air in the front combustion chamber 61 is discharged to the rear combustion chamber 71 through the second heating pipe 50, and then heats the water in the housing 10 three times, and then the exhaust pipe 80. It is discharged to the outside through.

In this way, the exhaust gas discharged through the exhaust pipe (80) passes through the heat exchanger (81) and heat exchanges with the air supplied through the air supply pipe (24) to heat the inside of the heating case (20). Ensure that is supplied.

Then, in the state in which the operation of the steam boiler is stopped by extinguishing the pellets supplied into the heating case 20, as shown in Figure 7, the first and second heating through the washing tube 62 By supplying high pressure air into the pipes 40 and 50, foreign matters attached to the insides of the first and second heating pipes 40 and 50 can be effectively removed.

The steam boiler configured as described above is provided with a heating case 20 in the housing 10 in which water is stored therein, thereby heating the water by using heat generated while the pellets are burned in the heating case 20. , Unlike the conventional steam boiler in which the water storage tank 1 and the boiler body 2 are separately configured, there is an advantage that the size can be compactly configured.

In addition, a protrusion 27 is formed at one side of the heating case 20, and the first heating pipe 40 extending from the protrusion 27 to the front of the housing 10 and the front and rear of the housing 10. A second heating pipe 50 penetrating the surface, and a front outer cover 60 and a rear outer cover 70 provided on the front and rear surfaces of the housing 10, respectively, pellets in the heating case 20 The hot air generated by the combustion can repeatedly heat the water while passing through the water stored in the housing 10, and at the same time, the first and second heating pipes 40 and 50 have a straight shape. In addition, the thermal efficiency is high, and there is an advantage of minimizing the exhaust resistance generated when air passes through the first and second heating pipes 40 and 50.

In particular, the front outer cover 60 and the rear outer cover 70 by the inner portion of the connecting portion of the first and second heating pipes (40, 50) and the rear end of the second heating pipe (50) is large Since the front combustion chamber 61 and the rear combustion chamber 71 are formed, ashes contained in the hot air passing through the first and second heating pipes 40 and 50 are transferred to the front combustion chamber 61 and the rear combustion chamber. There is an advantage that can be induced to be completely burned while staying in the interior of the chamber (71).

In addition, an air jacket 31a is formed inside the combustion device 30, and a semicircular concave groove 31b extending forward and backward is formed on an upper surface thereof, and a plurality of air supply holes connected to the air jacket 31a on an upper surface thereof. An air supply housing 31 having a 31c formed therein, an air supply means 32 connected to the air jacket 31a to supply air into the air jacket 31a, and a concave groove of the air supply housing 31; 31b) is provided to extend in the front-rear direction, and includes a conveying means 33 for conveying the pellets supplied to the concave groove 31b to the rear, wherein the conveying means 33 is disposed to extend forward and backward. ) And a conveying member 33c spirally extending along the circumference of the rotating shaft 33a and having an outer surface closely contacting the concave groove 31b, so that the air supplied to the air jacket 31a is supplied to the air jacket 31a. Air is supplied to the pellets supplied to the upper portion of the air supply housing 31 through the pores 31c. Narrow and, and the pellet can ensure effective combustion, in contrast to the conventional steam boiler to the electricity or gas or oil as the fuel, a suitable benefit-to-use the pellets as fuel.

And, the front of the heating case 20 is provided with a supply pipe 22 for supplying a pellet of fuel to the upper portion of the air supply housing 31, the concave groove 31b and the conveying means 33 are respectively left and right It consists of a pair, the conveying means 33 on the left is rotated counterclockwise and the conveying means 33 on the right is rotated in the opposite direction in the clockwise direction so that the pellets supplied to the upper surface of the air supply housing 31 are mutually By gathering in the adjacent direction, there is an advantage that the pellets supplied to the upper portion of the air supply housing 31 is not scattered to the circumference of the conveying means 33 so as to be efficiently transported to the rear and combusted.

In addition, a plurality of washing pipes 62 extending from the front outer cover 60 to the inside of the first and second heating pipes 40 and 50 are provided, and the first through the washing pipe 62. And by supplying a high pressure air into the second heating pipe (40, 50) there is an advantage that can easily remove the foreign matter stuck to the inside of the first and second heating pipe (40, 50).

That is, when the pellet is not completely burned in the heating case 20, the remaining ash is attached to the inner surface of the heating pipe while passing through the first and second heating pipes (40, 50) with air, The thermal conductivity of the first and second heating pipes 40 and 50 is lowered. At this time, foreign matter including ash attached to the inside of the first and second heating pipes 40 and 50 using the cleaning pipe 62. By removing the, the thermal conductivity of the first and second heating pipes 40 and 50 can be effectively prevented from being lowered.

In addition, a heat exchanger 81 is provided at an intermediate portion of the exhaust pipe 80, and the air supply pipe 24 is connected to the heat exchanger 81, and exhaust gas of high temperature is discharged through the exhaust pipe 80. And the air supplied through the air supply pipe 24 exchange heat with each other so that the heated air is supplied into the heating case 20, so that low-temperature outside air is supplied into the heating case 20 so that the heating case is supplied. There is an advantage that can be prevented that the internal temperature of (20) is lowered.

10. Housing 20. Heating Case
30. Combustion device 40. First heating tube
50. Second heating body 60. Front outer cover
70. Rear outer cover 80. Exhaust pipe

Claims (5)

A housing 10 having a tubular shape formed therein and having a water supply pipe 11 and a drain pipe 12 connected to a circumferential surface thereof;
It extends in the front-rear direction and is coupled to penetrate the front and rear surfaces of the housing 10, the rear end portion is formed with a protruding portion 27 protruding into the housing 10, the front supply pipe for supplying pellets as fuel A heating case 20 provided with 22;
A combustion device (30) provided inside the heating case (20) for burning the pellets;
A plurality of first heating pipes 40 disposed at both ends thereof to penetrate the front surface of the protrusion 27 and the front surface of the housing 10;
A plurality of second heating pipes 50 disposed at both ends thereof to penetrate the front and rear surfaces of the housing 10;
The front combustion chamber 61 is provided on the front surface of the housing 10 to cover the front end portions of the first and second heating pipes 40 and 50 to interconnect the first and second heating pipes 40 and 50. Front outer cover to form a (60);
The rear outer cover is provided on the rear side of the housing 10 to cover the rear end of the second heating pipe 50 to form a rear combustion chamber 71 connected to the rear end of the second heating pipe 50. 70;
An exhaust pipe (80) extending from the rear outer cover (70);
A plurality of cleaning tubes (62) installed in the front combustion chamber (61) of the front outer cover (60) to extend into the first and second heating pipes (40, 50);
A heat exchanger (81) provided at an intermediate portion of the exhaust pipe (80); And
An air supply pipe 24 connected to the heating case 20; ≪ / RTI >
The washing pipe 62 is a pipe having a diameter smaller than that of the first and second heating pipes 40 and 50, and the same number as that of the first and second heating pipes 40 and 50. The first and second heating pipes 40 and 50 are inserted into the first and second heating pipes 40 and 50 so as not to interfere with the inner circumferential surfaces of the first and second heating pipes 40 and 50. Supplying high-pressure air into the interior of the first and second heating pipes (40, 50) to remove the foreign matter stuck to the interior,
The combustion device 30 has an air jacket 31a formed therein, and an air supply having a semicircular recessed groove 31b extending forward and backward and a plurality of air supply holes 31c connected to the air jacket 31a. Forward and backward directions to the housing 31, the air supply means 32 is connected to the air jacket 31a to supply air into the air jacket 31a, and the concave groove 31b of the air supply housing 31. It is installed so as to extend to include a conveying means 33 for conveying the pellets supplied to the concave groove (31b) to the rear,
The conveying means 33 has a rotating shaft 33a arranged to extend forward and backward, and a conveying member 33c extending spirally along a circumference of the rotating shaft 33a and having an outer surface closely contacting the concave groove 31b. Including, the concave groove (31b) and the conveying means 33 is composed of a pair of left and right, respectively, the conveying means on the left is rotated counterclockwise, the conveying means on the right is rotated clockwise to the air supply housing The pellets supplied to the upper surface of the (31) are collected in mutually adjacent directions,
Water is stored in the housing 10, and hot air generated while the pellets are burned by the combustion device 30 in the heating case 20 is first heated through the protrusions 27. After flowing into the 40, the second heating pipe 50 is introduced through the front outer cover 60 and discharged to the outside through the rear outer cover 70 and the exhaust pipe 80. Is made to generate steam by heating the water stored inside)
The air supply pipe 24 is connected to the heat exchanger 81, the high-temperature exhaust gas discharged through the exhaust pipe 80 and the air supplied through the air supply pipe 24 heat exchange with each other, the heating case ( The heated air is supplied to the inside of the
The heating case 20 is provided with a burner 23 for igniting the pellets supplied through the supply pipe 22, of the air supply port 25 and the combustion device 30 to which the air supply pipe 24 is connected. The coupling hole 26 to which the transfer means 33 is coupled is formed,
Steam boiler characterized in that. delete delete delete delete

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