KR20110138737A - Boiler for livestock manure derived solid fuel - Google Patents

Abstract

PURPOSE: A manure solid fuel boiler is provided to facilitate the use and maintenance of a boiler by crushing the completely burnt manure solid fuel at a constant size and easily being discharged. CONSTITUTION: A manure solid fuel boiler comprises a main body(100), a water jacket(200), a combustion chamber(300) and a fuel crushing device(400). The water jacket is installed on the top of the combustion chamber in the inner side of the main body(110). The water jacket comprises a gas transfer pipe(210), a circulation unit(220) and an exhausting unit(230). The combustion gas is moved through the inside of a plurality of gas transfer pipes. The circulation unit is connected to each end of the gas transfer pipe. The circulation unit circulates the combustion gas. The exhausting unit discharges the completely heat-exchanged combustion gas. The combustion chamber comprises a fuel fixing projection(320), a burner and a blower(330). The fuel fixing projection is rotated with the rotation of the fuel crushing device and prevents the combustion efficiency reduction of the manure solid fuel. The fuel fixing projection is crossed each other at regular intervals. The fuel crushing device crushes and discharges the burnt manure solid fuel.

Description

Boiler for livestock manure derived solid fuel

The present invention relates to a boiler for condensed solid fuel. More specifically, the high temperature combustion gas generated by combustion of the axial solid fuel flows at a constant speed into the gas transfer pipe corresponding to the heat exchange pipe configured in the boiler, so that the heat exchange with the heating water of the water jacket can be effectively performed. The present invention relates to a condensed solid fuel boiler which is easy to use and manage a boiler by pulverizing and discharging the solid fuel that has been combusted.

In general, livestock manure discharged from livestock farms is a major cause of environmental pollution such as water quality or soil pollution.

In particular, research is being actively conducted to use constituents, which are only wastes, as fuels for boilers, and the development of boilers using such constituent fuels is steadily underway.

As described above, a boiler for axial fuel, which is driven using axial fuel, is disclosed in Korean Patent No. 888810 filed by the applicant of the present invention.

The conventional boiler for condensed fuel according to the prior art is a boiler for producing heating water and hot water by using condensate as a fuel. However, the condensed fuel used in the boiler is obtained by drying or fermenting livestock manure. As the fuel is usually used in the form of a small agglomerate fuel or powder in the form of non-uniform particle size, there is a problem that the efficiency of the boiler is very low.

In addition, the boiler according to the prior art has a problem that the maintenance cost of the boiler is not increased because the sludge generated by the combustion of the axial fuel is not easy.

That is, the boiler according to the prior art as a fuel in the form of small particles or powder in the form of a fuel, the combustion efficiency of the fuel is inevitably lowered, it is a factor that considerably restricts to improve the performance of the boiler, especially in the condensed fuel There is a problem that seriously polluted the surrounding area by the generated dust.

In order to solve this problem, the present invention is formed in a cylindrical shape, the diameter is 40 ~ 50mm, the length is formed 50 ~ 60mm high thermal efficiency, by driving the boiler through a light and hard solid solid fuel, the performance of the boiler Its purpose is to contribute greatly to improvement.

In addition, an object of the present invention is to provide a boiler for condensed solid fuel that pulverizes the condensed solid fuel to a predetermined size so that combustion of the condensed solid fuel which has been completed can be easily discharged.

In order to achieve the above object, the present invention includes an inner body which prevents the leakage of heating water or hot water and prevents the residue of the solid fuel, and an outer body that surrounds the inner body and is coated with an anti-corrosion paint. A main body having a fuel inlet for supplying axial solid fuel to one side thereof, the maintenance door being provided to be openable and closed for cleaning and maintenance of the gas transfer pipe; A circulation part configured to be built in the upper part of the main body and configured to provide heating water, and a plurality of gas delivery pipes in which combustion gas is moved, and connected to each end of the gas delivery pipes so that the combustion gas is circulated; A water jacket in which a discharge portion through which heat exchange is completed, is discharged and is separated by a partition wall; One side is combined with the combustion chamber and the other side is in communication with the circulation part, the combustion gas is moved and the heat exchange with the heating water is composed of the supply connection, and the upper side of the supply connection is composed of a discharge connection connected to each of the circulation and the discharge part The gas supply pipe is provided so that the supply pipe and the discharge pipe are arranged in the water jacket three by one to form a row of four columns; A shielding member coupled to the front end of the supply and discharge pipes configured at the uppermost side of the gas transfer pipe connected to the circulation part to maintain a constant moving speed of the combustion gas; The lower side of the water jacket is configured to combust axial solid fuel to supply the combustion gas to the gas delivery pipe, and the fuel fixing protrusions for preventing the combustion efficiency of the pulverized solid fuel from being deteriorated by the fuel crushing apparatus are spaced apart from each other at regular intervals. A plurality of combustion chambers having a burner and a blower installed at one side thereof; And a fuel pulverizer configured to be disposed at a lower portion of the combustion chamber to pulverize and discharge the pulverized solid fuel that has been combusted.

In addition, in the present invention, the fuel inlet is connected to the fuel supply device has a diameter of 40 ~ 50mm, the fuel separation means is formed with a plurality of holes formed so that only the axial solid fuel having a length of 50 ~ 60mm The axial solid fuel having a thicker diameter and a longer length than the axial solid fuel is recovered to the fuel supply device by a recovery system consisting of a transfer pipe and a transfer motor.

In addition, in the present invention, the combustion chamber is provided with a condensed solid fuel boiler, characterized in that the closed door provided with a projected window for confirming the combustion state of the axial solid fuel to be burned.

In addition, in the present invention, the fuel pulverizing apparatus is formed in the inner lower end of the combustion chamber is formed with a plurality of grinding projections for pulverizing the axial solid fuel is completed combustion, a lost stall formed dropping hole for dropping the pulverized solid fuel; A rotation motor and a speed reducer connected to a rotation shaft rotatably coupled to the rostol to rotate the rostol; A combustion material support member formed at a lower side of the rostol and having a discharge hole for discharging the combusted combustion material; A combustion material conveying member coupled to the rotating shaft to guide the combusted combustion material to the discharge hole; A discharge opening / closing plate coupled to the rotating shaft to open or close the discharge hole; And combustion material discharge means for discharging the combustion material discharged through the discharge hole.

In addition, in the present invention, the combustion material discharge means has a discharge motor installed under the combustion material support member, and a feed screw and a feed screw rotatably coupled to the discharge motor and built in accordance with the operation of the feed screw It provides a condensed solid fuel boiler comprising a combustion material discharge portion for discharging the combustion material to the outside of the boiler.

In addition, in the present invention, the inner body provides a boiler for axial solid fuel, characterized in that further comprises a blocking panel for blocking the high heat of the combustion chamber flows into the fuel mill.

According to the present invention, it is formed in a cylindrical shape, the axial solid fuel is formed of a diameter of 40 ~ 50mm, a length of 50 ~ 60mm high thermal efficiency, by driving the boiler through a light and hard solid solid fuel, The effect is to maximize performance.

In addition, the present invention is easy to use and maintenance of the boiler by pulverizing the pulverized solid fuel is completed and easily discharged to a predetermined size.

1 is a perspective view schematically showing a boiler for solid fuel, according to a preferred embodiment of the present invention;
Figure 2 is a front view schematically showing a boiler for condensed solid fuel according to a preferred embodiment of the present invention,
Figure 3 is a longitudinal sectional view schematically showing a boiler for the solid fuel in accordance with a preferred embodiment of the present invention,
4 is a cross-sectional view taken along line AA 'schematically showing a boiler for solid fuels according to a preferred embodiment of the present invention;
5 and 6 is a view showing a fuel crusher schematically showing a boiler for solid fuel, according to a preferred embodiment of the present invention,
7 is a perspective view schematically showing a shielding member of the axial solid fuel boiler according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components, even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view schematically showing a boiler for condensed solid fuel according to a preferred embodiment of the present invention, Figure 2 is a front view schematically showing a boiler for condensed solid fuel according to a preferred embodiment of the present invention, Figure 3 A longitudinal sectional view schematically showing a boiler for condensed solid fuel according to a preferred embodiment of the present invention, Figure 4 is a cross-sectional view taken along line AA 'schematically showing a boiler for condensed solid fuel according to a preferred embodiment of the present invention, Figures 5 and 6 FIG. 7 is a view illustrating a fuel crushing apparatus schematically showing a solid fuel boiler according to a preferred embodiment of the present invention. FIG. 7 is a perspective view schematically showing a shielding member of the solid fuel boiler according to a preferred embodiment of the present invention.

As shown, the boiler of the present invention is a water jacket 200, the water jacket is configured in the body 100, the body 100 is composed of a rectangular parallelepiped housing, a plurality of gas transfer pipe 210 is provided And a combustion chamber 300 that provides a combustion gas combusting the solid fuel, and a fuel crusher 400 for pulverizing the solid fuel that has been combusted to a predetermined size.

The main body 100 has a water jacket 200 built in the upper portion, the combustion chamber 300 is built in one side thereof is installed to be located in the lower portion of the water jacket 200, and prevents the outflow of heating water or hot water. At the same time, the inner body 110 and the inner body 110 to prevent the residue of the axial solid fuel from leaking from the combustion chamber 300, and the anti-corrosion paint to prevent the corrosion of the boiler is exposed to the outside It is configured to include an outer body 120 is applied.

Here, the inner body 110 is blocked between the water jacket 200, the combustion chamber 300 and the fuel crusher 400 to prevent the heating water or hot water to flow into the fuel crusher 400, the combustion chamber 300 Blocking panel 140 is configured to block the high heat of the inlet to the fuel crusher 400 to prevent damage and breakage of the fuel crusher 400.

The main body 100 has a repair door 130 is installed in the front for cleaning and maintenance of the gas transport pipe 210, the repair door 130 is the discharge pipe 214 of the gas transport pipe (210) The first maintenance door 134 to manage the, and the second maintenance door 132 to manage the supply connection 212 is configured, the maintenance door 130 is the inner body 110 of the main body 100 completely. It is provided to be sealed but is coupled to open and close to the outer body (120).

In addition, the upper portion of the main body 100 is configured with a gas discharge port 102 through which the combustion gas circulated from the water jacket 200 is discharged through the gas transfer pipe 210, and is connected to the combustion chamber 300 at an external side. In addition, the fuel inlet 104 is connected to the fuel supply device 108 to which the solid fuel is fed.

Here, the fuel inlet 104 is preferably provided with a fuel separation means 106 so that the axial solid fuel has a diameter of 40 ~ 50mm, only those that are formed in a cylindrical shape of about 50 ~ 60mm in length.

That is, by combining the fuel separation means 106 formed with a plurality of holes through which the above-described solid fuel is allowed to pass through the inner circumferential surface of the fuel inlet 104 connected to the fuel supply device 108, thereby maximizing the performance of the boiler. Use only solid fuel that is large enough to allow for this.

At this time, the axial solid fuel that does not pass through the fuel separating means 106 is to be recovered by a recovery system consisting of a transfer pipe, a transfer motor, and the like connected to the fuel supply device 108.

The water jacket 200 is located at the upper portion of the combustion chamber 300 in the inner body 110, and a plurality of gas transfer pipes 210 communicating with the combustion chamber 300 are installed inside the gas jacket 210. The circulation unit 220 for circulating the combustion gas supplied in communication with the discharge, and the discharge unit 230 in communication with the gas outlet 102 for discharging the combustion gas is completed.

Here, the circulation unit 220 and the discharge unit 230 is separated by a partition wall to prevent the heating water and hot water configured in the water jacket 200 to flow out.

Here, the gas transfer pipe 210 is a metal pipe having excellent thermal conductivity, and is a heat exchange pipe that communicates with the combustion chamber 300 and the combustion gas provided by the combustion chamber 300 moves and heat exchange with the heating water occurs.

The gas transfer pipe 210 is composed of a supply pipe 212, one side is coupled to the combustion chamber 300, the other side is in communication with the circulation portion 220, and the upper side of the supply pipe 212, the circulation portion ( And a discharge connection 214 communicating with a discharge part 230 configured to be spaced apart by a predetermined distance from the position opposite to and opposite to the combustion chamber 300.

The gas transfer pipe 210 is configured to form one row of three supply pipes 212 and the discharge pipes 214 in the horizontal direction, respectively. In the present invention, a total of four rows are formed in the water jacket 200. To be installed. However, the present invention is not limited thereto, and may be installed in various ways according to the capacity or shape of the boiler.

The gas transfer pipe 210 is provided with a shielding member 240 to extend the residence time of the combustion gas to have the maximum thermal efficiency.

The shielding member 240 is installed in the gas delivery pipe 210 configured at the uppermost side of the gas delivery pipe 210, that is, the water jacket 200, and the supply connection 212 and the discharge connection pipe whose position is located at the uppermost side ( 214) respectively.

The shielding member 240 is installed at the other end of the supply connection 212 connected to the circulation unit 220 and one end of the discharge connection 214 connected to the discharge unit 230, respectively, and thus the residence time of the combustion gas. Will be able to extend.

This is because, when the combustion gas generated as the axial solid fuel is combusted in the combustion chamber 300 moves to the gas outlet 102 through the supply pipe 212 and the discharge pipe 214, respectively, The moving speed of the combustion gas moving through the discharge connection pipe 214 is faster than the moving speed of the combustion gas moving through the gas transfer pipe 200 configured at the lower side, so that the high temperature combustion gas flows through the water jacket 200. It is to prevent the discharge without sufficient heat exchange with the heating water configured in the).

The shielding member 240 is bent and extended to each of the front end of the supply pipe 212 and the discharge pipe 214 is formed extending to the center side, the shielding end 242 is composed of a fixing bolt formed with a thread to the outside And a control plate 244 which is fastened to the fixing bolt formed at the shielding end 242 to control the discharge of the combustion gas.

That is, the shielding member 240 reduces the diameters of the front end portions of the supply pipe 212 and the discharge pipe 214 so that the amount of combustion gas discharged from the gas transfer pipe 212 to the circulation part 220 and the discharge part 230. By reducing the heat exchange rate, the heating water and the combustion gas are generated as much as possible.

The water jacket 200 is provided with a heating water inlet 250 and a heating water outlet 260 for connecting the heating water pipe and the hot water pipe, and a hot water inlet 270 and a hot water outlet (not shown).

Combustion chamber 300 is composed of a refractory material to prevent the heat of combustion to flow to the outside to maximize the thermal efficiency.

In the combustion chamber 300, a sealed door 310 having a transparent window is coupled to the outside of the main body 100 so that the inside thereof is completely sealed and at the same time, the combustion state of the solid fuel combusted may be checked.

In addition, the fuel fixing protrusion 320 protrudes from the inner wall surface of the combustion chamber 300 to prevent deterioration of the combustion efficiency while rotating the solid fuel that is being burned in accordance with the rotation of the fuel crusher 400 to be described later. The fuel fixing protrusion 320 is formed to be spaced apart from each other by a predetermined interval, but is formed in plural in a cross shape with each other.

In addition, a burner and a blower 330 are installed at one lower side of the combustion chamber 300, and the burner and the blower 330 ignite the solid fuel introduced into the combustion chamber 300, and after the ignition, the air is blown into the combustion chamber 300. It serves to burn solid fuel.

The fuel crusher 400 is configured at a lower end of the combustion chamber 300 to rotatably install a solid fuel so as to burn the solid fuel, and the pulverized solid fuel is pulverized and dropped to a predetermined position. It is connected to the material drop means 420, the combustion material discharge means 430 and the lower portion of the combustion chamber 300 connected to the combustion material drop means 420 to discharge the falling combustion material, burner and blower 330 on one side It is configured to include a case 440 is installed and the fuel crusher 400 is installed.

The rostol 410 is formed in the form of a long hole along the circumferential direction of the rostol 410 for dropping the combustion material downward, a plurality of drop holes 412 are formed to be spaced apart from each other, the rotating motor 424 It is coupled to the rotary shaft 426a of the reducer 426 connected to the) is provided to be rotatable in accordance with the driving of the rotary motor 424.

The combustion material dropping means 420 includes a plurality of grinding protrusions 422 fixed to the rostol 410, a rotation motor 424 and a reduction gear 426 for rotating the rostol 410, and the rostol 410. The combustion material support member 520 and the combustion material falling to the combustion material support member 520 and the combustion material support member 520 is formed in the lower portion of the lower portion and the discharge hole 428 to discharge the pulverized combustion material downward through the discharge hole 428 It consists of a discharge opening and closing plate 540 for opening and closing the combustion material transfer member 530 and the discharge hole 428 to discharge downward.

Here, the grinding protrusion 422 is formed to protrude on the upper side of the rostol 410 and is formed to a plurality of spaced apart at regular intervals along the circumferential direction for pulverizing the axial solid fuel of the lower combustion.

The combustion material conveying member 530 and the discharge opening and closing plate 540 are fixed to the rotation shaft 426a of the reduction gear 426 and rotate together with the rotation shaft 426a, and the combustion material conveying member 530 is a combustion material support member ( It is located on the upper portion of the 520 and its bottom is located close to the upper surface of the combustion support member 520.

In addition, the discharge opening and closing plate 540 is located at the lower portion of the combustion support member 520, the discharge formed in the combustion support member 520 while rotating with the combustion material transport member 530 when the rotating shaft 426a is rotated Opening or closing the hole 428 to allow the combustion material dropped into the combustion material support member 520 to fall to a predetermined position below the discharge hole 428.

The combustion material discharge means 430 is configured to include a discharge motor 432 installed below the combustion material support member 520, and a spring-shaped feed screw 434 fixed to the shaft of the discharge motor 432. .

When the combustion material discharge means 430 drives the discharge motor 432, the combustion screw 434 rotates and the combustion material dropped downward through the discharge hole 428 of the combustion material support member 520 is transferred to the delivery screw. It is discharged to the outside through the combustion material discharge portion 436 while moving in accordance with the rotation of (434).

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: main body 102: gas outlet
104: fuel inlet 110: inner body
120: outer body 130: maintenance door
140: blocking panel 200: water jacket
210: gas delivery pipe 220: circulation
230: discharge portion 240: shielding member
300: combustion chamber 310: airtight door
320: filter fixing projection 400: fuel grinder
410: rostol 420: combustion material dropping means
430: combustion material discharge means 440: case
520: combustion material support member 530: combustion material conveying member
540: discharge opening and closing plate

Claims (6)

Inner body which prevents leakage of heating water or hot water and prevents residues of solid fuel from leaking, and an outer body that wraps the inner body and is coated with anti-corrosion paint. The main body is provided with a maintenance door so as to be openable for opening and closing, and a fuel inlet for supplying solid fuel to one side thereof;
A circulation part configured to be built in the upper part of the main body and configured to provide heating water, and a plurality of gas delivery pipes in which combustion gas is moved, and connected to each end of the gas delivery pipes so that the combustion gas is circulated; A water jacket in which a discharge portion through which heat exchange is completed, is discharged and is separated by a partition wall;
One side is combined with the combustion chamber and the other side is in communication with the circulation part, the combustion gas is moved and the heat exchange with the heating water is composed of the supply connection, and the upper side of the supply connection is composed of a discharge connection connected to each of the circulation and the discharge part The gas supply pipe is provided so that the supply pipe and the discharge pipe are arranged in the water jacket three by one to form a row of four columns;
A shielding member coupled to the front end of the supply and discharge pipes configured at the uppermost side of the gas transfer pipe connected to the circulation part to maintain a constant moving speed of the combustion gas;
The lower side of the water jacket is configured to combust axial solid fuel to supply the combustion gas to the gas delivery pipe, and the fuel fixing protrusions for preventing the combustion efficiency of the pulverized solid fuel from being deteriorated by the fuel crushing apparatus are spaced apart from each other at regular intervals. A plurality of combustion chambers having a burner and a blower installed at one side thereof; And
Fuel pulverizer which is composed in the lower part of the combustion chamber and pulverizes and discharges
Boiler for solid fuel, characterized in that it comprises a.
The method of claim 1,
The fuel inlet is connected to the fuel supply device has a diameter of 40 ~ 50mm, the fuel separation means having a plurality of holes formed so that only the axial solid fuel having a length of 50 ~ 60mm is configured, than the solid fuel The axial solid fuel having a long diameter and long length is recovered to the fuel supply device by a recovery system consisting of a transfer pipe and a transfer motor.
The method of claim 1,
The combustion chamber is a condensed solid fuel boiler, characterized in that the closed door provided with a projected window for confirming the combustion state of the axial solid fuel to be burned.
The method of claim 1,
The fuel grinder is
Rostol is formed in the inner lower end of the combustion chamber is formed with a plurality of grinding projections for pulverizing the axial solid fuel combustion is complete, the dropping hole formed to drop the pulverized solid fuel;
A rotation motor and a speed reducer connected to a rotation shaft rotatably coupled to the rostol to rotate the rostol;
A combustion material support member formed at a lower side of the rostol and having a discharge hole for discharging the combusted combustion material;
A combustion material conveying member coupled to the rotating shaft to guide the combusted combustion material to the discharge hole;
A discharge opening / closing plate coupled to the rotating shaft to open or close the discharge hole; And
Combustion material discharge means for discharging the combustion material discharged through the discharge hole
Boiler for solid fuel, characterized in that it comprises a.
The method of claim 4, wherein
The combustion material discharge means has a discharge motor installed below the combustion material support member, a feed screw and a feed screw rotatably coupled to the discharge motor, and discharge the combustion material to the outside of the boiler according to the operation of the feed screw. Boiler for solid fuel, characterized in that it comprises a combustion material discharge.
The method of claim 1,
The inner main body is a condensed solid fuel boiler, characterized in that further comprises a blocking panel to block the high heat of the combustion chamber flows into the fuel crusher.

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