KR19980033627A - Coal boiler - Google Patents

Abstract

The present invention discloses a coal boiler.

The present invention includes a boiler body having a firebox located at a lower surface of a center side, and having a fuel tank for supplying fuel to the stall at one side thereof; A combustion duct positioned in the boiler body to form a water chamber therebetween, the combustion duct having a first rising path, a downward path, and a second rising path sequentially formed on the basis of the fire chamber; A plurality of water tanks arranged on the first and second ascending paths of the combustion duct at predetermined intervals, the plurality of water tanks being elongated in the front and rear directions so as to communicate with the chamber; It is installed adjacent to the firebox of the boiler body is a blower for forcibly blowing air into the firebox; including, it is possible to increase the heat exchange area through a plurality of canisters installed on the ascending path on the combustion duct.

Therefore, it is possible to obtain a high thermal efficiency, there is an advantage that can improve the reliability when using for commercial use, such as not only a house but also a plastic house.

Description

Coal boiler

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a boiler, and more particularly, to a coal boiler using granular coal (the size of which is about 5-10 mm) as a fuel.

In general, boilers are classified into oil boilers, briquette boilers, gas boilers, and coal boilers according to the fuel used. Among them, boilers having a low thermal power and excellent thermal power are coal boilers.

Such conventionally designed coal boilers have various contradictions in structure, and their use is not activated at present.

For example, the separation of the coal supplied from the fuel tank and the coal burning in the rostol may not be performed smoothly, resulting in a backfire phenomenon. As a result of the inflow, it is the situation that the generation of dust, such as the corrosion of the machine, dust, and the like caused by moisture gas.

In order to solve this problem, a coal boiler as disclosed in Patent Publication No. 93-8819 has been proposed.

That is, as shown in Figs. 1 and 2, the coal briquettes falling from the fuel container 1 are fuel boilers in the coal boiler provided with a flat lost stall 4 in which a coaling action is performed by using a feed piston. (1) A coal feeding device is provided in the coal dropping portion 1a at the lower end to provide a shielding plate 3 that blocks the dropping operation of the particle coal during the coal feeding operation of the coal feeding piston 2 separately from the coal feeding piston 2, The crankshaft crusher 7 and the coal ash to the outlet 13 are rotated by a separate power source 5 at the rear end of the rostol 4 to crush the crank agglomerates discharged from the rostol 4. It is comprised with the reprocessing apparatus which installed the screw apparatus 6 to convey.

Coal boilers having such a configuration have the advantage of solving the backfire phenomenon by stably intercepting the coal briquettes with the burning coal briquettes and minimizing the volume by automatically reprocessing. On the other hand, there is a problem in that the thermal efficiency, which is a characteristic of the coal boiler itself, cannot be greatly improved.

This problem is because heat exchange is performed only through the water chamber 25, as shown in FIG.

Therefore, large thermal efficiency, which is the biggest characteristic of coal boiler, could not be obtained.

The present invention has been made to solve such a conventional problem, and an object thereof is to provide a coal boiler which can obtain a large thermal efficiency by increasing the heat exchange area.

In order to achieve the above object, a coal boiler according to the present invention includes a boiler body in which a fire chamber in which a rostol is located is formed on a lower surface of a central side thereof, and a fuel tank in which fuel is supplied to the rostol on one side thereof; A combustion duct positioned in the boiler body to form a water chamber therebetween, the combustion duct having a first rising path, a downward path, and a second rising path sequentially formed based on the fire chamber; A plurality of water tanks arranged on the first and second ascending paths of the combustion duct at predetermined intervals, respectively, and installed to extend in the front and rear directions so as to communicate with the water chambers; And a blower installed adjacent to the firebox of the boiler body to forcely blow air into the firebox.

One preferred feature of the present invention is that a guide plate for guiding the air upward in the vertical direction is further provided on the other side of the firebox facing the blower.

Another preferable feature of the present invention is that the water tanks arranged on the first ascending path are arranged relatively more than the water tanks on the second ascending path.

1 and 2 are a sectional view of the general coal boiler and a perspective view of the main parts.

3 is a sectional view of a coal boiler according to the present invention;

Explanation of symbols on the main parts of the drawings

1: fuel container 4: rostol

4a: firebox 6: screw device

7: cranking apparatus 25: water chamber

100: boiler body 200: combustion duct

210,230: first and second ascending path

220: downward path 300: (plural) water bottle

400: blower 410: guide plate

Such a characteristic configuration and the resulting effects of the present invention will be described in detail with reference to the accompanying drawings.

3 is a sectional view of a coal boiler according to the present invention. 1 and 2, the same components are denoted by the same reference numerals.

As shown therein, the coal boiler according to the present invention is roughly classified into a boiler body 100, a combustion duct 200, a plurality of water tanks 300, and a blower 400.

On one side of the boiler body 100, a firebox 4a in which a rostol 4 is located is formed, and in particular, a fuel tank for supplying fuel to the rostol 4 of the firebox 4a. (1) is located.

The combustion duct 200 is located on the inner surface of the boiler body 100, and is a portion from which the combustion gas combusted in the rostol 4 on the fire chamber 4a is discharged, and also between the boiler body 100 and the boiler body 100. A space 25 having a predetermined width is formed, that is, a water chamber 25 for heat exchange.

In addition, when the combustion duct 200 is formed, the first ascending path 210 extending substantially vertically and a downward path extending downward in a substantially inclined state from an upper end of the first rising path 210 ( 220 and, again, a second upward path 230 extending substantially vertically.

On the other hand, the plurality of water tanks 300 are installed on the first and second ascending paths 210 and 230 of the combustion duct 200 are arranged in a plurality at predetermined intervals, in particular both ends are in communication with the water chamber 25, have.

In this case, since the temperature on the first rising path 210 is relatively higher than the temperature on the second rising path 230, more water bottles 300 are placed on the first rising path 210 for more effective heat exchange. It would be desirable to arrange them in an array.

The blower 400 is located on one side lower surface of the boiler body 100, and is a portion for forcibly injecting air into the fire chamber 4a to more effectively burn fuel on the upper surface of the rostol 4.

At this time, it is preferable to provide the guide plate 410 on one side surface of the fire chamber 4a, that is, on the part facing the site where the blower 400 is installed in the substantially vertical direction.

This is to improve the combustion efficiency by guiding the air forcedly introduced from the blower 400 upward, that is, to the portion of the rostol 4.

On the other hand, in the present invention, the structure of supplying and blocking fuel and pulverizing the burned fuel takes the same structure as the structure shown in Figs.

In the coal boiler according to the present invention having such a configuration, the fuel on the rostol 4 is forcibly blown through the blower 400, and in particular, is burned very efficiently through the air raised by the guide plate 410. Lose.

The high-temperature heat in the combustion state is discharged to the outside through the first ascending path 210, the downward path 220, and the second upward path 230 of the combustion duct 200, in particular, the combustion duct ( As the shape of the 200 is raised and lowered repeatedly, efficient heat exchange with water on the water chamber 25 is performed.

In this case, since a plurality of water tanks 300 communicating with the water chamber 25 are formed on the first and second ascending paths 210 and 230, a wider heat exchange area can be obtained than in the related art, thereby achieving a synergistic effect of thermal efficiency. In particular, since the canisters 300 are arranged on the first rising path 210 which is relatively high temperature in a predetermined interval, the synergistic effect of the thermal efficiency can be obtained through this.

On the other hand, the above-described embodiment is merely to describe one preferred embodiment of the present invention, the scope of the present invention is not limited to this, and can be changed as appropriate within the scope of the same idea.

For example, the shape and structure of each component shown in the embodiment of the present invention can be modified.

As described above, according to the coal boiler according to the present invention, it is possible to widen the heat exchange area through a plurality of water tanks arranged on an ascending path on the combustion duct.

Therefore, it is possible to obtain a high thermal efficiency, there is an advantage that can improve the reliability when using for commercial use, such as not only a house but also a plastic house.

Claims (3)

A boiler body in which a stochol is located on a lower surface of the center side, and a boiler body in which a fuel tank for supplying fuel to the rostol is located; A combustion duct positioned in the boiler body to form a water chamber therebetween, the combustion duct having a first rising path, a downward path, and a second rising path sequentially formed based on the fire chamber; A plurality of water tanks arranged on the first and second ascending paths of the combustion duct at predetermined intervals, respectively, and installed to extend in the front and rear directions so as to communicate with the water chambers; And a blower installed adjacent to the firebox of the boiler body and forcibly blowing air into the firebox. The coal boiler according to claim 1, wherein a guide plate for guiding air upward in the vertical direction is further provided on the other side of the fire chamber facing the blower. The coal boiler according to claim 1, wherein the water tanks arranged on the first ascending path are arranged relatively more than the water tanks on the second ascending path.