KR840001099Y1 - Grate for hard coal boiler - Google Patents

Abstract

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Description

Grate of anthracite coal combustion boiler

1 is a perspective view showing the configuration of the present invention.

2 is a cross-sectional view showing the structure of the boiler.

3 is a cross-sectional view of a combustion device which is a main part of the present invention.

Figure 4 is a functional diagram showing the third degree specifically.

5 is a plan view of the burn.

6 is a cross-sectional view showing a blower.

7 is a cross-sectional view showing the reprocessing configuration as a longitudinal cross-sectional view of the boiler.

8 is a front view of a combustion apparatus which is a main part of the present invention.

9 is an enlarged partial right view showing the correlation between the pedestal, the support piece, the flow, and the image.

* Explanation of symbols for main parts of the drawings

1: Boiler body 2,3: Transfer screw

4: Hopper 5: Burn

5 ': blower 6: pedestal

6 ': flow period 7: driven rod

9: reduction gearbox 10: cam

11: Camlever 12: Support

13: fixture 14: spring

15: blower fan 15 ': blower

The present invention relates to a grate of an anthracite combustion boiler in which an anthracite coal is burnt as it is, and an anthracite coal is burned efficiently by a perfect combustion device to obtain a high temperature calorie.

Coal has been used in the form of certain solids such as ball and coal briquettes for optimum combustion. This is because it requires the formation of an air channel so that the fuel combusts with oxygen. On the other hand, coal anthracite coal is dispersed as a powder, so oxygen is not evenly contained, and thus high incombustibility and heat are significantly reduced. This drawback was a problem in the conventional anthracite combustor.

In other words, the conventional combustor using anthracite coal is a support-type rostol having numerous through holes, and when the anthracite coal is injected as it is, powder is pulled out between the holes, so that larger granules are required than the through holes. Coal was used. Such solid coal,

1. The exchange of coal, reprocessing, etc. cannot be done automatically.

2. Therefore, the amount of heat in coal in the furnace is not constant during the initial combustion, during combustion, and after combustion.

3. All internal combustion heat cannot be conducted since it has a volume as a solid.

4. Cost increase because it requires solidification process such as ball and coal.

As described above, if the direct combustion of the powdered anthracite has not been achieved effectively, the above-mentioned shortcomings will be eliminated and it will be very useful for the shortcomings of the solid briquettes. This invention is to meet the advantages, it can be seen that the design is remarkable for the following purposes.

The main purpose of the present invention is to obtain the maximum calories of the fuel because it supplies oxygen to the burner by the blowing fan and burns the fuel as it flows down uniformly and thinly as a whole. By burning the anthracite coal as it is, it is possible to save fuel cost much more than conventional solid coal without a manufacturing process.

The present invention for this purpose can be easily handled like an oil-fired boiler in the actual user's handling and management of the boiler, but this object can be achieved by varying the overall configuration due to the difference between oil and powdered coal. If described in detail with reference to the accompanying drawings, the configuration of the present invention and other effects and effects not mentioned above are as follows.

In FIG. 1 and FIG. 2, the anthracite supply device is installed on both walls of the boiler body 1, but one or only three or four may be installed only on one wall depending on the capacity.

Associating a known screw conveyor (2) for conveying the powder anthracite (21) up in the anthracite tank (20) with a known conveying screw conveyor (3) for conveying the raised anthracite to the boiler body (1) and falling therefrom. The anthracite coal is deposited in the hopper 4 installed on the wall of the boiler.

At the bottom of the hopper 4, as shown in FIGS. 3 and 8, the shaft hole 27 and the front and rear pedestals 6 respectively installed in the upper left and right centers of the front and rear pedestals 6 and 6 " The left and right flow sections 6 'are formed by passing through the pin holes 30 through the shaft holes 28 of the support piece 26 and the flow holes 6' formed at the upper left and right center portions of the 6 '. The pins 32 fixed to the image 5 are suspended in the long holes 31 of the left and right flow sections 6 ', respectively, so that the images 5 are shaken from side to side. Further, the left end of the pedestal 6 and the fixing plate 8 are each divided by a bolt 33 and a nut 34.

On the rear side of the image 5, a driven rod 7 is welded to penetrate the stationary plate 8 fixed to the boiler body 1, while the stationary plate 8 reduces the rotation speed of the motor ( 9) and attach the cam 10 to the final shaft with reduced speed.

As shown in FIG. 4, the cam lever 11 driven by the rotation of the cam 10 is adhered to the support 12 with a pin, and the driven rod 7 of the image 5 is moved by the cam lever 11. The return springs 14 and 14 'are piled up in front of and behind the fastener 13 integrated with the support 12 inside the cam lever 11 by penetrating through the intermediate point and integrally as nuts.

The image 5 is a relatively wide water bottle, formed so that the cooling water is circulated therein, and is positioned to be inclined from the fuel outlet 4 'so that the anthracite coal is easily flowed down.

On the other hand, as a device for burning the supplied anthracite coal, the blowing fan 15 is installed on the coaxial axis of the motor 22 which rotates the gear in the reduction gear box 9 as shown in FIG. It is blown to the blown tone 15 'widely installed on the bottom of (5) to be blown out to the dozens of blowed holes 5' through and above the image 5 to supply oxygen for smooth combustion.

The bottom surface of the boiler 1 is provided with a coal conveying path 16, and a known conveying screw 17 is built up, and the known conveyer 19 for storing the collected coal ash in a known reprocessing container 18 to the outside. It was installed to facilitate reprocessing.

Reference numeral 23, which is not described in the present invention, is a year, 24 is a heating circulation tube, and 25 is a safety valve.

The present invention configured as described above can obtain the effect by the following operation.

At the bottom of the anthracite tank 20 inclined like a hopper, the anthracite is always introduced into the spiral screw by placing a screw conveyor 2 for upwardly conveying the anthracite 21.

The injected anthracite (21) is conveyed upwardly along the helical screw (2) and transferred to the horizontal screw conveyor (3), which is deposited on a hopper (4) provided on the side wall of the boiler body (1). The anthracite coal, which has been accumulated, flows into the burner 5 by an appropriate amount into the outlet 4 'of the narrow bottom by its own weight and falls into the burner 5, where the reduction gearbox 9 which reduces the number of revolutions of the operating motor 22 is operated. ) Finally rotates the cam 10 slowly, and as the cam lever 11 flows back and forth as the cam 10 rotates, the driven rod 7 fixed thereto swings the image 5 back and forth. .

The image 5 is supported by the front and rear pedestals 6 and 6 ", and is adhered to the flow chamber 6 'like a swing so that the driven rod 7 reciprocates sideways as appropriate in FIG. As a result, the image 5 is shaken from side to side, and the anthracite coal, which is the fuel on the upper surface of the image 5, flows downward while giving an impact when pushed out by such an operation. (5) As the ignited coal is ignited and burned by the embers provided by the embers, the wind generated by the operation of the blower fan 15 is collected in the air blower 15 'and the air blowers of the image 5 The anthracite coal flowing through 5 ') is brought into a class to help combustion.

The anthracite coal is burned to burn completely in the process of flowing down the burn in a relatively slow time, and the coal ash falling from the burner 5 to the coal ash transport path 16 is accumulated along the feed screw 17 to the outside of the boiler and then the conveyor It is to be contained in the reprocessing container 18 by (19).

In this process, fuel transfer → supply → combustion → reprocessing and the like are all performed smoothly and continuously, thereby providing efficient heat and hot water.

That is, the anthracite coal accumulated in the hopper 4 is supplied in a relatively uniform and thin manner to the image 5 as it flows out in an appropriate amount under gravity, and the image 5 is supplied from the blower fan 15 while appropriately flowing down by shaking back and forth. After efficient combustion in class with oxygen, the burnt coal ash falls and self-cleans, allowing the boiler to continue running and providing the benefit of not requiring specific manpower to run the boiler.

The anthracite coal, which is moved and burned in the burner 5, has a thin thickness that is easy to burn, and is designed to be completely burned with a sufficient blowing air supply to obtain a high calorific value and maintain a constant fire power as with an oil boiler.

The burn 5 here is always subjected to high heat, and the water is circulated inside the burn 5 to prevent the torsion or burnout caused by the high heat and to obtain hot water quickly.

The present invention, like oil boilers, is capable of continuous combustion and obtains comparable thermal efficiency. However, since the coal is cheaper than oil, it is possible to realize significant economic benefits.

Therefore, unlike in the past, inexpensive coal is used as an energy source, and coal mining is used as it is, and it is possible to obtain the maximum calorie value of the coal itself and to maintain a constant calorie value at all times.

Claims (4)

(delete) (Correct) In operating an existing boiler in which a multi-pipe is installed in a water tank using anthracite coal as an energy source, a well-known blower 15 'is attached to the bottom of the blower fan 15 so that the wind from the blower fan 15 is supplied to the combustion chamber. A flow rod 6 'is attached to the pedestal 6 so as to swing the image 5 on which dozens of blow holes 5' are laid on the left and right sides, and it swings like a swing. (7) is integrally fastened with the cam lever 11, and the springs 14, 14 'are coalesced between the fixtures 13 of the support 12 supporting the cam lever 11 to give a return force, and the cam lever 11 ) Is the grate of the anthracite coal combustion boiler in which the anthracite coal flows down by shaking in accordance with the rotation of the cam 10 installed in the existing reduction gear box 9. The grate of the anthracite coal combustion boiler according to claim 2, wherein the burn (5) is formed in a relatively large water bottle so that water is circulated therein, thereby preheating and protecting it from high heat. (delete)