KR101816059B1 - Pulverizer for preventing plugging vane wheel in a thermal power plant - Google Patents

Abstract

The present invention provides a pulverizer apparatus of a thermoelectric power plant, in which coal is supplied into a pulverizer via a supply pipe, is dropped to a central part of a dish shaped bowl, is pushed out of the bowl by centrifugal force of the rotating bowl and is pulverized while going between a grinding roller and the bowl, primary air is supplied to an upper part through a vane wheel provided at the outside of the bowl under the bowl to revolve pulverized coal with the air, and the pulverized coal is discharged through a discharge pipe as the pulverized coal floats with the air. The vane wheel includes a plurality of wheel blades coupled to a circular plate member formed on an outer circumferential surface of the bowl (30) to be spaced at regular intervals, an impact bar protrudes vertically on an upper part of the wheel blade arranged slantly with respect to a central axis direction of the circular plate member, and the impact bar protruding on the upper part of the wheel blade, while the vane wheel rotates, impacts, pulverizes and discharges coal lumps plugging an upper part of the vane wheel, thereby preventing plugging of the vane wheel and promoting normalization of the flow of the primary air.

Description

[0001] The present invention relates to a pulverizer for preventing the clogging of a vane wheel in a thermal power plant,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a differentiator for use in a thermal power plant, and more particularly, to a differentiator for preventing clogging of a vane wheel in a differentiator of a thermal power plant and normalizing the flow rate of air.

In a coal-fired power plant, a Bowl Type pulverizer of a combustion-type boiler is designed so that coal (35 ° C or so) supplied from a coal feeder falls to the central portion of the paul and is pushed in the circumferential direction by the centrifugal force of the paul (About 340 ° C) supplied from the primary ventilator (PAF) and the low-temperature air supplied from the primary ventilator (PAF) so as to facilitate the combustion of the fine powder (200 mesh particles of 70% or more) finely ground like grinding powder between the grinding roller Air (about 40 ° C) is appropriately mixed (55 to 60 ° C) and transferred to the burner to completely burn in the boiler furnace.

1 to 4 illustrate the operation of the differentiator 100 with reference to the drawings. The coal supplied to the coal-fired generator is supplied into the differentiator 100 through the supply pipe 10, Shaped bowl 30 by the centrifugal force of the pawl 30 rotating by the rotating means (not shown) while the coal is pushed outwardly of the pawl 30, roller (40) and the pawl (30).

The preheated primary air is supplied to the upper portion of the poultry 30 through a vane wheel 50 provided outside the poult. The vane wheel 50 is coupled to the outer side of the pawl 30 as a transfer passage of the primary air supplied from the primary air supplier 60 and rotates while supplying the pivoting force to the inside of the differentiator 100, A plurality of wheel blades 52 spaced apart at regular intervals are coupled to a circular plate member 51 coupled to the outer circumferential surface of the pawl 30 as shown in FIG. . As shown in the figure, each of the wheel blades 52 is spaced at a predetermined interval and guides the transfer of the primary air supplied from the primary air supplier 60. The wheel blades 52 are arranged in the vertical direction (the central axis direction of the inner circular plate member 51) At an angle with respect to the direction of the arrow. Accordingly, the vane wheel 50 rotates to supply the swirling force to the pulverized coal, thereby sorting the pulverized coal and performing the role of mixing the pulverized coal and the primary air.

At this time, the pulverized coal collides with the pulverized coal separator located at the uppermost part of the pulverizer 100 and turns with the air. The finely pulverized pulverized coal floats by the heated air, To the boiler burner, and the less pulverized particles of large coal are re-pulverized through the funnel-shaped inner cone 20 back to the paul 30.

This type of thermal power plant differentiator is adopted in coal power of 500MW standard in Korea and coal power of 800MW or higher in the domestic market. However, coal powders having high cohesiveness in the differentiator are used in the coal gasifier The pulverized coal which is attached to the pulverizer or the pulverizer is attached to the pulverizer and the pulverizer is attached to the pulverizer. The flow rate and the flow rate of the car air are lowered to the design standard and thereby the proper mixing and flow of the hot air and the pulverized coal (about 35 ° C) are interrupted, 55 ~ 60 ° C), so that the outlet temperature of the differentiator suddenly increases instantaneously (55-80 ° C) Differentiator untimely stopping (Trip) phenomenon occurs frequently, and there is a problem that the phenomenon leading to the fire by a further elevated temperature occurs.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a thermal power plant capable of preventing clogging of a vane wheel due to a lump of pulverized coal in a differentiator of a thermal power plant, And it is an object of the present invention to provide a differentiator device.

The pulverizer of the thermal power plant according to the present invention is characterized in that coal is supplied to the interior of the pulverizer through the supply pipe 10 and falls to the center of the bowl- The pawl 30 is pushed toward the outer side of the pawl 30 and is crushed while passing between the grinding roller 40 and the pawl 30 and under the pawl 30, The vane wheels 150 are formed on the outer circumferential surface of the pawl 30. The vanes 150 are formed on the outer circumferential surface of the pawl 30, The wheel wing (152) includes a plurality of wheel wings (152) coupled to a circular plate member (151) spaced apart from each other by a predetermined distance. The wheel wing (152), which is disposed obliquely with respect to the central axis direction of the circular plate member, On top of An impact bar 154 protruding vertically is combined with an impact bar 154 protruding from an upper portion of the wheel wing 152 while the vane wheel 150 is rotated, The lump is crushed and pulverized to be discharged, thereby preventing clogging of the vane wheel 150 and normalizing the flow rate of the primary air.

The impact bars 155 of the vane wheel 150 are formed of a plurality of impact bars 155. The impact bars 155 are coupled to the respective wheel blades 152. Each of the impact bars 155 is connected to the circular plate member 151, Are formed to have different distances from each other.

Further, the vane wheel 150 further includes a horizontal plate member at the upper end of each wheel blade, and the impact bar is coupled to the upper surface of the horizontal plate member.

Therefore, according to the present invention, in the pulverizer of the thermal power plant, the block of coal obstructing the upper part of the vane wheel is pulverized by using the rotational force of the vane wheel and discharged, thereby preventing clogging of the vane wheel, Is prevented from being suddenly stopped.

FIG. 1 is a view showing a differentiator of a conventional thermal power plant,
FIG. 2 is a view showing the movement of coal and the flow of air in the differentiator of FIG. 1,
3 is a vane wheel of a conventional thermal power plant differentiator,
FIG. 4 is a view showing clogging of pulverized coal in a vane wheel of a conventional thermal power plant differentiator,
FIG. 5 is a view showing a vane wheel of a thermal power plant differentiator according to the present invention,
6 is a view showing the prevention of clogging of pulverized coal in a vane wheel of a thermal power plant differentiator according to the present invention,
7 is a view showing a vane wheel of a thermal power plant differentiator according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a differentiator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a view showing a vane wheel of a thermal power plant differentiator according to the present invention, FIG. 6 is a view showing the prevention of clogging of pulverized coal in a vane wheel of a thermal power plant differentiator according to the present invention, FIG. 2 is a view showing a vane wheel of a thermal power plant differentiator according to an embodiment of the present invention; FIG.

First, referring to FIG. 1, the entire structure and operation of a thermal power plant differentiator will be described. The differentiator that performs the function of grinding coal (raw coal) to be supplied to the boiler in a fine particle state and separating the discharged material, A supply pipe 10 for supplying coal (raw coal) is installed in a vertical direction and a discharge pipe 70 for discharging pulverized coal is installed around the pipe. A funnel-shaped inner cone (20) for dropping undifferentiated coal into the poultry (30) is installed on the side of the feed pipe (10) inside the pulverizer. The lower portion of the supply pipe 10 is provided with a dish shaped pawl 30 for receiving and rotating the coal supplied through the supply pipe 10 so that the coal which is dropped to the central portion of the pawl 30 through the supply pipe 10 Is crushed by a grinding roller 40 while being pushed outward by a centrifugal force while the pawl 30 is rotated by a rotating motor (not shown). As shown in FIG. 1, the grinding roller 40 is connected to a shaft provided inside the journal housing. The grinding roller 40 is disposed diagonally at the side and three grinding rollers 40 are installed at a predetermined angle, (Coal) is pulverized between the grinding roller 40 and the pawl 30 to form pulverized coal.

The pulverized coal (pulverized coal) is poured through a vane wheel 50 provided outside the poultry 30 by air supplied from the primary air feeder 60 installed on the lower side of the poultry 30 30), the large-sized coal is separated again onto the poultry 30 and pulverized again. The pulverized coal circulates together with the air supplied through the vane wheel 150. According to the turning angle and the speed, the secondary pulverized coal having a large particle size is separated and dropped onto the pail 30, and only the fine pulverized coal is supplied to the boiler through the upper discharge pipe 70.

In the meantime, in the present invention, the vane wheel 150 is coupled to the outer side of the pawl 30 as a feeding passage of the primary air supplied from the primary air supplier 60, and rotates while supplying the pivoting force to the inside of the differentiator 100 5, a plurality of wheel blades 152 spaced apart from each other by a predetermined distance are coupled to a circular plate member 151 coupled to an outer circumferential surface of the pawl 30, Member 153 is engaged. Each of the wheel blades 152 guides the transfer of the primary air supplied from the primary air supplier 60 by a predetermined distance as shown in the figure and is arranged in the vertical direction (the central axis direction of the inner circular plate member 151) At an angle with respect to the direction of the arrow. Accordingly, the vane wheel 150 rotates to supply the swirling force to the pulverized coal, thereby sorting the pulverized coal and performing the role of mixing the pulverized coal and the primary air.

In addition, in the present invention, the vane wheel 150 is coupled with six impact bars 154 vertically protruding from the upper portion of the wheel blade 152. The impact bar 154 is provided on the wheel wing 152 of the vane wheel 150 so that the impact bar 154 protrudes from the upper portion of the wheel wing 152 while the vane wheel 150 rotates, The clogging of the coal block obstructing the upper part of the pulverizer 150 is pulverized and discharged to prevent clogging of the vane wheel 150. Accordingly, the temperature of the outlet of the pulverizer 100 is prevented from rising by normalizing the flow rate of the primary air, (Trip) phenomenon.

The impact bar 154 is formed so as to protrude further than the upper surface of the pawl 154 and the impact bar 154 is formed in the wheel barrel 152 in which the impact bars 154 are engaged, The impact wheel 154 is formed on the left side, the center, or the right side of the upper portion of the wheel wing 152, as shown in FIG. It is possible to impact and crush the lumps of coal growing at different positions on the upper part. The impact bar 154 is fixed by welding or the like so as not to collide with the structures installed on the upper and side surfaces of the vane wheel 150 when the wheel barrel 152 is fixed on the upper part.

7 shows an embodiment of the vane wheel 150. The vane wheel 150 further includes a horizontal plate member 155 at the upper end of the wheel wing 152 disposed at an angle to the vane wheel 150, Is vertically protruded from the upper surface of the horizontal plate member 155 above the wheel blade 152. The horizontal plate member 155 serves to prevent flames, etc. from above the vane wheel 150. The role and function of the vane wheel and the impact bar are the same as those of the previous embodiment, and detailed description thereof is omitted here.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be readily understood.

100: differentiator 10: supply pipe
20: Inner cone 30: Paul
40: Grinding roller 60: Primary air supply
70: exhaust pipe 150: vane wheel
151: Circular plate member 152: Wheel wing
153: outer circular plate member 154: impact bar
155: horizontal plate member

Claims (3)

In a differentiator of a thermal power plant,
The pulverizer is supplied with coal through the supply pipe 10 into the inside of the pulverizer 30 and falls to the central portion of the plate-shaped pawl 30 and is rotated by the centrifugal force of the pawl 30 rotating in the outward direction of the pawl 30 And is crushed while passing between the grinding roller 40 and the pawl 30,
Below the pail 30, primary air is supplied to the upper part through a vane wheel 150 provided outside the pail 30 so that the pulverized coal turns with the air, and the pulverized coal is floated together with the air, , ≪ / RTI >
The vane wheel 150 includes a plurality of wheel blades 152 spaced apart from a circular plate member 151 formed on an outer circumferential surface of the pawl 30, An impact bar 154 protruding vertically from the upper portion of the wheel wing 152 and rotating together with the wheel wing 152 is coupled to the wheel wing 152 disposed at an angle to the axial direction, The impact bar 154 coupled to the vane wheel 150 is rotated together with the impact bar 154 protruding from the upper portion of the wheel blade 152 to rotate the upper portion of the vane wheel 150 The block of coal is crushed and pulverized and discharged to prevent clogging of the vane wheel 150 and to normalize the flow rate of the primary air,
The vane wheel 150 further includes a horizontal plate member 155 at the upper end of each wheel blade 152. The impact bar 154 is coupled to the upper surface of the horizontal plate member 155,
Each of the impact bars 154 of the vane wheel 150 is formed of a number of impact bars 154 coupled to the horizontal plate member 155 of the wheel vane 152, And the circular plate member (151) are formed at different distances from each other, thereby preventing clogging of the vane wheel in the thermal power plant. delete delete

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