KR101059543B1 - Pulverized coal inflow prevention device for conveying air duct in bowl mill - Google Patents

Abstract

The present invention is located in the lower portion of the rotating bowl (bowl) under the pulverized coal flows into the underbowl (pulverized coal) is removed from the bottom surface by the rotation of the scraper (underbowl) and conveying air duct for introducing the transport air into the under bowl In the pulverized coal inflow prevention device for a transfer air duct installed between, the plate-shaped frame located on the outer peripheral surface of the under-bowl; Surrounded by the frame and arranged in parallel spaced apart from each other, a plurality of vertical to incline toward the air turning direction formed in the under-bowl by the rotation of the bowl and the scraper, to introduce the conveying air into the under-bowl Vanes; And a plurality of horizontal vanes intersecting the vertical vanes and spaced apart in parallel to each other and inclined to face the bottom surface of the under bowl, wherein the conveying air is disposed between the vertical vanes and the horizontal vanes. The present invention discloses a pulverized coal inflow preventing apparatus for conveying air ducts, which is introduced into the under bowl. The pulverized coal inflow prevention device for the transfer air duct as described above prevents pulverized coal from being introduced into the transfer air duct to prevent spontaneous ignition and damage due to pulverized coal.

Pulverized coal inflow prevention, under bowl, conveying air duct, slope

Description

Pulverized coal inflow prevention device for conveying air ducts in bowl grinding machine {APPARATUS FOR PREVENTING COAL FROM FLOWING INTO A PRIMARY AIR DUCT IN BOWL PULVERIZER}

The present invention relates to a pulverized coal inflow prevention device for a transfer air duct for preventing the pulverized coal from flowing into the transfer air duct in the bowl mill, in particular, a transfer to smoothly supply the transfer air while preventing ignition in the transfer air duct The present invention relates to a pulverized coal inflow prevention device for an air duct.

In general, coal-fired power plants use coal as fuel, and coal is pulverized into fine particles and burned in a boiler. Here, the equipment in which coal is pulverized into pulverized coal suitable for combustion is called pulverizer, which is a tube pulverizer, a bowl pulverizer, a ball pulverizer, a roller pulverizer, and a non-pulverizer. Eater Wheel Differentiation and the like. In particular, bowl mills are widely used in coal-fired power plants and cogeneration plants because of their high reliability, low power consumption and relatively low operating noise.

1 is a cross-sectional perspective view showing a general bowl grinding force 10. As shown in FIG. 1, coal is supplied into the bowl powder mill 10 through the raw coal supply unit 11. The coal supplied is placed on the bowl 12. At this time, since the bowl 12 rotates, coal moves to the edge of the bowl 12 and is pulverized into fine particles by the rotation of the grinding roller 13. Here, coal pulverized into fine particles is called pulverized coal. The pulverized coal is fed to a boiler (not shown) through the pulverized coal supply pipe 14 located above the bowl 12 and combusted. At this time, a part of the pulverized coal and the pulverized coal flows into the under bowl 20 located under the bowl 12. The under bowl 20 is connected to the transfer air duct 30 and receives the transfer air through the transfer air duct 30. At this time, the scraper 21 is installed inside the under bowl 20, and the scraper 21 rotates about one axis to transfer a portion of pulverized coal and pulverized coal to the outside of the under bowl 20 to the outside. Drain it.

FIG. 2 is a view showing a state in which the pulverized coal inflow preventing device 40 is installed for the transfer air duct 30 according to the prior art in the bowl mill 10 shown in FIG. 1. As shown in FIG. 2, the pulverized coal inflow prevention device 40 for the transfer air duct 30 according to the related art is installed between the under bowl 20 and the transfer air duct 30, and the under bowl 20. To prevent the fine coal from being introduced into the transfer air duct 30.

The pulverized coal inflow prevention device 40 for the conveying air duct 30 is used as a metal lath net or crimp net. At this time, the pulverized coal inflow prevention device 40 is fixed and installed by a bolt. However, due to the continuous operation of the bowl mill 10, the bolt is damaged or separated from the pulverized coal inflow prevention device 40.

As a result, as shown in FIG. 2A, the pulverized coal inflow prevention device 10 is deformed, and the pulverized coal is introduced into the transfer air duct 30. In addition, the pulverized coal introduced into the transfer air duct 30 is dried due to the transfer air having a high temperature of 220 ° C. to 250 ° C., and spontaneously ignites in the transfer air duct 30.

As spontaneous ignition occurs in the transfer air duct 30, as shown in (b) of FIG. In addition, the pulverized coal is continuously introduced into the transfer air duct 30, causing spontaneous ignition. Therefore, coal being crushed in the bowl mill 10 may ignite and cause a fire.

In addition, the pulverized coal inflow prevention device is required to be replaced and maintenance due to damage, for this purpose, the operation of the bowl mill is to be stopped. As a result, the operation of the bowl mill is limited and the maintenance cost due to the loss of pulverized coal is also increased.

The present invention is to provide a pulverized coal inflow prevention device for the transfer air duct that can prevent the inflow of pulverized coal in the conveying air duct and thereby spontaneous ignition.

In addition, the present invention is to provide a pulverized coal inflow prevention device for the transfer air duct that can be continuously used without damage due to pulverized coal, which can provide a stable operation of the pulverizer.

The present invention is located in the lower portion of the rotating bowl (bowl), while the fine coal is introduced into the underbowl (pulverized coal) is removed from the bottom surface by the rotation of the scraper (scraper) and the inflow of the transport air to the under bowl Claims [1] A pulverized coal inflow prevention device for a transfer air duct installed between transfer air ducts, comprising: a plate-shaped frame positioned on an outer circumferential surface of the under bowl; Surrounded by the frame and arranged in parallel spaced apart from each other, a plurality of vertical to incline toward the air turning direction formed in the under-bowl by the rotation of the bowl and the scraper, to introduce the conveying air into the under-bowl Vanes; And a plurality of horizontal vanes intersecting the vertical vanes and spaced apart in parallel to each other and inclined to face the bottom surface of the under bowl, wherein the conveying air is disposed between the vertical vanes and the horizontal vanes. The present invention discloses a pulverized coal inflow preventing apparatus for conveying air ducts, which is introduced into the under bowl.

In addition, the vertical vane is inclined 30 degrees from the inflow direction of the conveying air to face the air turning direction, and the horizontal vane 15 from the state parallel to the bottom surface of the under bowl to face the bottom surface of the under bowl Disclosed is a pulverized coal inflow prevention device for conveying air ducts characterized by being inclined.

In addition, the pulverized coal inflow prevention device discloses a pulverized coal inflow prevention device for a transfer air duct, characterized in that made of a stainless steel 316 series material.

In addition, the vertical vanes disclose a pulverized coal inflow prevention device for the transfer air duct, characterized in that the extension is inserted into the interior of the duct of the transfer air.

The pulverized coal inflow prevention apparatus for the transfer air duct according to the present invention includes a frame, vertical vanes, and horizontal vanes, and is installed between the underbowl and the transfer air duct. In particular, the vertical vanes and the horizontal vanes prevent the pulverized coal contained in the under bowl from entering the conveying air duct. For this reason, spontaneous ignition due to pulverized coal is limited in the transfer air duct. Therefore, damage to the pulverized coal inflow prevention device due to spontaneous combustion is prevented.

In addition, the damaged pulverized coal inflow prevention device must be replaced with the operation of the grinding mill stopped. However, as the damage of the pulverized coal inflow prevention device is prevented, it reduces the time and cost associated with the replacement of the pulverized coal inflow prevention device, and provides stable operation of the pulverizer.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 3 is a perspective view showing a state in which the pulverized coal inflow prevention device 100 for the conveying air duct 300 according to a preferred embodiment of the present invention is installed, Figure 4 is for the conveying air duct 300 shown in FIG. 5 is a perspective view illustrating the pulverized coal inflow preventing apparatus 100, and FIG. 5 is a cross-sectional view illustrating a state in which the pulverized coal inflow preventing apparatus 100 for the transfer air duct shown in FIG. 4 is cut along the lines AA 'and B-B'. 6 is a plan view showing a state in which the pulverized coal inflow prevention device 100 for the transport air duct 300 shown in FIG. 3 is installed. In addition, in Figure 5 (a) is a cross-sectional view showing a state in which the pulverized coal inflow prevention device 100 shown in Figure 4 cut along the line A-A ', (b) is a pulverized coal inflow prevention device shown in FIG. It is sectional drawing which shows the mode which cut | disconnected (100) along the line BB '.

As shown in FIGS. 3 to 6, the pulverized coal inflow prevention apparatus 100 for the transfer air duct 300 according to the preferred embodiment of the present invention includes a frame 101, vertical vanes 102, and horizontal vanes. Includes (103), is installed between the under bowl (200) and the transfer air duct 300 to prevent the pulverized coal contained in the under bowl 200 is introduced into the transfer air duct (300). Here, the under bowl 200 is located with reference to FIG. 1, and is located at the bottom of a bowl 12 (shown in FIG. 1), and as the bowl 12 rotates, pulverized coal is introduced. As the scraper 201 rotates, the pulverized coal is flowed in the under bowl 200 without being discharged to the outside of the under bowl 200. In addition, the transfer air duct 300 introduces the transfer air into the under bowl 200.

The frame 101 is located on the outer circumferential surface of the under bowl 200 and is formed in a plate shape. The conveyed air flows into the under bowl 200 from the conveyed air duct 300. The pulverized coal pulverized in the bowl 12 is transferred to a boiler (not shown) by the transfer air introduced into the under bowl 200. The frame 101 may have various shapes without being limited to a specific shape such as a circle, an ellipse, a triangle, a rectangle, and the like. In this embodiment, however, the frame 101 has a rectangular shape. In this case, the frame 101 includes vertical frames 101a and horizontal frames 101b vertically connected to the vertical frames 101a. That is, the conveying air is introduced into the under bowl 200 from between the conveying air duct 300 and between the vertical frames 101a and the horizontal frame 101b.

The plurality of vertical vanes 102 are surrounded by the frame 100 as a plurality and are arranged parallel to each other. Meanwhile, an air turning direction is formed in the under bowl 200 by the rotation of the bowl 12 and the scraper 201. As a result, the conveying air flowing into the under bowl 200 from the conveying air duct 300 flows along the air turning direction. To facilitate this, the vertical vanes 102 are inclined to face this air turning direction. In addition, the vertical frame 101a may also be arranged to be inclined like the vertical vanes 102.

As the conveying air pivots through the vertical vanes 102 and in the underbowl 200, the pulverized coal is conveyed into the pulverized coal supply pipe 14 (shown in FIG. 1), but some are conveyed toward the vertical vanes 102. At this time, as the vertical vanes 102 are inclined, the conveying air and the pulverized coal are interfered with the vertical vanes 102 to restrict the inflow into the conveying air duct 300 from the under bowl 200. At this time, the transfer air flowing into the under bowl 200 also limits the inflow of the transfer air turned in the under bowl 200 into the transfer air duct 300. Therefore, the pulverized coal interfered with the vertical vanes 102 is restricted to the inflow into the transfer air duct 300 by falling to the bottom surface of the under bowl 200.

In addition, the vertical vanes 102 extend toward the conveying air duct 300 and are inserted into the conveying air duct 300. As a result, the conveying air flows more smoothly from the conveying air duct 300 through the vertical vanes 102 and into the under bowl 200 toward the air turning direction.

The vertical vanes 102 are inclined by a vertical inclination angle θ ₁ from the inflow direction of the conveying air so as to face the air turning direction as shown in FIG. 5A to perform the above function. At this time, the vertical inclination angle θ ₁ is preferably 30 °.

The horizontal vanes 103 intersect the vertical vanes 102 and are surrounded by the frame 100 and are arranged spaced apart in parallel to each other. In particular, since the pulverized coal can flow into the conveying air duct 300 between the vertical vanes 102, the respective horizontal vanes 103 are inclined to face the bottom surface of the under bowl 200.

Part of the pulverized coal and the pulverized coal in the bowl 12 flow toward the horizontal vanes 103 as it falls into the under bowl 200. At this time, as the horizontal vanes 103 are inclined toward the bottom surface of the under bowl 200, a part of the pulverized coal and the pulverized coal interfere with the horizontal vanes 103 and flow into the transfer air duct 300. Will be limited.

When the horizontal vanes 103 are inclined to face the bottom of the under bowl 200 at an excessively large angle, the fine coal is restricted from flowing into the transfer air duct 300, while the horizontal vanes 103 are transferred to the under bowl 200. It also limits the ingress of air. Accordingly, the horizontal vanes 103 are horizontally inclined by the horizontal inclination angle θ ₂ from the state parallel to the bottom surface of the under bowl 200 to face the bottom surface of the under bowl 200 as shown in FIG. 5B. Incline In this case, the horizontal inclination angle θ ₂ is preferably 15 °.

In addition, the pulverized coal inflow prevention device 100 for the transfer air duct 300 of the present embodiment is made of a stainless steel 316 series material. Thus, even if pulverized coal is introduced into the transfer air duct 300 and spontaneously ignited, the pulverized coal inflow prevention device 100 is prevented from melting damage.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention.

1 is a cross-sectional perspective view showing a general bowl differentiator.

FIG. 2 is a view illustrating a state in which a pulverized coal inflow prevention apparatus for a transfer air duct according to the prior art is installed in the bowl mill shown in FIG. 1.

3 is a perspective view showing a state in which a pulverized coal inflow prevention device for a transfer air duct according to a preferred embodiment of the present invention is installed.

FIG. 4 is a perspective view illustrating a pulverized coal inflow prevention device for the transfer air duct shown in FIG. 3.

FIG. 5 is a cross-sectional view illustrating a state in which the pulverized coal inflow prevention device for the transfer air duct shown in FIG. 4 is cut along the lines A-A 'and B-B'.

FIG. 6 is a plan view illustrating a state in which a pulverized coal inflow prevention device for the transfer air duct shown in FIG. 3 is installed.

Claims (4)

Located in the lower part of the rotating bowl (pulverized coal), the powdered coal is introduced into the underbowl (pulverized coal) is removed from the bottom surface by the rotation of the scraper (scraper) and conveying air duct for introducing the transport air into the under bowl In the pulverized coal inflow prevention device for the transfer air duct installed between, A plate-shaped frame positioned on an outer circumferential surface of the under bowl; Surrounded by the frame and arranged in parallel spaced apart from each other, a plurality of vertical to incline toward the air turning direction formed in the under-bowl by the rotation of the bowl and the scraper, to introduce the conveying air into the under-bowl Vanes; And A plurality of horizontal vanes intersecting the vertical vanes and arranged parallel to each other and inclined to face the bottom surface of the under bowl, The conveying air is introduced into the under bowl passing between the vertical vane and the horizontal vane, the pulverized coal inflow prevention device for the transport air duct, characterized in that. The method of claim 1, The vertical vane is inclined 30 ° from the inflow direction of the conveying air to face the air turning direction, And the horizontal vane is inclined 15 ° from a state parallel to the bottom of the under bowl to face the bottom of the under bowl. The method of claim 1, The pulverized coal inflow prevention device is a pulverized coal inflow prevention device for a transfer air duct, characterized in that made of a stainless steel 316 series material. The method of claim 1, The vertical vanes are pulverized coal inflow prevention device for the transfer air duct, characterized in that the extension is inserted into the interior of the duct of the transfer air.

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