KR20140042330A - Device to prevent clogging vertical pipe of grinding mill for dust coal - Google Patents

Abstract

The present invention is installed in a dust coal crushing mill that includes a coal hopper, a coal feeder and a vertical tube to transfer coal of the coal hopper, and a mill to crush the coal transferred by the coal feeder and the vertical tube, and comprises: split tubes formed to be split into a plurality while being installed inside the vertical tube to form an inner tube; a crushing plate installed to be attached to an inner face of each of the split tubes; a mobile shaft installed to penetrate the split tubes and the vertical tube sequentially while being installed to be connected with each crushing plate; a cylinder to move mobile shafts in sliding by being installed for connection with each of the mobile shafts; and a vibration sensor installed in the vertical tube. According to the present invention, by allowing an automatic crushing and washing of the coal fixed to the vertical tube of a dust coal crushing mill, working time to remove the coal fixed onto the vertical tube is shortened thereby preventing problems in dust coal production, and workers do not manually remove the fixed coal thereby preventing safety accidents and gas poisoning accidents in advance.

Description

TECHNICAL FIELD [0001] The present invention relates to a device for preventing vertical blockage of pulverized coal pulverized wheat,

More particularly, the present invention relates to a device for preventing the clogging of a pulverized coal pulverized mill, which is capable of automatically crushing and washing coal adhered to a vertical pipe of a pulverized coal pulverized mill.

In general, pulverized coal is widely used as a fuel used in a furnace.

Pulverized coal is produced by finely pulverizing coal, and it is blown into a furnace through a pulverized coal feeder.

The above-mentioned pulverized coal is made by pulverizing coal finely. The pulverized coal is pulverized by pulverized coal crushing mill.

The pulverized coal pulverizing mill as shown in FIG. 1 includes a coal hopper 10, a feeder 20, a vertical pipe 30, and a mill 40.

The coal 11 stored in the coal hopper 10 is transferred to the vertical pipe 30 by the charger 20 and the coal 11 transferred to the vertical pipe 30 is discharged through the vertical pipe 30 40 and crushed by the mill 40 to produce pulverized coal.

The pulverized coal produced as described above is raised by the high-pressure gas supplied into the mill 40, is collected in a bag filter (not shown) through the uprising pipe 50, and is transported to the blast furnace.

As described above, when the pulverized coal is produced, the inner temperature of the mill 40 is approximately 80 to 100 ° C, and the vertical tube 30 is heated, and the coarse coal 11 containing water is cooled in a vertical tube 30 and accumulate and accumulate the water in the vertical pipe 30, thereby failing to smoothly supply the coal 11 to the mill 40.

In the related art, when the vertical pipe 30 is closed as described above, after the pulverized coal pulverizing mill is stopped, the operator manually crushes the coal adhered by using a long steel pipe or the like, and spraying the washing water to fix the vertical pipe 30 Coal has been removed.

However, in the above-described conventional method, since the worker removes the coal manually fixed after stopping the pulverized coal crushing mill, it takes a long time to work, resulting in a problem in production of pulverized coal.

In addition, since the worker manually removes the coal adhered, there was a risk of a safety accident and a gas poisoning accident due to the sudden collapse of the fixed coal.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a device for preventing vertical plugging of pulverized coal pulverized wheat which can automatically crush and clean coal adhering to a vertical pipe of pulverized coal crushing mill.

The object is installed in a pulverized coal pulverized mill comprising a coal hopper, a coal feeder and a vertical pipe for transporting the coal of the coal hopper, and a mill for crushing coal transported by the coal feeder and the vertical pipe. It is to be installed in the interior of the vertical pipe to form an inner tube, divided pipe body is formed to be divided into a plurality, a crushing plate is installed to be attached to the inner surface of each divided pipe body, and to be connected to each of the crushing plate It is provided by a moving shaft which is installed to pass through the divided pipe and the vertical pipe in sequence, a cylinder connected to each of the moving shaft to slide the moving shaft, and a vibration sensor provided in the vertical pipe.

In addition, the shredding plate is provided with a circular plate, the center of the shredding plate may be formed in a conical shape protruding to the inner side of the vertical tube.

The guide plate may further include a guide plate installed to be perpendicular to the movement axis in an outer circumferential region of the movement axis and a contact sensor installed on the outer surface of the guide tube so as to be positioned on the movement path of the guide plate .

The electromagnet may include a guide shaft integrally formed with the partitioning tube and configured to surround the moving shaft, an electromagnet installed to surround an outer circumferential region of the guide shaft and fixing or releasing the guide shaft according to power application, And a plurality of elastic members provided between the divided tubular body and the vertical tubular member to push the divided tubular body toward the inside of the vertical tubular body.

The apparatus may further include a plurality of spray nozzles provided on an inner surface of the divided tube body, and a wash water supply source connected to the spray nozzles to supply wash water.

Thus, by automatically crushing and cleaning the coal adhering to the vertical pipe of the pulverized coal pulverized mill, it is possible to shorten the working time for removing the coal adhered to the vertical pipe, thereby preventing generation of pulverized coal production, There is an effect that a safety accident and a gas poisoning accident can be prevented in advance because the fixed coal is not removed.

Figure 1 is a diagram of the prior art.
FIG. 2 is a side cross-sectional view showing that a vertical tube clogging preventing device of a pulverized coal crushing mill according to the present invention is installed in a vertical tube.
3 is a plan sectional view showing a device for preventing vertical barriers in a pulverized coal pulverized mill according to the present invention installed in a vertical pipe.
4 is an enlarged cross-sectional view of a vertical tube clogging prevention device of a pulverized coal pulverized mill according to the present invention.
FIGS. 5 to 7 are operational views of an apparatus for preventing vertical barriers of pulverized coal pulverized mills according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

As shown in FIGS. 2 to 4, the apparatus for preventing vertical barriers of pulverized coal pulverized wheat mill according to the present invention comprises a divided tube body 100 installed inside a vertical tube 30 to form an inner tube, A shredding plate 200 installed so as to be attached to the inner surface of each of the divided tubular bodies 100 and installed so as to be connected to the shredding plates 200 to pass through the divided tubular body 100 and the vertical tubular 30 in order A cylinder 220 connected to each of the moving shafts 210 so as to slide the moving shaft 210 and a vibration sensor 300 installed in the vertical tube 30.

First, the split pipe 100 is a 1 / 3-circular plate having a predetermined thickness, and the three pipes 100 are connected to each other to form an inner pipe. Here, the partitioning tube 100 is described as a 1/3 circular plate, but it is not limited thereto, and if it is connected to each other to form an inner tube, it may be formed in various shapes such as 1/4 and 1/5 circular shapes . In the present embodiment, the number of the divided tubular bodies 100 is three in the longitudinal direction of the vertical tubular member 30, but the present invention is not limited to this. The length of the vertical tubular member 30 or the height of the divided tubular member 100 May be formed in various numbers.

On the other hand, the shredding plate 200 is a circular plate having a predetermined thickness and is provided so as to abut the inner surface of each of the divided tubular bodies 100. In this case, the diameter of the shredding plate 200 is formed to be smaller than the height of the divided tube body 100, and the center portion of the shredding plate 200 is a conical shape protruding toward the inner side of the vertical tube 300 . The reason why the center portion of the crush plate 200 is formed in a conical shape as described above is to more easily remove the coal adhered to the divided tubular body 100.

One end of the movable shaft 210 is connected to the rear surface of each shredding plate 200, that is, the outer side of the vertical tube 30 (the right side in FIG. 4) The tubular body 100 and the vertical tube 30 in this order. A cylinder 220 is connected to the other end of the moving shaft 210 to slide the moving shaft 210 horizontally.

The vibration sensor 300 is a general vibration sensor for detecting vibration, and is installed on the outer surface of the vertical pipe 30 to sense the vibration of the vertical pipe 30 generated as the coal falls.

On the other hand, the vertical tube blockage preventing device of the pulverized coal pulverized mill according to the present invention is installed on the outer peripheral region of the moving shaft 210 perpendicular to the moving shaft 210 and the outer surface of the vertical tube 30 Is installed in, but further comprises a contact sensor 310 is installed to be located on the movement path of the guide plate 230.

The guide plate 230 is a plate having a predetermined thickness and is vertically coupled to an upper portion of one outer circumferential region of the moving shaft 210.

The contact sensor 310 is a sensor for sensing general contact, and is disposed on the outer surface of the vertical tube 30, and is positioned on the movement path of the guide plate 230.

The guide plate 230 and the contact sensor 310 are configured to stop the operation of the cylinder 220. When the cylinder 220 is operated and the guide plate 230 contacts the contact sensor 310, 220 are stopped. That is, the guide plate 230 and the contact sensor 310 are configured to set the distance by which the shredding plate 200 is advanced.

The apparatus for preventing vertical blockage of pulverized coal pulverized wheat according to the present invention comprises a guide shaft 110 integrally formed with the divided tubular body 100 and surrounding the moving shaft 210, An electromagnet 120 installed to surround the region and fixed or unfixed by the guide shaft 110 depending on whether the power is applied or not and an electromagnet 120 installed between the divided tubular body 100 and the tubular body 30 to divide the tubular body 100 And a plurality of elastic members (130) for pushing toward the inside of the vertical tube (30).

The guide shaft 110 is a hollow cylindrical bar having an insertion hole corresponding to the diameter of the moving shaft 210 at the center thereof and is integrally formed on the rear surface of the divided tube 100, Is inserted. That is, the guide shaft 110 is formed so as to surround the moving shaft 210, thereby guiding the moving path of the moving shaft 210. At this time, a slide groove 111 is formed on the guide shaft 110 so that the guide plate 230 can be moved.

The electromagnet 120 is a general electromagnet which is magnetized according to whether power is applied or not. The electromagnet 120 has a hollow corresponding to the diameter of the guide shaft 110 at its center, and the guide shaft 110 is inserted into the hollow. When the power is applied, the electromagnet 120 is magnetized to fix the guide shaft 110 formed of a metallic material. When the power is shut off, the electromagnet 120 releases the fixing of the guide shaft 110.

The elastic member 130 is provided by a common coil spring or the like and is disposed between the divided tubular body 100 and the vertical tubular member 30 to push the divided tubular body 100 toward the inside of the straight tubular member 30.

A plurality of spray nozzles 140 are formed on the inner surface of the divided tubular body 100. The spray nozzles 140 receive the wash water by the wash water supply line 141, .

Hereinafter, with reference to Figs. 4 to 7, the operation of the vertical tube clogging prevention device of the pulverized coal crusher according to the present invention will be described in detail.

4 is a view illustrating a state in which the present invention is not yet operated. In this state, the vibration sensor 300 senses the vibration of the vertical tube 30 and attaches coal to the inner surface of the divided tube body 100 Is detected. Generally, when the coal falls, the falling coal collides with the divided tubular body 100 to generate vibration. When the vibration is generated as described above, the inside of the vertical tube 30 is not blocked. However, if the vibration is not detected, the inside of the vertical tube 30 becomes clogged, so that the present invention operates.

5, if the vibration detected by the vibration sensor 300 is not sensed, the cylinder 220 is operated to advance the shredding plate 200 to the inside of the vertical tube 30 . Since the crush plate 200 is formed in a conical shape at its central portion, it is possible to crush the coal which is fastened more easily.

At this time, the shredding plate 200 advances until the guide plate 230 contacts the contact sensor 310. That is, the advance distance of the shredding plate 200 is determined by the guide plate 230 and the contact sensor 310.

6, when the electromagnet 120 is powered off, the fixing of the guide shaft 110 is released and the divided tubular body 100 is moved by the elastic force of the elastic member 130 to the vertical tube 30 As shown in Fig. When the divided tubular body 100 advances as described above, the coal partially broken by the shredding plate 200 collapses due to the advancement of the divided tubular body 100, and falls to the lower portion of the vertical tubular 30.

7, the washing water is sprayed to the spray nozzle 140 to clean the inside of the vertical pipe 30. [0064] As shown in FIG.

As described above, when the coal adhered to the inside of the vertical tube 30 is removed and the washing is completed, the present invention is returned to the state of FIG.

4, the cylinder 220 is operated to move the shredding plate 200 to the outside of the vertical tube 30. At this time, the divided tubular body 100 which is in contact with the crushing plate 200 is also moved to the outside of the vertical tubular body 30. When the divided tubular body 100 is moved, power is applied to the electromagnet 120, So that it is reduced to the state shown in FIG.

The apparatus for preventing vertical blockage of pulverized coal pulverized wheat according to the present invention constructed as described above is capable of automatically pulverizing and washing the coal adhering to the vertical pipe 30 of the pulverized coal pulverized wheat, It is possible to shorten the working time for removing the coal so as not to cause any disruption in the production of pulverized coal and to prevent the accident of accident and gas poisoning because the operator does not remove the coal which is fixed manually.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

10: Coal Hopper 11: Coal
20: Stirrer 30: Vertical tube
40: Mill 50: Riser tube
100: split tube 110: guide shaft
111: slide groove 120: electromagnet
130: elastic member 140: jet nozzle
141: wash water supply line 200: crush plate
210: moving shaft 220: cylinder
230: guide plate 300: vibration sensor
310: contact sensor

Claims (5)

A coal hopper, a coal charger and a vertical pipe for transferring the coal of the coal hopper, and a mill for crushing the coal transferred by the charger and the vertical pipe,
A split pipe body installed inside the vertical pipe to form an inner pipe, the split pipe body being divided into a plurality of pipes;
A fracture plate installed to be attached to an inner surface of each of the divided tube bodies;
A moving shaft installed to be connected to each of the crushing plates, the moving shaft being installed to penetrate the divided tubular body and the vertical tubular in order;
A cylinder connected to each of the moving shafts and slidably moving the moving shafts;
And a vibration sensor installed in said vertical tube. The method of claim 1,
The shredding plate is provided with a circular plate,
Wherein the center portion of the crushing plate is formed in a conical shape protruding toward the inside of the vertical tube. The method of claim 1,
A guide plate installed perpendicularly to the movement axis in one circumferential region of the movement axis;
Further comprising: a contact sensor installed on an outer surface of the vertical tube, the contact sensor being disposed on a moving path of the guide plate. The method of claim 1,
A guide shaft integrally formed with the partitioning tube and configured to surround the moving shaft;
An electromagnet installed to surround one outer circumference of the guide shaft and fixing or releasing the guide shaft according to power application;
Further comprising a plurality of elastic members provided between the divided tubular body and the vertical tube for urging the divided tubular body toward the inner side of the vertical tubular body. The method of claim 1,
A plurality of injection nozzles provided on an inner surface of the division tube;
And a washing water supply source connected to the injection nozzle to supply wash water.

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