KR100636394B1 - Dust cleaner of a cooling water pipe in a dust collector - Google Patents

Abstract

An equipment for preventing dust from being accumulated in the cooling water pipe of a dust collector is provided to prevent accumulation of dust in the cooling water pipe by periodically or consistently cleaning the interior of a cooling water pipe through which dust collecting water moves. An equipment for preventing dust from being accumulated in a cooling water pipe of a dust collector comprises: an extension pipe(12) extending straightly from the cooling water pipe to an outer side of the cooling water pipe; a header formed in a way that the header has a long length along the center of the cooling water pipe, wherein the header has cleaning water spray nozzles(22) arranged along a spiral path on an outer surface thereof in such a manner that the cleaning water spray nozzles are spaced from one another in a predetermined distance; a screw shaft(30) which extends from the header and is positioned within the extension pipe, and of which an outer circumferential surface is formed in a spiral shape; a screw shaft driving means for driving the screw shaft to rotate and move forward and backward the screw shaft; a cleaning water supply line(40) connected to the header to supply cleaning water into the header; sensors(13a,13b) connected to the header to provide the information to the screw shaft driving means by sensing forward and backward movement locations of the header; and sealing members(50,52) installed in front and rear of the cleaning water supply line to limit movement of cleaning water, wherein the header has a cleaning water inflow hole(23) formed between the sealing members to receive cleaning water.

Description

Dust collector of cooling water pipe in dust collector {Dust cleaner of a cooling water pipe in a dust collector}

1 is a schematic configuration diagram showing a general dust collector;

Figure 2 is a partial cutaway perspective view showing the dust accumulation prevention apparatus according to the present invention installed in the cooling water pipe of the dust collector;

3 is a detailed view of main parts of the present invention.

※ Explanation of symbols about main part of drawing ※

10: cooling water piping 12: extension piping

13a, 13b: sensor 20: header

22: washing water spray nozzle 23: washing water inlet hole

24: striker 30: screw shaft

40: washing water supply line 50, 52: sealing member

60: screw shaft drive means

The present invention relates to a dust accumulation preventing device for cooling water pipe of a dust collector.

In general, dust collecting facilities for collecting dust are provided in places where a large amount of dust is generated, such as steel mills.

1 shows a dust collecting facility for removing the dust contained in the flue gas generated in the converter of the steel mill, the high temperature flue gas containing a large amount of dust generated during the blowing of the converter 100 is cooled by the suction force of the blower 110 Cooling through, the primary dust collecting operation to collect the dust contained therein with the cooling of the exhaust gas by the cooling water sprayed through the nozzle in the primary dust collecting unit 120 is performed.

Then, the secondary dust is collected in the secondary dust collecting unit 130 to clean the exhaust gas and then discharged to the stack 140 or sent to a storage tank (not shown) and used for recycling.

In addition, the dust collection, which is a mixture of cooling water and dust formed in the dust collecting process of the primary dust collecting unit 120, is collected in a seal tank 160 installed at the lower portion of the primary dust collecting unit 120, and collected in the seal tank 160. The dust collection will go through a separate treatment process.

In such a dust collector, the dust-collected dust used in the secondary dust collector 130 is used in the primary dust collector 120 and its dust concentration is lower than the dust concentration of dust-containing dust collected, and thus the secondary dust collector The dust collector discharged from the 130 is collected in the lower duct 132 of the secondary dust collector 130 and serves as the coolant supplied to the primary dust collector 120 through the cooling water pipe 134 having the pump 136. do.

However, the dust collected through the coolant pipe 134 still contains dust, which is continuously accumulated in the coolant pipe 134 and eventually reduces the flow rate of the dust collected through the coolant pipe 134. In the worst case, of course, the cooling water pipe 134 is closed.

Thus, when dust accumulates in the cooling water pipe 134 and the flow rate of the cooling water passing therethrough drops, the level of the dust collection discharged to the secondary dust collecting unit 130, that is, the level is abnormally high, and the secondary dust collecting unit 130 is collected. Water flows into the horizontal duct 170 that is the exhaust gas discharge passage and the ID fan 180 that is responsible for the exhaust gas blowing, which causes a problem that dust collection is not performed properly.

Conventionally, the flow rate of the cooling water supplied to the primary dust collector 120 by the pump 136, that is, the flow rate of the dust collector discharged and recycled from the secondary dust collector 130 is smaller than the preset value, or the secondary dust collector 130 Cleaning the inside of the pipe where the level of dust collection discharged from) is too high or dust may accumulate during regular repairs and cause problems.

However, whenever such a phenomenon occurs, it is not desirable to spend a lot of time and labor to clean the inside of the pipe, and it was an operation obstacle that prevents the stable operation of the facility.

Accordingly, the present invention is to solve the above-mentioned problems, the dust accumulation device of the cooling water pipe dust collection equipment to prevent dust accumulation by periodically or continuously cleaning the inside of the pipe to which the dust collection is moving It is about.

As a technical configuration for achieving the above object, the present invention is a device for preventing the accumulation of dust in the cooling water pipe of the dust collector, an extension pipe extending in a line with the cooling water pipe on the outside of the cooling water pipe. And a header having a long length along the center of the cooling water pipe, the header having a washing water spray nozzle disposed on the outer surface at a predetermined interval along a spiral path, and extending into the header and positioned inside the extension pipe. And a screw shaft having an outer circumferential surface in a spiral shape, screw shaft driving means for driving the screw shaft to rotate, move forward and backward, a washing water supply line connected to supply the washing water to the header, and the forward and backward positions of the header. Before and after the sensor and the washing water supply line connected to detect the sensor and provide the information to the screw shaft drive means It includes a sealing member which limits the installation movement of the washing water is, and on the side; The header is provided by the dust accumulation prevention device of the cooling water pipe of the dust collecting facility, characterized in that having a washing water inlet hole formed to receive the washing water between the sealing members.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a partially cutaway perspective view showing the dust accumulation preventing device according to the present invention installed in the cooling water pipe of the dust collecting facility, and FIG. 3 is a detailed view of the main part, wherein the dust collecting material discharged from the secondary dust collecting part of the dust collecting facility is duct 132. It is supplied to the cooling water pipe 10 through, the dust accumulation prevention device is installed in this cooling water pipe (10).

The apparatus of the present invention has a pipe-shaped header 20 installed to have a long length along the center of the cooling water pipe 10.

The header 20 is provided with a plurality of washing water spray nozzles 22 for spraying the washing water at a high pressure, and the washing water spray nozzle 22 sprays the cooling water in the outer diameter direction of the header 20. Spraying cooling water toward the tip of the header 20.

In addition, the washing water spray nozzle 22 is disposed on the outer surface of the header 20 to have a predetermined interval along the path of the spiral.

In addition, the header 20 extends to the outside of the cooling water pipe 10, and the extension part is formed with a striker 24 protruding continuously in the circumferential direction on the outer surface as shown in FIG. 3. .

In addition, the cooling water pipe 10 is formed with an extension pipe 12 having an inner diameter of a predetermined size to accommodate the extension of the header 20, the inner diameter of the extension pipe 12 is the header 20 The striker 24 is set so as not to be prevented from rotating, moving forward and backward, and the extension pipe 12 has a forward detecting sensor 13a for detecting whether the striker 24 has advanced to a preset position, and A reverse detection sensor 13b is installed to detect whether the vehicle has retracted to the set position.

The extension portion of the header 20 is integrally formed with a screw shaft 30 having a spiral outer circumferential surface, the screw shaft 30 is rotated, moved forward, and backward by the screw shaft drive means (60) To be driven.

The screw shaft drive means 60 may take various forms.

For example, the screw shaft 30 may be directly connected to the motor and rotated, and the motor may be slidably connected in the longitudinal direction of the extension pipe 12. According to this structure, when the motor is operated, the screw shaft ( 30) can also be rotated forward and backward as it is rotated.

As another example, the motor itself may have a structure in which the screw shaft 30 rotates and simultaneously moves forward and backward.

In addition, the header 20 is supplied with the washing water at a predetermined pressure through the washing water supply line 40, and the structure in which the washing water of the washing water supply line 40 is connected to the header 20 is connected to the header 20. It is possible to do so as long as it does not interfere with the rotation and the forward and backward movements.

That is, the washing water supply line 40 is connected to the extension pipe 12 to supply the washing water to the extension pipe 12, but the installation position of the washing water supply line 40 is the washing water forward detection sensor 13a. ) Is set between the area where the washing water injection nozzle 22 is installed and the area where the washing water supply line 40 is installed and the area where the forward detecting sensor 13a is installed. A sealing member 50 is installed to block the cleaning water supplied from the line 40 from flowing into the sensors 13a and 13b, and a portion at which the cleaning water supply line 40 is installed and the cleaning water spray nozzle ( The sealing member 52 for blocking the washing water supplied from the washing water supply line 40 is not directly introduced into the cooling water pipe 10 without passing through the washing water spray nozzle 22 between the portions 22). Is installed. In addition, the header 20 is provided with a washing water inflow hole 23 through which washing water flows into a portion located between the sealing members 50 and 52, thereby cleaning the water supplied from the washing water supply line 40. It receives the water and has a configuration to spray through the washing water injection nozzle (22). Of course, the sealing member has a shape that does not interfere with the rotation and forward and backward operations of the header 20 while blocking the gap between the inner surface of the extension pipe 12 and the outer surface of the header 20.

The operation of the present invention having the above configuration will be described.

The screw shaft drive means 60 is operated for a predetermined time at predetermined intervals or continuously operated.

When the screw shaft 30 is rotated, moved forward and reversed by the operation of the screw shaft driving means 60, the header 20 integrally connected to the screw shaft 30 rotates at the center of the cooling water pipe 10. At the same time, the cooling water pipe 10 is moved forward and backward in the longitudinal direction.

In this case, the forward and backward of the screw shaft 30 is determined by the forward detecting sensor 13a and the backward detecting sensor 13b for generating an electrical signal by detecting the forward and backward states of the header 20. When the screw shaft 30 is rotated in one direction by the screw shaft driving means 60 and moves a predetermined distance, the forward detecting sensor 13a detects the striker 24 to generate a signal.

By this signal, the screw shaft driving means 60 operates to rotate the screw shaft 30 in the opposite direction to the reverse direction. When the screw shaft 30 is retracted for a predetermined distance, the striker at the reverse detecting sensor 13b. (24) Sense and generate a signal.

When the screw shaft 30 rotates forward and backward in this manner, the washing water is supplied through the washing water supply line 40, and the washing water is cooled through the washing water spray nozzle 22 of the header 20. By spraying the inside of the 10) to clean the cooling water pipe 10, thereby preventing the accumulation of dust in the cooling water pipe (10).

As described above, according to the dust accumulation preventing device of the cooling water pipe of the dust collecting facility according to the present invention, the cleaning water is periodically or continuously sprayed into the pipe to prevent the accumulation of dust in the pipe.

When dust is prevented from accumulating inside the pipe of the dust collector, stable operation of the facility is possible.

Claims (3)

An apparatus for preventing dust from accumulating in the cooling water pipe of the dust collecting equipment, the extension pipe 12 extending in line with the cooling water pipe on the outside of the cooling water pipe 10, and long along the center of the cooling water pipe. A header 20 having a washing water spray nozzle 22 formed to have a length and arranged at a predetermined interval along a spiral path on an outer surface thereof, and extending to the header 20 to form an inner portion of the extension pipe 12. A screw shaft 30 having an outer circumferential surface having a spiral shape, a screw shaft driving means 60 for driving the screw shaft 30 to rotate, move forward and backward, and washing water to the header 20. Sensor 13a (13b) and the washing water connected to detect the forward and backward positions of the washing water supply line (40) and the header (20) connected to supply and provide the information to the screw shaft drive means (60). Before the supply line 40 is installed, A sealing member (50) (52) for limiting the movement of the washing water; The header 20 has a washing water inlet hole 23 formed to receive the washing water between the sealing members (50) (52), the dust accumulation prevention device of the cooling water pipe of the dust collector. delete The apparatus of claim 1, wherein the coolant spray nozzle (22) is installed at the tip of the header (20).

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