KR20030034765A - Device for discharing dust of dust collecting duct in electric furnace - Google Patents

Abstract

PURPOSE: An apparatus for discharging dust of a dust collecting duct of an electric furnace is provided to remove dust collected in the dust collecting duct not so as for a worker to inhale dust inside the dust collecting duct. CONSTITUTION: An apparatus includes a centrifugal separating tube(10) integrally connected to an inlet of a dust collecting duct(140), and forming a volute pipe in vertical direction; and a collecting part connected to a lower part of the centrifugal separating tube to collect falling duct. Flow rate of dust decreases in the centrifugal separating tube so that heavy dust falls down to bottom of an inflection part of the centrifugal separating tube.

Description

Device for discharing dust of dust collecting duct in electric furnace

The present invention relates to a dust collection duct of an electric furnace, and more particularly to a dust discharge device for removing dust accumulated in the dust collection duct.

In general, an electric furnace is a furnace for heating and dissolving a metal or an alloy by applying electricity to generate high heat arc heat by dissolving scrap iron in an electric furnace by applying a high current to three electrode rods vertically installed above the loop.

At this time, a large amount of waste gas, dust, slag, etc. are generated in the dissolution process, and the dust generated by the gas port ring and the dust collecting elbow is installed at one side of the ceiling of the electric furnace to collect dust from the electric furnace. It is transferred to the dust collector through.

However, in the conventional electric dust collector duct, the front end portion is installed in a horizontal tube outside the soundproof wall, so that dust and slag having large particles or high specific gravity do not pass through the horizontal dust collecting duct, but continue to accumulate on the bottom surface of the duct during the dust collecting process. In addition, the dust accumulation accumulates in this way, the inside of the dust collecting duct is blocked, and the efficiency of dust collection is reduced.

In addition, in order to solve the above problem, conventionally, after the operation was suspended until the dust collecting duct was naturally cooled, the worker went directly into the dust collecting duct through the manhole to remove dust, but this work method Since there is a high temperature in an enclosed space there is a problem that a safety accident such as harmful gas poisoning and fall disaster of the worker occurs.

In addition, since the worker has to remove the dust by the manpower has a problem that the productivity is reduced as the working time is increased.

Accordingly, the present invention has been made to solve the problems of the prior art, an object of the present invention is to provide a dust discharge structure of the dust collecting duct that can remove the dust accumulated in the dust collecting duct directly without entering the dust collecting duct.

1 is a partially cutaway perspective view showing an electric furnace in which a dust collecting duct dust discharge device according to the present invention is installed;

Figure 2 is an exploded perspective view showing a part of the dust collecting duct dust discharge apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10: centrifuge tube 11: lug

20: discharge pipe 21: bellows

30 damper disk 31 arm

32: Rod 33: Weight

34: support bar

In order to achieve the above object, the present invention is characterized in that the inlet side of the electric dust collecting duct is installed in the centrifuge tube which can induce the natural fall of the large particles or high specific gravity while the flow rate is reduced when passing the dust. .

In this case, the centrifuge tube has a structure in which the floating duct is inverted by 360 ° or more to form a whirlwind tube, thereby causing mutual collisions between the floats, thereby collecting more floats to the bottom of the centrifuge tube.

In addition, the present invention further includes a collecting unit for collecting the dust that is connected to the bottom of the centrifuge tube is naturally falling.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a partially cutaway perspective view illustrating an electric furnace in which a dust collecting duct dust discharge device according to the present invention is installed, and FIG. 2 is an exploded perspective view showing a part of the dust collecting duct dust discharge device according to the present invention.

According to the drawings, the electric furnace 100 is provided with a gasket ring 120 for discharging dust on the roof 110, the dust collecting elbow 130 and the dust collecting duct 140 in succession to the gasket ring 120 ) Is installed in communication, and the dust is discharged to the dust collector.

Wherein the present invention is integrally connected to the mouth side of the dust collecting duct 140 is rotated 360 degrees in the longitudinal direction to form a whirlwind tube form a centrifuge tube 10, the lower portion of the centrifuge tube 10 is dropped It comprises a collecting unit for collecting the dust to be made.

The centrifuge tube 10 is not limited to a 360-degree rotated form can be rotated two or more times.

The dust discharged from the electric furnace 100 along the centrifugal tube 10 in the longitudinal direction as described above collides with each other as the flow rate decreases in the centrifuge tube 10 so that the dust has a large specific gravity ( 10) falls to the bottom of the inflection section.

In addition, more preferably, the centrifuge tube 10 is expanded in the inflection portion so as to increase the cross-sectional area to lower the flow rate.

That is, in FIG. 1, the inlet cross-section of the left side and the right side of the centrifuge tube 10 are the same, but the inner cross-sectional area of the center lower portion is larger than the inlet and the outlet so that the fluid passes through the center lower portion of the centrifuge tube 10 and then the outlet. When induced to the side, it induces weakening of inertia force due to the decrease in flow rate, and takes the form of a spiral whirlwind tube so that large or heavy particles are subjected to centrifugal force toward the outside of the inner wall of the centrifuge tube 10 so that the fluid passes through On the way, the dust is collected by forming two complex structures that naturally fall along the lower right inner wall of the centrifuge tube 10 and are automatically collected.

The left and right lower portions of the centrifuge tube 10 are fixed to the support base 12 and the support stand 13 by bolting so that the centrifuge tube 10 is supported, and the wire rope is attached to the upper lug lug 11. Insert (not shown) to easily replace the centrifuge tube (10) by bolt disassembly if necessary.

On the other hand, the collecting unit is installed to be rotated by the weight of the dust pipe stacked horizontally placed inside the discharge pipe 20 and the discharge pipe 20 installed below the centrifuge tube 10, damper disk 30 Arm 31, which is integrally connected to the discharge pipe 20 and protrudes outward, the weight 33 is installed on the outer end of the arm 31, and fixed to the discharge pipe 20 and extends toward the arm 31 And a support bar 34 for supporting the arm 31 in a horizontal state.

The discharge pipe 20 is integrally installed at the lower portion of the inflection portion and guides the dust having a large specific gravity falling from the inflection portion, and the container is connected to the lower end of the discharge tube 20 to collect dust and conveniently transport. In addition, the bellows 21 is inserted between the lower end of the discharge pipe 20 and the container so that dust does not leak to the outside of the discharge pipe 20 and the discharge pipe 20 does not transmit vibration to the container.

The damper disk 30 is installed to be rotatable on one side of the discharge pipe 20, the arm 31 is connected to one side is installed and the rotation shaft is inserted into the connection portion of the damper disk 30 and the arm 31 discharge pipe 20 The damper disk 30 is rotated in the discharge pipe 20 about the rotation shaft by being coupled to the side.

The weight 33 has a structure that can adjust the weight, for this purpose, the weight 33 is composed of a weight with a hole formed in the center, the end of the arm 31 is coupled by a pin and the center of the weight 33 A rod 32 fitted through a hole formed in the rod 32 is installed, and a thread 35 is formed at the lower end of the rod 32 to fasten the bolt 36 to support and support the weight fitted to the rod 32.

Therefore, the dust weight at the time when the damper disk 30 is opened is determined according to the number of weights inserted into the rod 32 and supported by the bolt.

In addition, since the discharge pipe 20 communicates with the dust collecting duct 140 inside the discharge pipe 20, a negative pressure is formed to prevent the damper disk 30 from rotating.

Referring to the operation of the dust discharge structure of the dust collecting duct 140 according to the present invention as follows.

When the raw material is charged into the electric furnace 100, the loop 110 is rotated to be positioned above the electric furnace 100, and the dust collector is sucked in to operate the dust collector.

The dust passes through the gasket ring 120 and the elbow 130 formed at one side of the loop 110 to reach the dust collecting duct 140.

The dust reached to the dust collecting duct 140 passes through the centrifugal pipe 10 installed at the entrance of the dust collecting duct 140, and the dust is reduced by the combined action such as the centrifugal force and the flow rate decrease due to the reduction of the cross-sectional area of the outlet side of the centrifugal pipe 10. Large particles or heavy dust and slag will fall.

As such, the dust dropped to the bottom of the centrifuge tube 10 is guided through the discharge pipe 20 connected to the centrifuge tube 10 to be accumulated on the upper surface of the damper disk 30.

When dust is accumulated on the upper surface of the damper disk 30 continuously, its own weight is increased to overcome the weight of the weight 33 and the damper disk 30 is rotated about the rotational axis.

When the damper disk 30 is rotated, the dust accumulated on the upper surface of the damper disk 30 falls to the lower portion of the discharge pipe (20).

At this time, if the dust falls, the weight of the weight 33 becomes heavier, so that the damper disk 30 is returned.

In addition, the dropped dust is dropped along the discharge pipe 20, passing through the bellows 21 is collected in the container 40 is discharged to the outside.

As described above, the dust discharge structure of the dust collecting duct according to the present invention can remove dust accumulated in the dust collecting duct from time to time, thereby maintaining the area of the dust collecting duct, thereby maintaining the dust collecting efficiency.

In addition, since small children do not need to directly enter a high-temperature sealed space to remove dust, safety accidents such as poisonous gas poisoning and a fall disaster are prevented.

In addition, since the dust is removed from time to time, the productivity is improved because the work time for removing dust in the dust collecting duct is not required.

Claims (3)

In electric dust collection duct, The dust discharge apparatus of the electric dust collecting duct, characterized in that the centrifuge tube is installed at the mouth of the dust collecting duct to induce a natural fall of the floating particles having a large or high specific gravity while the flow rate is reduced. According to claim 1, wherein the centrifuge tube is bent 360 ° in the longitudinal direction to form a spiral whirlwind tube, the dust discharge device of the electric dust collecting duct having a structure in which the inner diameter of the bent portion is expanded relative to the entrance and exit. The damper disk and the damper disk according to claim 1 or 2, which are installed under the centrifugal separation tube so as to be rotated by the weight of the discharge pipe through which dust is discharged, and the dust accumulated on the inner side of the discharge pipe. A collecting part for collecting dust, including an arm connected to protrude outside the discharge pipe, a weight installed at an outer end of the arm, and a support bar fixed to the discharge pipe and extending toward the arm to support the arm in a horizontal state. Dust exhaust device of the electric dust collector duct, characterized in that it further comprises.