KR101225134B1 - Apparatus for Collecting of Steel Dust - Google Patents

Abstract

An iron dust collecting device is disclosed. Iron dust collecting device according to one aspect of the present invention, the sintered flue gas discharge path is formed therein, the duct is formed in communication with the discharge path on the side, through the opening and closing portion to selectively cover the opening of the duct, through the opening It is installed in the duct to allow access, and includes a magnetic force collecting portion having a magnetic member for collecting iron dust from the sintered exhaust gas by using a magnetic force.

Description

Apparatus for Collecting of Steel Dust}

The present invention relates to an iron dust collecting device, and more particularly, to an iron dust collecting device for selectively collecting iron dust in the sintered flue gas.

Iron ore usually refers to ore containing 30 to 70% of iron, and good iron ore is rich in iron, low in harmful elements such as sulfur, phosphorus and copper and of constant size. By the way, high-grade iron ore is not very common and the quality, composition and shape are very heterogeneous depending on the country of origin.

Therefore, iron ore is difficult to put directly into the blast furnace, so the quality is evenly subjected to the sintering process (making iron ore and powder to a certain size).

The sintering process consists of putting iron ore into the sintering furnace and applying heat from a heating furnace to sintered mass and crushing. In this process, a large amount of fall and dust are generated.

Accordingly, the sintered exhaust gas contains a large amount of iron dust generated in the sintering process.

Embodiment of the present invention is to provide an iron dust collecting device that can selectively collect the iron dust in the sintered exhaust gas, recovering the iron which is a valuable metal contained in the sintered exhaust gas.

Iron dust collecting device according to an aspect of the present invention, the sintered exhaust gas path is formed therein, the duct is formed in the side communicating with the discharge path, the opening and closing portion for selectively covering the opening of the duct, It is installed in the duct to allow access through the opening, and includes a magnetic force collecting portion having a magnetic member for collecting iron dust in the sintered exhaust gas by using a magnetic force.

The duct may bypass a portion of the sintered flue gas on a flow path of the sintered flue gas, and include a bypass conduit in which the opening is formed, and the opening and closing portion and the magnetic collecting part may be installed in the bypass conduit.

The iron dust collecting device is installed in the bypass conduit, and may further include a valve for controlling the opening and closing of the bypass conduit.

The iron dust collecting device may further include an actuator for operating the valve.

The magnetic force collecting portion is disposed to face each other so that the sintered exhaust gas passes therebetween, and supports a pair of electromagnets and a pair of electromagnets capable of adjusting magnetic force, and are rotated in the duct to allow entry and exit into the opening. It may include a supporting member that is possibly installed.

The iron dust collecting device may further include a collecting container which covers the support member and the electromagnet at the time of collecting the iron dust and is detachably installed on the magnetic collecting part.

The iron dust collecting device may further include a weight measuring unit for weighing the collected iron dust.

The weight measuring unit may include a piezoelectric sensor for measuring the pressure due to the load of the collected iron dust.

The iron dust collecting device may further include a display unit that operates when the weight of the collected iron dust exceeds a predetermined reference value.

According to an embodiment of the present invention, the utilization of resources can be improved by recovering iron, which is a valuable metal, from the sinter exhaust gas discharged from the sintering process.

In addition, by reducing the amount of dust in the sintered flue gas, it is possible to miniaturize the dust collector and extend its life.

1 is a view showing the configuration of the iron dust collecting device according to an embodiment of the present invention.
2 and 3 are views illustrating a magnetic force collecting part in the iron dust collecting device according to an embodiment of the present invention.

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

1 is a view showing the configuration of the iron dust collecting device according to an embodiment of the present invention.

Iron dust collecting device according to an embodiment of the present invention may include the duct 10, opening and closing portion 15 and the magnetic force collecting portion 20 to collect the iron dust in the sintered exhaust gas.

The duct 10 forms a path for discharging the sintered flue gas generated in the sintering process, and the opening 12a is provided at the side surface of the duct 10 to allow the magnetic collecting part 20 to be described later to enter and exit the duct 10. Formed.

In particular, the duct 10 of the present embodiment includes a bypass conduit 12 for bypassing a portion of the sintered flue gas on the flow path of the sintered flue gas, thereby collecting iron dust without interrupting the process of discharging the entire sintered flue gas. The necessary sintered flue gas may pass through the magnetic collecting part 20.

As shown in FIG. 1, in this embodiment, the duct 10 has a hollow pipe shape, and a path for transferring the sintered exhaust gas to the dust collector 5 is formed inside the duct 10. In addition, the duct 10 includes a bypass conduit 12 for branching a part of the sintered flue gas, and an opening 12a is formed at a side surface of the bypass conduit 12 and a magnetic collecting part is adjacent to the opening 12a. 20 is installed.

At this time, the bypass conduit 12 may be provided with valves 32 and 34 for adjusting the opening and closing of the bypass conduit 12. Here, the valve includes various known valves.

As shown in Fig. 1, butterfly valves are provided at both ends of the bypass conduit 12 of this embodiment. Since the butterfly valve rotates the disc to control the opening and closing of the conduit, the butterfly valve can freely control whether or not the sintered flue gas flows into the bypass conduit 12. At this time, an actuator such as a solenoid for operating the valves 32 and 34 may be further used to facilitate the operation of the valves 32 and 34.

The opening and closing portion 15 is a portion for opening and closing the opening 12a of the duct 10 as needed, the opening and closing portion 15 of the present embodiment selectively covers the opening 12a of the duct 10 to Adjust the opening and closing.

As shown in FIG. 1, the opening and closing portion 15 of the present embodiment includes a cover member coupled to the bypass conduit 12 by a hinge 16. Accordingly, in the case of collecting the iron dust, the cover member is closed to cover the opening 12a. When the collected iron dust is discharged, the magnetic collecting portion 20 can be taken out by opening the cover member.

On the other hand, in the present embodiment, the cover member of the hinge structure is presented as the opening and closing portion 15, the opening and closing portion 15 includes a variety of known opening and closing device.

The magnetic force collecting unit 20 is a portion for collecting the iron dust of the sintered exhaust gas, it is possible to selectively collect the iron dust from the sintered exhaust gas by using the magnetic member 22. In addition, the collected iron dust is formed to be taken out through the opening (12a) so that the iron dust can be discharged when a certain amount of collected.

2 and 3 are views illustrating the magnetic force collecting unit in the iron dust collecting device according to an embodiment of the present invention.

As shown in FIG. 1, a pair of electromagnets disposed on the flow path of the sintered flue gas formed in the bypass conduit 12 may be used as the magnetic force member 22 in this embodiment. In this case, the pair of electromagnets may be disposed to face each other in a direction parallel to the flow path, so that the sintered exhaust gas may pass between the pair of electromagnets.

And, as shown in Figure 2, the magnetic force collecting portion 20 of the present embodiment has a support member 24 for supporting a pair of electromagnets, the support member 24 is a hinge that can be rotated to the duct 10 It can be combined with (25). Accordingly, the magnetic force collecting portion 20 can be taken out by rotating the support member 24 about the hinge axis. That is, the magnetic force collecting portion 20 is allowed to enter and exit through the opening 12a, so that the iron dust 1 collected in the magnetic force collecting portion 20 can be easily discharged to the outside. At this time, since the electromagnet can adjust the magnetic force, it is possible to discharge the iron dust 1 more easily by removing the magnetic force collecting portion 20 to the outside and then blocking the magnetic force.

In addition, as shown in Figures 2 and 3, the magnetic force collecting portion 20 is fitted in a structure in which the collecting container 28 is removable, it is possible to facilitate the discharge of the iron dust (1). The collecting container 28 is formed to cover the electromagnet so that the iron dust 1 is attached to the inner wall of the collecting container 28 when the iron dust 1 is collected. In addition, the collection container 28 is formed in a form that covers the support member 24, it can receive the iron dust (1) falling down. Therefore, after collecting the iron dust 1, the collection container 28 is taken out of the magnetic force collecting unit 20, so that the iron dust 1 can be easily separated from the iron dust collecting device.

On the other hand, in the present embodiment, but the magnetic force collecting portion 20 coupled to the hinge structure in the duct 10, the coupling of the magnetic force collecting portion 20 and the duct 10 is not limited to this of the duct 10 Coupling may be configured in a variety of known structures (typically, sliding structures, etc.) capable of entering and exiting the magnetic force collecting portion 20 through the opening 12a.

Iron dust collecting device of the present embodiment may further include a weight measuring unit 26 for measuring the weight of the collected iron dust can determine the discharge timing of the collected iron dust.

2 and 3, in this embodiment, a piezoelectric sensor whose output voltage changes in accordance with pressure is used as the weight measuring unit 26. By installing the piezoelectric sensor on the supporting member 24 and measuring the pressure by the load of the collected iron dust, the amount of collected iron dust can be known.

At this time, in order to easily know the discharge time of the iron dust, it is possible to additionally install the display unit 40 to operate when the weight of the collected iron dust exceeds the set reference value.

As shown in FIG. 1, in the present embodiment, a warning lamp operating when the weight of the collected iron dust exceeds a set reference value is used as the display unit 40.

As described above, the iron dust collecting device according to the present embodiment can increase the resource utilization of iron ore by recovering iron, which is a valuable metal, from the sinter exhaust gas discharged from the sintering process. In addition, by recovering a large amount of iron dust contained in the sintered flue gas before reaching the dust collector, it is possible to reduce the burden of the dust collector to miniaturize the dust collector and to extend the life.

Although the above has been described with reference to embodiments of the present invention, those skilled in the art may variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And can be changed.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

1: iron dust
5: dust collector
10: duct
12: Bypass Conduit
12a: opening
15: opening and closing part
20: magnetic collector
22: magnetic member
24: support member
26: weight measuring unit
28: collection container

Claims (9)

A duct in which a sintered exhaust gas is discharged and an opening is formed at a side thereof to communicate with the discharge path;
An opening and closing portion selectively covering the opening of the duct; And
Is installed in the duct to allow access through the opening, and includes a magnetic force collecting portion having a magnetic member for collecting iron dust in the sintered exhaust gas by using a magnetic force,
The duct,
A bypass conduit bypassing a portion of the sintering flue gas on a flow path of the sintering flue gas, wherein the opening is formed;
The opening and closing portion and the magnetic force collecting portion is characterized in that the iron dust collecting device is installed in the bypass conduit.
delete The method of claim 1,
And a valve installed in the bypass conduit, the valve configured to control the opening and closing of the bypass conduit.
The method of claim 3,
Iron collecting device further comprises an actuator for operating the valve.
The method of claim 1,
The magnetic force collecting unit,
A pair of electromagnets which are disposed to face each other such that the sintered exhaust gas passes between them and capable of controlling magnetic force; And
And a support member rotatably installed in the duct to support the pair of electromagnets and to allow access to the opening.
The method of claim 5,
The iron dust collecting device further comprises a collecting container covering the support member and the electromagnet when the iron dust is collected and detachably installed to the magnetic collecting portion.
The method of claim 1,
Iron dust collecting device further comprises a weight measuring unit for measuring the weight of the collected iron dust.
The method of claim 7, wherein
The weight measuring unit,
Iron collecting device comprising a piezoelectric sensor for measuring the pressure by the load of the collected iron dust.
The method of claim 7, wherein
Iron collecting device further comprises a display that operates when the weight of the collected iron dust exceeds a set reference value.

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