KR101137439B1 - Impeller of lump steel removing device - Google Patents

Abstract

PURPOSE: A device for removing impeller base-metal is provided to prevent neglect accident by automatically removing base metal without need to manually remove the base metal of an impeller. CONSTITUTION: A device(1) for removing impeller base-metal comprises a frame(10) a pneumatic cylinder(20), a rotating rod(30), an operating unit(40), and a cutter drum(50). The frame is connected to a support by hinge(11). The pneumatic cylinder is connected to the frame and the support so that the frame is vertically tilted around the hinge. The rotating rod is formed in the frame. The operating unit is formed on the side of the frame and is electrically connected to be able to rotate the rotating rod.

Description

Impeller of lump steel removing device}

The present invention relates to an impeller scum removal device, and more particularly, an impeller rising immediately after a deflow operation, while a cutter drum having a multi-spiral cutting piece is automatically rotated at a constant speed with a descending pressing force applied thereto. The present invention relates to an impeller now removing device that can remove the now attached to the surface, thereby safely performing the work and completely removing the present in the shortest time, thereby maximizing the efficiency and accuracy of the work.

In general, the molten iron from the blast furnace is charged into a ladle, which is a container for the molten iron, and then the molten iron is pretreated.

The preliminary treatment of the molten iron may be classified into the degassing (sulfur removal), the desulfurization (silicon removal), and the phosphorus (phosphorus removal) of the molten iron.

In particular, since the dewatering operation cannot be removed in the converter process, mechanical stirring (Kanvara Reactor, hereinafter referred to as KR (Kal) facility) is used.

The KR facility is configured to generate vortices by immersing the impeller in the molten iron in the ladle and rotating at a constant speed so that the subsidiary materials for the degassing can quickly penetrate into the molten iron and cause a dehydration reaction.

However, the fusion spliced around the pillar of the impeller after the dehydration work has to be removed because the dehydration function decreases due to accumulated cumulative cooling and repetition. It will not be easy to break or break out.

In order to remove these now welded to the impeller, a worker is now partially crushing the impeller now directly with a mini-engine crusher.

As such, in the related art, an impeller is approached and a worker removes the present by hand using a mini-engine crusher, so there is a risk of a safety accident due to the high temperature of the impeller. There is a problem that can not be removed.

Therefore, the present invention has been made in order to solve the above problems, the object of the present invention is that the first removal device installed on the support is inclined to the hinge axis and fused to the impeller rising immediately after the deflow operation while the cutter drum rotates. By completely eliminating iii), it is possible to maximize work efficiency and productivity.

Second, it is possible to prevent safety accidents by automatically removing the present by the now removing device according to the present invention without the need for the operator to manually remove the impeller now.

Third, the cutting drum can be removed on the surface of the cutter drum of the removing device in a multi-stage spiral form, so that the entire welded part of the impeller can be removed evenly in the shortest time. An impeller is now in providing a removal device.

The present invention for achieving the above object is a device for removing the fusion spliced to the impeller after the dewatering operation, the frame is connected to the hinge to the hinge inclined up and down the axis axis, and the frame And a pneumatic cylinder connected to the support for tilting the frame up and down, an actuating means electrically grounded on the side of the frame and actuated by application of power, and an actuating means inside the frame. A rotating rod that rotates according to the operation, a cutter drum that is connected to the rotating rod to remove the impeller now, and is formed on an outer surface of the cutter drum to cut the now according to the rotation of the cutter drum. It characterized in that it is configured to include a cutting piece formed in a multi-row spiral.

In addition, the operating means according to the present invention is a drive motor for driving according to the application of power, a drive gear connected to the drive motor to rotate in accordance with the drive of the drive motor, while rotating in rotation of the drive gear meshed with the drive gear An impeller now removing device, characterized in that it comprises a driven gear to rotate the rotating rod.

Thus, the present invention is a device for removing the fusion spliced around the impeller after the dehydration work by tilting the frame up and down the hinge axis by the operation of the pneumatic cylinder according to the dehydration work or after As the rotary rod is rotated by the operation of the operation means formed on the frame while changing the position, the cutter drum rotates to remove the cutting pieces formed in the multi-helical spiral form on the cutter drum by fusion to the impeller. It can protect the machine and remove the current completely in a short time with one operation, which can maximize the work efficiency as well as the stability and convenience of the work.

1 is a perspective view showing a now removing device according to the present invention.
Figure 2 is a side view illustrating a now removing device according to the present invention.
Figure 3 is a state diagram before operation of the now removing device according to the present invention.
Figure 4 is a working state of the now removing device according to the present invention.
5 is an exemplary cutaway view of the now removing device according to the present invention.
Figure 6 is a plan view showing a working state of the now removing device according to the present invention.

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

Figure 1 is a perspective view showing a now removing device according to the present invention, Figure 2 is a side view showing a now removing device according to the present invention, Figure 3 shows a state diagram before operation of the now removing device according to the present invention. 4 is a working state diagram of the now removing device according to the present invention, FIG. 5 is a cutaway view illustrating a cutaway view of the now removing device according to the present invention, and FIG. 6 is a plan view showing a working state of the now removing device according to the present invention. It is an illustration,

As shown in Figures 1 to 6, the present invention is a device for removing the fusion welded to the impeller after the dewatering operation, the support (on the floor 100, the impeller 300 is installed) 200 is formed, and rotates while operating up and down under the control of a controller (not shown) to remove the now fused to the impeller 300 that rises immediately after the deflow operation on the support (200). The removal device 1 is now formed.

The removal device 1 is a frame 10 connected to the support 200 by a hinge 11, and the frame 10 is connected to the frame 10 and the support 200 by a hinge 11. Pneumatic cylinder 20 for tilting up and down in the axis, the rotating rod 30 is formed in the frame 10, and the rotating rod 30 is formed on the side of the frame 10 Cutter that rotates in accordance with the rotation of the rotating rod 30 to remove the now connected to the operating means 40 and the rotary rod 30 and the fusion rod 300 is fused to the impeller 300 so as to rotate The drum 50 is comprised.

The frame 10 is connected to the support 200 by a hinge 11 to tilt up and down (tilting), the bearing 12 is formed to smoothly rotate the rotating rod 30 on both sides therein It is done.

The driving means 40 is formed with a drive motor 41 is electrically connected to the upper portion of the frame 10, the drive motor 41 is rotated in accordance with the drive of the drive motor 41 is operated by applying power to the drive motor 41 Drive gears 42 are formed, and the driven gears 43 are engaged to the drive gears 42 and rotated to couple the rotary rods 30 so as to rotate the rotary rods 30 in accordance with the rotation of the drive gears 42. ) Is formed.

The cutter drum 50 is fixed to one end of the rotary rod 30, the cutter drum 50 is rotated on the outer surface while cutting a plurality of fusion (金) fused to the impeller 300 to remove The cutting piece 51 is formed.

At this time, the cutting piece 51 is preferably formed in a multi-row spiral to completely remove the now accumulated in the impeller 300 in the shortest time in one rotation operation.

Looking at the operating state according to the present invention made of a configuration as described above are as follows.

First, when the impeller 300 is immersed and rotated in a ladle (not shown), impurities in the ladle are raised to the upper part of the ladle, and then the ladle is tilted to remove impurities.

After the dewatering operation is completed by the operation of the impeller 300 in the above, if the impeller 300 is raised to operate the now removing device 1 according to the present invention to remove the fusion spun on the impeller 300 do.

At this time, when the impeller 300 is immersed in the ladle and operating, the removal device 1 according to the present invention folds the frame 10 toward the support 200 under the control of a controller (not shown) and stands by. It is now possible to protect the removal device 1 from high temperatures.

As such, when the pneumatic cylinder 20 is operated to operate the pneumatic cylinder 20 in order to remove the now by operating the now removing device 1 according to the present invention, the frame 10 connected to the pneumatic cylinder 20 is hinged 11. Down to the axis.

In addition, the driving gear 42 and the driven gear 43 rotate while the driving motor 41 is driven and the driving motor 41 is driven, and the driven gear 43 rotates as the driven gear 43 rotates. The rotating rod 30 coupled to 43 is rotated.

Then, the cutter drum 50 fixed to the rotating rod 30 is rotated by the rotation of the rotating rod 30, and the cutting piece 51 formed on the cutter drum 50 is fused to the surface of the impeller 300. (地 金) will be removed by cutting.

At this time, when the rotary rod 30 is rotated by the rotation of the driven gear 43, a bearing 12 is formed between the frame 10 and the rotary rod 30 so that the rotary rod 30 is smoothly rotated.

In addition, when the cutting piece 51 is removed by the rotation of the cutter drum 50, the cutting piece 51 is fused to the impeller 300 as the cutting piece 51 is formed in the cutter drum 50 in a multi-row spiral form. You can remove all without missing.

On the other hand, after the removal of the impeller (300) of the impeller 300 by the operation of the now removing device (1) according to the present invention by operating the pneumatic cylinder 20, the frame (10) is a hinge 11 shaft To the upper portion to maintain the standby state while protecting the removal device 1 from high temperature.

Thus, the now removing device 1 according to the present invention is to operate the removal device 1 now when the impeller 300 is lifted up after finishing the dehydration operation, thereby removing the present as the impeller 300 rises. The current accumulated in the impeller 300 is stably and completely removed.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1: Remove Now 10: Frame
11: hinge 12: bearing
20: pneumatic cylinder 30: rotary rod
40: operating means 41: drive motor
42: drive gear 43: driven gear
50: cutter drum 51: cutting piece
100: floor 200: support
300: impeller

Claims (6)

In the device for removing the fusion welded to the impeller 300 after the dewatering operation,
A support 200 is formed on the floor 100 on which the impeller 300 is installed,
The hinge 11 is rotated in close contact with the impeller 300 so as to be operated up and down on the shaft 11 so as to remove the now welded to the impeller 300 rising immediately after the deflow operation on the support 200. Now the removal device 1 is formed,
The now removing device (1),
Frame 10 is connected to the support 200 by a hinge 11,
Pneumatic cylinder 20 is connected to the frame 10 and the support 200 so that the frame 10 is tilted up and down about the hinge 11,
Rotating rod 30 is formed inside the frame 10,
It is formed on the side of the frame 10 and the operating means 40 is electrically connected to rotate the rotating rod 30, and
The impeller now removing device, characterized in that it comprises a cutter drum (50) is rotated in accordance with the rotation of the rotating rod 30 to remove the now fused to the impeller 300 is connected to the rotating rod (30). delete The method of claim 1,
The frame 10 is connected to the support 200 by a hinge 11 so as to be rotatable up and down in accordance with the operation of the pneumatic cylinder 20, bearings so that the rotating rod 30 can be smoothly rotated on both sides therein. An impeller now removing device, characterized in that 12 is formed. The method of claim 1,
The driving means 40 is formed with a drive motor 41 is electrically connected to the upper portion of the frame 10, the drive motor 41 is rotated in accordance with the drive of the drive motor 41 is operated by applying power to the drive motor 41 Drive gears 42 are formed, and the driven gears 43 are engaged to the drive gears 42 and rotated to couple the rotary rods 30 so as to rotate the rotary rods 30 in accordance with the rotation of the drive gears 42. Impeller is now removed device, characterized in that formed. The method of claim 1,
Impeller now removing device, characterized in that a plurality of cutting pieces 51 are formed on the outer surface of the cutter drum 50 so that the cutter drum 50 is rotated to cut and remove the now welded to the impeller 300. . The method of claim 5, wherein
The cutting piece 51 is impeller now removing device, characterized in that formed in a multi-row spiral so that the irregularly fused to the impeller 300 can be completely removed in one rotational operation in accordance with the rise of the impeller (300).

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