KR100511752B1 - An apparatus for preventing ferro silicon from be stopping in a chute - Google Patents

Abstract

The present invention relates to a device for preventing clogging of a deregulation chute that receives a deregulation and a deregulation from a belt conveyor system and discharges it downward.

The configuration for this, by installing a rotary rotor 18 having a plurality of wings inside the center of the chute 10 to be rotationally driven by the second drive motor 20, the outlet side of the chute 10 The opening degree of the deregulation outlet 30 is adjusted by the valve 26 fitted to be slidably in the valve guide groove 28 formed so as to be perpendicular to the movement path of the provisional regulation or deregulation within the chute piping 24. The valve 26 is extended to the outside of the chute pipe 24 to form a threaded portion 32, and the circular gear 36 engaged with the threaded portion 32 is connected to the third drive motor 38. It features.

According to this, the agglomerated plasticizer or deregulator is crushed by the rotary feeder and foreign matter is forcibly moved downward by the rotary feeder, and the appropriate amount is discharged to the lower chute by opening the lower valve. The regulation solves the conventional problem of blocking the upper chute and the lower chute.

Description

An apparatus for preventing ferro silicon from be stopping in a chute}

The present invention relates to a device for preventing clogging of a deregulation chute, or more particularly, to receive a temporary regulation and a deregulation from a belt conveyor system and to discharge it to a lower part. The present invention relates to a device for preventing clogging of a deregulated chute, in which a valve capable of regulating deregulated discharge can be installed to enable a smooth discharge of the deregulated and deregulated chute without clogging.

Generally, the deregulation chute is a device of the steel making facility which is located on the blast furnace columnar base and installed to inject ferro silicon and mill scale into the molten iron.

Figure 1 shows a schematic configuration of where the chute 100 receives the deferred silicon and mill scale from where it is discharged, the gyugyu hopper 110 containing the provisions of regulation and the deregulation hopper containing the deregulation ( A horizontal belt conveyor 114 is installed at the lower portion where the 112 is located, and is discharged from the hoppers 110 and 112 to be carried on the belt conveyor 114, or deregulation is performed after the belt conveyor 114. Falling down through the hopper gate 116 is installed in the fall, the deregulation is carried on one end of the inclined belt conveyor 118 to form an inclination at a predetermined angle, the inclined belt conveyor 118 Moving to the other end of the) and falling down, deregulator is supplied to the chute 100 through the inclined belt conveyor (120, 122) continuously installed. Then, the temporary, deregulator discharged from the chute 100 is discharged to the scavenging degree 124 through the mobile lower chute 122.

2 and 3 are a perspective view and a front view of a conventional chute 100, which chute 100 is mounted on a mobile trolley 130 having wheels 132 and configured to be movable on a columnar bottom 102; The upper portion of the inclined belt conveyor 120 is opened to be connected to the head of the deregulated drop portion, and the lower portion of the damper 134 is installed to open and close the lower chute 122 to control the deregulated discharge. Is done. The damper 134 may be configured to close the chute 100 by the weight 136, and the damper 134 may be opened by the handle 138. In addition, by the damper 134, the chute pipe is made to cover and seal the part so that the dust generated in the part where the deregulation is discharged is not scattered to the outside, and at the same time, to guide the deregulation downward ( 140 is installed.

And, so that the chute pipe 140 is guided to the upper portion of the lower portion of the flange 122 of the lower chute to install the block 142 fixed to the cover of the scaffolding, so that the bogie by the block 142 The guide 130 is guided so that the flange 141 formed at the lower end of the chute pipe 140 of the upper chute 100 is placed on the upper flange of the lower chute 122 at the correct position. To the chute 122.

However, such a conventional chute 100 enters the chute 100 through the inclined belt conveyor 120, or when foreign substances such as bags are mixed in the deregulation to close the lower outlet of the chute 100, and And / or due to a considerable amount of water, when the deregulation solidifies and shuts down the lower outlet of the chute 100, only by opening and closing the damper 134 in the opening and closing manner, it was not possible to discharge the deregulation smoothly. F. This caused a problem of deteriorating the quality of the molten iron by preventing the addition of an appropriate amount of deregulation.

The present invention has been made in order to solve such a conventional problem, the object is to install a rotary feeder in the center and to the bottom, install a valve that can control the deregulated discharge, can keep the flow of deregulation smoothly It is to provide a device for preventing the blockage of the deregulated chute to set the amount of deregulated chute, deregulated chute through the lower chute to improve the quality of the molten iron.

As a technical configuration for achieving the above object, the present invention is to be supplied to the lower chute or discharged to the lower chute by receiving the provision of the temporary or deregulated conveyed from the belt conveyor in a state mounted on the upper portion of the trolley movable by a plurality of wheels, In the control chute, a rotary rotor having a plurality of vanes is installed inside the center of the chute so as to be rotationally driven by a second drive motor, and provisional or deregulation is provided inside the chute pipe on the outlet side of the chute. The opening of the deregulated outlet is controlled by a valve installed to be substantially perpendicular to the movement path, and the valve is slidably moved in the valve guide groove formed to be substantially perpendicular to the movement path of the provisional or deregulation. The threaded portion is formed on the surface of the valve body so as to extend outwardly of the chute pipe. A circular gear engaged with the threaded portion is connected to the third drive motor, and the third drive motor is configured to move the valve body to open and close the temporary and deregulated outlet.

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

Figure 4 is an external perspective view showing a temporary, deregulated chute equipped with a blockage preventing device according to the present invention as a whole, Figure 5 is a partial cutaway cross-sectional view schematically illustrating the configuration of the present invention, 10 is mounted on a trolley 14 which is movable with a wheel 12 as in the prior art.

The wheel 12 is connected to receive rotational power by the first driving motor 16, and this connection structure may be any of belt transmission, axial transmission, and the like, which are commonly used. However, components such as the shaft 13 for interlocking the wheels 12 do not interfere with the block 142 fixed on the lid of the columnar base to guide the upper chute 10 toward the lower chute 122. do. At least one pair of the wheels 12 are connected by a shaft 13, and a gear part (not shown) is formed on the shaft 13 to be connected to the gear 17 of the first driving motor 16. It may be configured simply, so that only the forward and backward movements of the trolley 14 may be possible, and if necessary, the trolley 14 may be configured with a more complicated structure so that the trolley 14 may move forward and backward as well as left and right. You may also Since the moving structure of the trolley | bogie 14 does not need an operator to move the trolley | bogie 14 directly, a workload is reduced.

A rotary feeder 18 is mounted inside the center of the chute 10, and the rotary feeder 18 is rotated by the second driving motor 20 to push the provisional or deregulation downward. In the present invention, the pulley 19a is installed on the rotary shaft 19 of the rotary feeder 18, and the pulley 20a is installed on the second driving motor 20, and they are connected to each other by the belt 22. Although configured to transmit the rotational power of the drive motor 20 to the rotary feeder 18, any one of a variety of configurations other than those conventionally used may be adopted. And, the rotary feeder 18 may be made of a conventional structure having a plurality of wings formed radially around the rotation axis (19).

In addition, the chute pipe 24 formed on the lower side of the chute 10, that is, the portion where the deregulation is discharged is provided with a valve 26 to adjust the discharge of the provisional regulation or deregulation, The valve 26 is adapted to adjust the opening degree while the valve body 30 having a plate shape slides, and to control the discharge of deregulation. The valve 26 falls from the chute 10 to the chute pipe 24. , The valve guide groove 28 is formed to be substantially perpendicular to the discharge direction of the deregulation, and the valve body 30 is formed at the appropriate portion of the valve guide groove 28 by forming a deregulation discharge port 29. The opening degree of the temporary and deregulated outlet 29 is adjusted when the temporary slide is performed. The valve 26 is a valve body 30 having a flat plate shape, which is a part that opens and closes the temporary and deregulated outlet 29. Is made of, one side of the valve body 30 is turned to the outside of the chute pipe 24 It extended so as to be, so say the surface of the extended portion back to an upper surface or a predetermined length of a row in the longitudinal direction on the lower face male screw 32 is formed. Of course, the threaded portion 32 is a rack-type threaded portion formed on a smooth surface, and the sliding protrusions 34 protruding to extend in the longitudinal direction on the upper and lower surfaces of the valve body 30 adjacent to the threaded portion 32. Is equipped. The sliding protrusion 34 of the valve 26 is slidably fitted into a sliding guide groove (not shown) formed concave on the inner surface portion of the valve guide groove 28, so that the valve 26 guides the valve. It is easy to adjust the opening degree by sliding without exiting the groove (28). In addition, it is preferable that a portion of the valve 26 fitted to the chute pipe 24 be sealed by using an O-ring (not shown) or the like.

delete

A circular gear 36 is engaged with the threaded portion 32 of the valve 26, and the circular gear 36 is connected to the third driving motor 38 to receive rotational power. Of course, the connection method of the circular gear 36 and the third driving motor 38 may be configured in various ways, for example, as shown in the drawing, the circular gear 36 is connected to the rotation axis of the third driving motor 38. Integrally fixed, the rotational power of the third driving motor 38 may be directly transmitted to the valve 26. Although not shown, a separate rotary shaft for supporting the circular gear 36 is provided and the circular gear 36 is provided. ) The support shaft may be connected to the third drive motor 38 via a reduction gear. In addition, even when the circular gear 36 and the threaded portion 32 of the valve 26 shown in the present invention are directly connected, a separate reducer (not shown) is maintained rather than maintaining the rotational speed of the third driving motor 38 as it is. ) To reduce the rotational speed of the third drive motor (38) and to rotate the circular gear 36 to match the speed.

The temporary and deregulated chute equipped with the blockage preventing device of the present invention having the above-described configuration is discharged into the bottom chute by discharging the ferro silicon and the mill scale to the lower chute as in the prior art.

First, the moving cart 14 should be moved to be in the proper position, and this is the first driving motor 16. When power is supplied to the first driving motor 16, the rotational power is transmitted to the wheel 12, and thus, the moving trolley 14 is guided by the block 142 and is suitable for provision of provisional or deregulation. Go to location.

In accordance with the composition of the molten iron, the facility control computer issues a provisional or deregulation order, thereby opening either the provisional hopper or the deregulation hopper.

That is, provisional or deregulation is conveyed through the belt conveyors 114, 118, 120 and supplied to the chute 10.

At the same time or sequentially, the facility control computer supplies power to the second drive motor 20 which is responsible for driving the rotary feeder 18, so that the rotary feeder 18 rotates. The provisional or deregulation supplied to the chute 10 is moved downward by the rotary drive of the rotary feeder 18. At this time, when the temporary or deregulator is present in a large mass by excessive moisture, the mass is blocked by the rotating rotary feeder 18, thereby smoothly moving downward. In addition, foreign matter such as a bag included in temporary or deregulation is forcibly moved to the lower part of the chute 10 by the rotation of the rotary feeder 18. Therefore, the foreign matter of the chute 10 is deregulated by such foreign matter. The movement path is prevented from being blocked.

The temporary or deregulator moved to the lower part is discharged to the lower chute through the deregulated outlet 29 which is controlled by the valve 26. The opening degree of the valve 26 only needs to be adjusted to such an extent that the amount of temporary regulation or deregulation discharged through it does not close the lower chute, and thus the lower chute is prevented from being closed by the temporary regulation or deregulation. Of course, the opening degree of the valve 26 is made by the rotation operation of the circular gear 36 connected to the threaded portion 32 formed therein, for this purpose, the third drive motor 38 should be driven. The third drive motor 38 may also be supplied with power by a facility control computer to rotate the circular gear 36 so as to appropriately adjust the opening degree of the valve 26, or directly by the operator. The opening of the valve 26 may be adjusted by operating the motor 38.

Of course, the valve 26 is the third drive motor 38 is operated to return to the original state when the operation of provisional regulation or deregulation is finished, so that the high heat rising from the lower chute to the chute 10 side. Block it. In addition, the high heat can be blocked by the rotary feeder 18 mounted inside the center of the chute 10 even during the temporary regulation or deregulation operation.

In addition, when the rotary feeder 18 equipped with the chute 10 of the present invention is overloaded with foreign matter such as temporary regulation, deregulation, and bag, it is preferable to have an alarm issuing means for notifying the worker or the like. The means can be configured in various ways. For example, it is configured to detect and alert the overload of the second drive motor 20 connected to the rotary shaft 19 responsible for the rotation support of the rotary feeder 18 or the pulley 19a mounted on the rotary shaft 19. It is possible to do

As described above, according to the present invention, the blockage preventing device of the deregulation chute is provided with a foreign material such as a bag or a debris crushed by a rotary feeder mounted in a central portion and driven by a driving motor. By forcibly moving to the lower side has the effect of solving the conventional problem that the temporary regulation or deregulation is not discharged to the lower chute by clogging of the chute.

In addition, by adjusting the amount of temporary or deregulated discharged from the chute by a valve mounted at the bottom of the chute and controlled by the drive motor, an excessive amount of temporary or deregulated is discharged to the lower chute so that the lower chute Has the excellent effect of solving the problem of blocking.

1 is a schematic view showing a general provisional and deregulatory input equipment;

Figure 2 is a perspective view showing an overall chute for deregulation and deregulation chute according to the prior art;

Figure 3 is a front view as a whole showing a chute for deregulation and deregulation in accordance with the prior art.

Figure 4 is an external perspective view showing the entire provision of the temporary regulation and deregulation injection chute equipped with a blockage preventing device according to the present invention;

Figure 5 is a partial cutaway cross-sectional view showing some components omitted to explain the configuration of a chute with a clogging device according to the present invention;

<Description of the symbols for the main parts of the drawings>

10 ... Suit 12 ... Wheels

14 ... bogie 16 ... first drive motor

18 ... rotary feeder 20 ... second drive motor

22 ... belt 24 ... chute piping

26 ... valves 28 ... valve guide groove

30 ... valve body 32 ... threaded section

34 ... sliding projection 36 ... circular gear

38 ... 3rd drive motor

Claims (1)

In the deregulated chute, the deregulated chute is provided to be supplied to the upper chute or deregulated conveyed from the belt conveyor in a state of being mounted on the movable cart 14 by a plurality of wheels 12 and discharged to the lower chute side. A rotary rotor 18 having a plurality of blades is installed inside the center of the chute 10 so as to be rotationally driven by the second driving motor 20, and the chute pipe 24 of the outlet side of the chute 10 is installed. The opening of the deregulation outlet 29 is controlled by the valve 26 installed to be substantially perpendicular to the movement path of the deregulation or deregulation inside the valve. The valve body 30 is slidably inserted into the valve guide groove 28 formed to be substantially perpendicular to the movement path, and the threaded portion is formed on the surface of the valve body 30 so as to extend outwardly of the chute pipe 24. 32 is formed, the circular gear 36 engaged with the screw portion 32 is connected to the third drive motor 38, the third drive motor 38 moves the valve body 30 to the Is it characterized in that configured to open and close the deregulated outlet 29, deregulated shoe Blockage preventing apparatus.