KR101786374B1 - Storage apparatus for rolling oil - Google Patents

Abstract

A rolling oil storage device according to an embodiment of the present invention includes a base frame, a tank member provided on the base frame, and having a bottom portion tilted to one side so that the foreign substances formed on the rolling oil collect on one side, And a supply pipe that is provided to discharge and supply the rolling oil, respectively, and the supply pipe may be provided in a wall portion of the tank member adjacent to an upper side of the tilted bottom portion.

Description

Storage apparatus for rolling oil

The present invention relates to a rolling oil storage device.

The rolling oil is circulated in a high-concentration direct injection method and a low-concentration circulation method in order to cool the high-temperature heat generated when the hot-rolled coil passes through the rolling stand for cold rolling, the rust-preventive action of the rolled steel sheet, Is used.

Here, in the case of the low-concentration circulation system, the used rolling oil is recovered and reused. In this case, scum is contained in the rolling oil.

That is, in the rolling roll stand where the rolling oil is used, the bite of the iron component falls off and is mixed with the rolling oil, and the carbon and the holding component contained in the rolling oil meet with the iron component of the bite to form a slug- Such scum as iron oxide is contained in the rolling oil as a foreign substance.

Accordingly, in order to reuse the rolling oil, the scum must be removed from the rolling oil, and various filters such as a magnetic separator, a Hoffman vacuum filter and a back-wash filter are required.

However, in the case of a tank member (return tank) which is located at the lower part of the rolling roll stand and stores the rolling oil, it is difficult to install a separate filter facility due to a narrow space or the like.

Accordingly, a tank member with no filter attached thereto is used. In such a case, the scum accumulated inside the tank has a disadvantage that the operator must open the tank cover regularly and remove the tank cover manually.

Therefore, there is a need for studies related to the above-mentioned problems.

An object of the present invention is to provide a rolling oil storage device capable of removing scum accumulated in a tank member without using a filter and without removing scum by an operator.

A rolling oil storage device according to an embodiment of the present invention includes a base frame, a tank member provided on the base frame, and having a bottom portion tilted to one side so that the foreign substances formed on the rolling oil collect on one side, And a supply pipe that is provided to discharge and supply the rolling oil, respectively, and the supply pipe may be provided in a wall portion of the tank member adjacent to an upper side of the tilted bottom portion.

Further, in the rolling oil storage device according to an embodiment of the present invention, the discharge pipe may be provided above the supply pipe.

The rolling oil storage device according to an embodiment of the present invention is coupled to the base frame so as to be adjacent to the outer surface of the bottom portion of the tank member so as to move the foreign matter composed of a paramagnetic material or a ferromagnetic material to the bottom side, And a magnetic force belt member provided to move toward the lower side of the bottom portion.

In addition, the rolling oil storage device according to an embodiment of the present invention may be configured to rotate the lower portion of the bottom portion inclined to discharge the foreign matter to the outside through the discharge hole of the tank member formed adjacent to the lower one end portion of the bottom portion. And a screw member provided so as to be able to rotate.

In addition, the screw member of the rolling oil storage device according to an embodiment of the present invention may include a rotating rod provided below the bottom portion and provided to be rotated, a screw blade formed on the outer surface of the rotating rod in a spiral shape, And a guide vane coupled to an end of the screw vane in a vertical direction.

In addition, the rolling oil storage device according to an embodiment of the present invention may include a sealing member which is provided in the circumferential direction of the discharge hole and is composed of electromagnets, and which induces agglomeration of the foreign matter composed of a paramagnetic material or a ferromagnetic material.

Further, in the rolling oil storage device according to an embodiment of the present invention, the sealing member includes a ring electromagnet provided in a circumferential direction of the discharge hole and a current source applying a current to the ring electromagnet, As shown in FIG.

The rolling oil storage device of the present invention has an advantage that the scum accumulated in the tank member can be removed without using a filter and without removing the scum by an operator.

As a result, the load of the operator can be reduced, the safety can be ensured, and the operation time of the scum can be reduced, thereby reducing the downtime of the entire facility, thereby enabling efficient operation of the rolling facilities.

1 is a front view showing a rolling oil storage device of the present invention.
2 is a front view showing a magnetic force belt member in the rolling oil storage device of the present invention.
3 is a front view showing the screw member in the rolling oil storage device of the present invention.
4 is a front view showing a sealing member in the rolling oil storage device of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The present invention relates to a rolling oil storage device, and it is possible to remove scum (S) accumulated in a tank member (20) without removing a scum (S) by a worker without using a filter, And safety can be ensured, and the operation time of the scum (S) removal can be reduced to reduce the downtime of the entire facility, thereby enabling efficient operation of the rolling facility.

1 is a front view showing a rolling oil storage device of the present invention. Referring to FIG. 1, a rolling oil storage device according to an embodiment of the present invention includes a base frame 10, a base frame 10, A tank member 20 having a bottom portion 21 tilted to one side so that the foreign substances formed in the stored rolling oil collect on one side and a rolling oil discharge pipe member 30 provided to discharge and supply the rolling oil to the tank member 20, And a supply pipe 40. The supply pipe 40 may be provided on the wall of the tank member 20 adjacent to an upper side of the inclined bottom portion 21. [

By providing the supply pipe 40 to form a flow through which the rolling oil flows above the inclined bottom portion 21 of the tank member 20 as described above, The scum S can be induced to shorten the accumulation time of the scum S. [

In addition, by sealing the discharge hole 22 formed in the tank member 20 with the scum S to be discharged when discharging the scecom S to the outside by the screw member 60 to be described later, It is possible to have an advantage that it is possible to prevent such a problem.

The base frame 10 serves as a basic frame provided with the tank member 20, a magnetic belt member 50 to be described later, and the like.

That is, a tank member 20 provided at an upper side of the base frame 10 so as to be inclined to the bottom portion 21 may be provided to support the tank member 20, Is supported by the base frame 10 so as to be provided outside the bottom portion 21.

The tank member 20 is constructed such that the rolling oil used in the rolling roll stand is collected through the supply pipe 40 and the rolling oil from which the scum S has been removed is supplied again to the rolling roll stand via the discharge pipe 30 And serves as a repository and a cleaner means.

For this purpose, the tank member 20 is provided on the base frame 10 and the bottom portion 21 is provided in an inclined shape so that the scum S is gathered to the lower side of the bottom portion 21 Lt; / RTI >

The discharge pipe 30 is provided in the tank member 20 and serves to supply the rolling oil from which the scum S has been removed to the rolling roll stand. To this end, the discharge pipe 30 may be provided with an on-off valve, a pump for forming a flow, and the like.

The supply pipe 40 serves to transfer the rolling oil used in the rolling roll stand to the tank member 20. To this end, the supply pipe 40 may also be provided with an on-off valve, a pump for forming a flow, and the like.

Particularly, the supply pipe 40 serves to form a flow that collects the scum S in the tank member 20 to the lower side of the bottom portion 21 of the tank member 20, so that the scum S The efficiency of sealing the discharge hole 22 of the tank member 20 with the scum S can be increased.

It is preferable that the discharge pipe 30 is provided on the upper side of the supply pipe 40 so that the flow of the rolling oil by the supply pipe 40 can be moved to the lower side of the bottom part 21. [

In other words, in the rolling oil storage device according to the embodiment of the present invention, the discharge pipe 30 may be provided above the supply pipe 40.

FIG. 2 is a front view showing a magnetic force belt member 50 in the rolling oil storage device of the present invention. Referring to FIG. 2, the rolling oil storage device according to an embodiment of the present invention includes the above- Is coupled to the base frame 10 so as to be adjacent to the outer surface of the bottom portion 21 of the tank member 20 so as to move the bottom portion 21 toward the lower side of the bottom portion 21, And a magnetic force belt member 50 provided to move.

By providing such a magnetic force belt member 50, the speed at which the scum S moves to the lower side of the bottom portion 21 can be increased.

For this purpose, the magnetic belt member 50 may include a magnetic belt 51 formed of a permanent magnet material.

The magnetic force belt member 50 may also include a driving roll 52 for driving the magnetic belt 51 to move to the lower side of the bottom portion 21. [ Here, the driving roll 52 and the magnetic belt 51 may be provided in a gear-engaged manner or a driving force of the driving roll 52 may be transmitted to the magnetic belt 51 by friction.

The magnetic belt member 50 may also include a support roll 53 for guiding the movement of the magnetic belt 51. The support roll 53 may support the position of the magnetic belt 51, The magnetic force belt 51 may be provided to be in contact with the inner side of the magnet belt 51.

Here, the driving roll 52 and the supporting roll 53 are coupled to the base frame 10.

3 is a front view showing a screw member 60 in the rolling oil storage device of the present invention. Referring to FIG. 3, the rolling oil storage device according to an embodiment of the present invention includes a bottom portion 21, And a screw member 60 rotatably disposed below the bottom portion 21 that is inclined to discharge the foreign matter to the outside through the discharge hole 22 of the formed tank member 20 .

The screw member 60 is long in the entire width direction below the bottom portion 21 and moves the scum S accumulated on the bottom portion of the bottom portion 21 to the discharge hole 22 .

The screw member 60 can discharge the scum S accumulated on the lower side of the bottom portion 21 to the outside so that the operator does not need to discharge the scum S directly.

For this purpose, the screw member 60 may include a rotating rod 61, a screw blade 63, and a guide blade 63.

In other words, the screw member 60 of the rolling oil storage device according to an embodiment of the present invention includes a rotating rod 61 provided below the bottom portion 21 and provided for rotation, And a guide vane 63 coupled to an end of the screw vane 63 in a direction perpendicular to the screw vane 63. [

The rotation shaft 61 is rotatably connected to a rotating motor and is disposed below the bottom portion 21 and may have a length corresponding to a width direction of the bottom portion of the bottom portion 21.

The screw blade 63 is provided in the rotating rod 61 to move the scum S in the direction of the discharge hole 22. In other words, the screw vane 63 is provided in a spiral shape on the rotation bar 61 so that the scum S can move along the screw vane 63.

The guide vane 63 serves to prevent the scum S, which is moved by the screw vane 63, from being detached from the screw vane 63. The guide vane 63 is perpendicular to the end of the screw vane 63 so that the scum S transferred to the screw vane 63 does not come off the end of the screw vane 63 I will guide you.

4 is a front view showing a sealing member 70 in the rolling oil storage device of the present invention. Referring to FIG. 4, the rolling oil storage device according to the embodiment of the present invention is provided in the circumferential direction of the discharge hole 22, And a sealing member 70 made of an electromagnet, which induces agglomeration of the foreign matter composed of a paramagnetic substance or a ferromagnetic substance.

By providing the sealing member 70 in this manner, it is possible to prevent the scoop S from being released to the discharge hole 22 when the scoop S is discharged into the discharge hole 22.

In other words, the scum S acts as a sealing material that seals the discharge hole 22 as an object to be discharged to the discharge hole 22.

However, when the scum S is sealed to the discharge hole 22, the rolling oil may be released to the discharge hole 22 when the flocculation density of the scum S is low, The sealing efficiency of the scum S can be increased by increasing the density of the scum S by using the sealing member 70.

Here, the sealing member 70 increases the density of the scum S because the scum S is formed of a magnetic material such as a paramagnetic material or a ferromagnetic material, and the sealing member 70 is composed of electromagnets, S) in order to be able to exert an attractive force.

In order to ensure the discharge path of the scum S through the discharge hole 22 while increasing the density of the sconce by the sealing member 70, the sealing member 70 is fixed to the ring electromagnet 71 And the current source 72, the ring electromagnet 71 can be provided in a net shape.

In other words, in the rolling oil storage device according to the embodiment of the present invention, the sealing member 70 is provided with the ring electromagnet 71 provided in the circumferential direction of the discharge hole 22 and the ring electromagnet 71 And the ring electromagnet 71 may be provided in a net shape.

Here, the ring electromagnet 71 may be provided in the form of a net, which may have the same shape as that shown in FIG. That is, the ring electromagnet 71 is provided in a space other than the space provided with the screw member 60 in the discharge hole 22, and the ring electromagnet 71 is disposed inside the tank member 20 And the holes may be formed in a net-like shape.

More specifically, the ring electromagnet 71 is provided with an inner ring adjacent to the screw member 60 and an outer ring adjacent to the edge of the discharge hole 22 of the tank member 20, A plurality of connection bars connecting the outer ring in the radial direction can be formed and can be provided in the shape of a net. In some cases, a plurality of intermediate rings may be provided in addition to the inner ring and the outer ring.

10: base frame 20: tank member
21: bottom portion 22: exhaust hole
30: discharge pipe 40: supply pipe
50: magnetic force belt member 51: magnetic force belt
52: drive roll 53: support roll
60: screw member 61:
62: screw blade 63: guide blade
70: sealing member 71: ring electromagnet
72: current source

Claims (7)

A base frame;
A tank member provided in the base frame and having a bottom portion tilted to one side so that the foreign substances formed on the rolling oil are collected on one side;
A rolling oil discharge pipe and a supply pipe provided in the tank member and provided to discharge and supply the rolling oil, respectively;
A screw member rotatably disposed below the bottom portion to be inclined so as to discharge the foreign matter to the outside through a discharge hole of the tank member formed adjacent to a lower end of the bottom portion; And
A sealing member which is provided in the circumferential direction of the discharge hole and is composed of an electromagnet and induces agglomeration of the foreign matter composed of a paramagnetic material or a ferromagnetic material;
. The method according to claim 1,
Wherein said discharge pipe member is provided above said supply pipe member. The method according to claim 1,
And a moving member that is coupled to the base frame so as to be adjacent to the outer surface of the bottom portion of the tank member to generate the magnetic force and moves toward the lower side of the bottom portion so as to move the foreign matter composed of the paramagnetic material or the ferromagnetic material to the bottom portion side A magnetic belt member;
. The method according to claim 1,
Wherein the supply pipe member is provided on a wall portion of the tank member adjacent to an upper side of the tilted bottom portion. The method according to claim 1,
The screw member
A rotating bar provided below the bottom and provided to rotate;
A screw blade formed on the outer surface of the rotary bar in a spiral shape; And
A guide vane coupled to an end of the screw vane in a direction perpendicular to the screw vane;
. delete The method according to claim 1,
Wherein the sealing member comprises:
A ring electromagnet provided in a circumferential direction of the discharge hole; And
A current source for applying a current to the ring electromagnet;
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Characterized in that the ring electromagnets are provided in a net shape.

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