KR200445000Y1 - Nozzle housing of temp core device for rolling process - Google Patents

Abstract

The present invention relates to a nozzle housing of a temper core device for a rolling process, and more particularly, to easily adjust and fix a nozzle in a temper core installed to improve the quality of a rolled product by instantaneously cooling a rolled product in a rolling process. It is related with the nozzle housing of the temper apparatus for a rolling process which was made possible.

An object of the present invention is a rolling process that allows the nozzle member to be firmly fixed and the position can be adjusted in order to prevent the gap between the nozzle member and the nozzle guide in the tempering process during the rolling process from decreasing cooling efficiency. The present invention provides a nozzle housing for a tempo core device.

In order to achieve the above object, the present invention, the nozzle member 55 is inserted into the installation portion 50 formed in the supply pipe 51 to which the cooling water is supplied and the conveying hole 54 is formed so that the rolled product passes; In the nozzle housing of the tempering core device for a rolling process comprising a nozzle guide 56 provided to eject the coolant at intervals from the nozzle member 55,

Mounting part 2 and screwed with the nozzle member 55 inserted into the installation unit 50 so as to move the position of the nozzle member 55 during rotation, and the tip of the nozzle member 55 Locking means for intermittently limiting the hexagonal head (3) and the hexagonal head (3) formed in the block to block rotation and spaced apart from the hexagonal head (3) so that the nozzle member 55 is rotatable Characterized in that it comprises a.

Rolling process, rolling mill, temp core device, jet nozzle

Description

Nozzle housing of temp core device for rolling process {NOZZLE HOUSING OF TEMP CORE DEVICE FOR ROLLING PROCESS}

The present invention relates to a nozzle housing of a temper core device for a rolling process, and more particularly, to easily adjust and fix a nozzle in a temper core installed to improve the quality of a rolled product by instantaneously cooling a rolled product in a rolling process. It is related with the nozzle housing of the temper apparatus for a rolling process which was made possible.

In general, a steel mill goes through a rolling process to produce a rolled material. The rolling process includes a slab, bloom, billet, etc., produced in a continuous casting process, between two rotating rolls. It is molding.

That is, the rolling mill is a device for forming a plate, a bar, etc. through the plastic deformation of the material while passing the material between the rolls rotating at room temperature or high temperature, the transfer guide is installed between the rolling mill and the rolling mill to provide a rolled material. It will be transferred to the rolling roll side of the next step.

In order to further improve the quality of the rolled product produced in the rolling process, a so-called temp core device for quenching the rolled product is installed, which is hollowed out so that the cooling water is supplied as shown in FIGS. 4 and 5. The rolled product which is formed and installed in the supply pipe 51 which is fixed to the fixed height by the support 50 and the installation part 52 which is formed upright in the said supply pipe 51, passes through this, It consists of the nozzle housing 53 which blows out cooling water so that it may be cooled rapidly.

The nozzle housing 53 is press-fitted into the through hole of the installation part 52 and through the gap between the nozzle member 55 and the nozzle member 55 in which the transfer hole 54 is formed so that the rolled product can pass. The cooling water supplied from the supply pipe 51 is ejected and consists of a nozzle guide 56 which is installed to cool the rolled product and is fixed to the installation unit 52, and fixing means installed to fix the nozzle member 55. have.

The fixing means is a fixing bolt 58 fixed to the supply pipe 51 and the fixing bolt 58 is installed on the support 57 and configured to press and fix the side surface of the nozzle member 55. )

That is, the nozzle member 55 is inserted into the installation portion 50 is limited to the position and is fixed by the fixing bolt 58 of the fixing means to be able to fix the position more stably.

Since the coolant is jetted through the gap between the nozzle member 55 and the nozzle guide 56, the fixing (positioning) of the nozzle member 55 becomes very important.

Here, the inlet guide 59 is provided in front of the tempered device so that the rolled product is accurately drawn in.

However, as described above, when the nozzle member and the nozzle guide are inserted into the installation portion and the nozzle member is fixed by the fixing bolt of the fixing means, the position of the nozzle member may be changed by vibration or the like during the rolling process. As a result, the gap between the nozzle member and the nozzle guide is changed, thereby lowering the spraying effect of the cooling water.

That is, when the interval between the nozzle member and the nozzle guide is widened, the ejection of the cooling water is weakened, and as a result, the cooling of the rolled product by the cooling water is not effectively performed and the quality of the rolled product is deteriorated.

Accordingly, an object of the present invention is to solve the above problems, and in order to prevent the cooling member from being lowered by changing the distance between the nozzle member and the nozzle guide in the temper core process during the rolling process, the nozzle member is firmly fixed. In addition, the present invention provides a nozzle housing for a tempering device for a rolling process that enables position adjustment.

In order to achieve the above object, the present invention, the nozzle member is inserted into the installation portion formed in the supply pipe to which the cooling water is supplied, the nozzle member having a conveying hole is formed so as to pass the rolled product, and installed to eject the cooling water at the interval between the nozzle member In the nozzle housing of the temper core device for a rolling process including a nozzle guide,

The mounting portion is screwed with the nozzle member inserted into the mounting portion is installed so as to move the position of the nozzle member during rotation, the polygonal hexagon head formed on the tip of the nozzle member, the hexagon head The intermittent limit is characterized in that it comprises a locking means for blocking the rotation and spaced apart from the hexagonal head so that the nozzle member is rotatable.

As described above, the present invention makes it easy to adjust the position when the nozzle member is screwed to the mounting part and rotates by limiting the hexagonal head of the nozzle member by the restriction formed on the locking member so as not to rotate or spaced apart from the restriction. By making this free, it is easy to adjust the nozzle member and maintain the distance between the nozzle member and the nozzle guide to have the advantage of improving the reliability of the temp core process.

1, 2 and 3 are a front sectional view, a side view and a perspective view of the nozzle housing of the tempering core device for a rolling process according to the present invention, the nozzle member 55 and the screw thread (inserted in the mounting portion 50) ( 1) the mounting portion 2 is connected to the supply pipe 51 and coupled to the supply pipe 51 so as to change the position of the nozzle member 55 during rotation, and the bolt head and the like formed on the tip of the nozzle member 55 and the like; The hexagonal head 3 and the hexagonal head 3 are intermittently restricted to prevent rotation, and the locking means is spaced apart from the hexagonal head 3 so that the nozzle member 55 is rotatable.

That is, when the nozzle member 55 is rotated, the nozzle member 55 is screwed to the mounting portion 2, so that the gap between the nozzle member 55 and the nozzle guide 56 can be adjusted while moving forward and backward.

The locking means is a locking member (5) which is formed with a restricting portion (4) is formed so that the rotation is restricted while the hexagonal head (3) is inserted and is coupled to the adjustment means to be movable on the upper end of the mounting portion (2) Since the rotation is limited when the hexagonal head 3 of the nozzle member 55 is inserted into the restricting portion 4, the nozzle member 55 is not rotated by vibration or the like, and the nozzle guide 56 is provided. The spacing can always be kept constant.

Of course, when the locking member 5 is moved by the adjusting means and the hexagonal head 3 is removed from the limiting part 4, the gap can be easily adjusted by rotating the nozzle member 55.

The adjusting means extends at a right angle with the limiting portion 4 of the locking member 55, and has a movable portion 6 having a predetermined length and a rectangular movement long formed in the movable portion 6. Locking bolt which is screwed with the mounting part 2 through the ball 7 and the above-mentioned moving hole 7, and tightens the bolt to fix the locking member 5 and to loosen the locking member 5 to move. It consists of (8).

When explaining the operation and effect of the present invention as described above, the rolling is made to the wire rod or rod by a rolling roll in the rolling process, when the rolled product is discharged from the rolling roll, the entrance guide of the temp core device (59) Rolled products are introduced into

When the rolled product is introduced into the inlet guide 59, the rolled product is transferred through the conveying hole 54 of the nozzle member 55. At this time, the nozzle member is supplied because the coolant is being supplied through the supply pipe 51. Cooling water is ejected at a predetermined pressure through the gap between the 55 and the nozzle guide 56.

When the coolant is ejected at a certain pressure, the rolled product passing through it is rapidly cooled and the quality is improved. When the temper core process is performed for a long time, the gap (nozzle) between the nozzle member 55 and the nozzle guide 56 is increased. There is a need for adjustment.

To this end, the worker loosens the locking bolt 8 and moves the locking member 5 to the right in the drawing. At this time, the hexagonal head 3 of the nozzle member 55 is the limiting part 4 of the locking member 5. By being separated from the worker is in a state capable of rotating the nozzle member 55 through a wrench or the like.

When the operator rotates the nozzle member 55 through a wrench or the like, it is screwed with the mounting portion 2, so that the gap between the nozzle guide 55 and the nozzle guide 56 can be accurately adjusted.

When the position adjustment of the nozzle member 55 is completed, the operator moves the locking member 5 to the left side again in the drawing, and the limiting part 4 of the locking member 5 is in close contact with the hexagonal head 3 so that the hexagonal head Limit the rotation of the (nozzle member).

When the hexagonal head 3 of the nozzle member 55 is fitted to the limiting portion 4 of the locking member 5, the operator tightens the locking bolt 8 to fix the locking member 5 so as not to move. The adjustment of the nozzle member 55 is completed.

That is, the nozzle member 55 cannot be rotated by the limiting portion 4 of the locking member 5, so that the nozzle member 55 can be prevented from being rotated due to vibrations, such as a rolling process, and the rolling process. It will be able to maintain the accuracy and reliability of the medium temp core process.

1 is a front sectional view showing a nozzle housing of a temper core device for a rolling process according to the present invention;

2 is a side view of FIG. 1;

Figure 3 is a perspective view of the fixed housing in Figure 1,

Figure 4 is a front sectional view showing a tempering core device for a rolling process applied in a general rolling process,

Figure 5 is a side view showing the entrance guide in Figure 4 except.

Explanation of symbols on the main parts of the drawings

1: thread 2: mounting part

3: hexagon head 4: limiting part

5: Locking member 6: Transfer section

7: moving hole 8: locking member

51: supply pipe 55: nozzle member

56: nozzle guide

Claims (3)

A tempering apparatus for a rolling process including a nozzle member inserted into an installation portion formed in a supply pipe to which cooling water is supplied, and a nozzle member having a conveying hole formed therein for passing a rolled product, and a nozzle guide installed to eject the cooling water at a distance from the nozzle member. In the nozzle housing of The mounting portion is screwed with the nozzle member inserted into the mounting portion is installed so as to move the position of the nozzle member during rotation, the polygonal hexagon head formed on the tip of the nozzle member, the hexagon head The nozzle housing of the tempering core device for a rolling process, characterized in that it comprises a locking means for intermittently restricting the rotation and spaced apart from the hexagonal head so that the nozzle member is rotatable. The method of claim 1, The locking means of the tempering core device for a rolling process characterized in that the hexagonal head is inserted into the locking member is formed to be limited to the rotation is limited and coupled to the control means to be movable on the upper end of the mounting portion Nozzle housing. The method of claim 2, The adjusting means extends at a right angle to the limiting portion of the locking member and is formed with a predetermined length, a moving part having a rectangular shape and a long moving part formed in the moving part, and the mounting part and the screw coupling through the moving hole. In addition, the nozzle housing of the tempering core device for a rolling process characterized in that it consists of a locking bolt to fix the locking member when the bolt is tightened, and the locking member to move material when loosened.

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