KR102125368B1 - Coating apparatus of continuous casting mold - Google Patents

Abstract

The coating device of the mold for continuous casting according to an embodiment of the present invention is a laser spraying device for forming a laser spray layer on the surface of the mold for continuous casting, and the mold for continuous casting is mounted to prevent deformation of the mold for continuous casting Auxiliary member, a main heater for supporting and heating the auxiliary member, a sub-heater in contact with the side surface of the continuous casting mold, and heating the mold for continuous casting, and a tilt adjuster for adjusting the inclination of the continuous casting mold Includes.

Description

Coating equipment for continuous casting mold {COATING APPARATUS OF CONTINUOUS CASTING MOLD}

The present invention relates to a coating device for a mold for continuous casting.

In recent years, the ratio of continuous casting has been increasing and many studies have been conducted to improve the casting ability. In particular, it is essential to extend the life of the mold in order to improve the casting ability. Increasing the service life of the continuous casting mold can extend the service life to improve the overall casting ability of the caster.

The continuous casting mold consists of two long side molds and a short side mold, respectively. Structurally, the life of the short-side mold is shortened to about 1/2 compared to the long-side mold, so the mold is replaced according to the life of the short-side mold. Increasing the life of the mold can extend the maintenance and repair period to improve the overall casting ability of the player.

In general, a spray coating layer having a more uniform and improved abrasion resistance is formed on the surface of the short-side mold by a laser spray coating method to increase the life of the short-side mold.

However, in the case of a recently used chamfered mold, since both side ends of the short-sided mold are inclined to protrude, it is difficult to form a spray coating layer uniformly along the protruding slope.

In the present invention, it is intended to provide a coating apparatus for a continuous casting mold capable of forming a thermal spray coating layer having a dense and excellent bonding strength.

The coating device of the continuous casting mold according to an aspect of the present invention is a laser spraying device for forming a laser spray layer on the surface of the continuous casting mold, the continuous casting mold is mounted to prevent deformation of the continuous casting mold An auxiliary member, a main heater for supporting and heating the auxiliary member, a sub heater in contact with a side surface of the continuous casting mold and heating the continuous casting mold, and an inclination adjuster for adjusting the inclination of the continuous casting mold do.

The auxiliary member may be surrounded by the main heater and the sub heater.

The main heater and the sub-heater further includes a support plate on which the inclination adjuster includes an inclination adjustment shaft connected to the support plate and an inclination adjustment unit connected to the inclination adjustment shaft, and rotates the inclination adjustment shaft to The inclination of the continuous casting mold mounted on the support plate can be adjusted.

A plurality of fixing parts fastened to the sub heater to fix the mold for continuous casting may be further included.

The plurality of fixing parts may be connected to the support plate.

The sub heater may have a plurality of slot holes into which the plurality of fixing parts are inserted.

The laser spraying device may include a laser generator that generates a laser, and a laser coating head that is connected to the laser generator and supplies powder for coating on the mold for continuous casting and focuses the laser.

The coating apparatus of the mold for continuous casting according to an embodiment of the present invention uses a main heater and a sub-heater to locally heat the amount of heat required for the selective region of the mold for continuous casting, thereby enabling uniform heat treatment to provide a dense and cohesive force. An excellent thermal spray coating layer can be formed.

In addition, the support plate may be inclined using the inclination adjusting unit, and accordingly the mold for continuous casting may be inclined. Therefore, the laser beam can be easily irradiated to the molds for continuous casting of various shapes.

1 is a front view of a coating device for a continuous casting mold according to an embodiment of the present invention.
Figure 2 is a side view of the coating apparatus of the mold for continuous casting according to an embodiment of the present invention.
3 is a plan view of a coating apparatus of a mold for continuous casting according to an embodiment of the present invention.
4 is a plan view of a coating apparatus of a mold for continuous casting according to another embodiment of the present invention.
5 is a side view of a case in which a mold for continuous casting is inclined using a coating device for a mold for continuous casting according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

1 is a front view of a coating apparatus of a continuous casting mold according to an embodiment of the present invention, Figure 2 is a side view of a coating apparatus of a continuous casting mold according to an embodiment of the present invention, Figure 3 is a view of the present invention It is a plan view of a coating device of a mold for continuous casting according to an embodiment.

1 to 3, the coating apparatus for the continuous casting mold according to an embodiment of the present invention includes a laser spraying apparatus 10, an auxiliary member 20, a main heater 30, and a sub heater 40 ), a tilt adjuster 50, a support plate 60, and a holder 70.

The laser spraying apparatus 10 may form a laser spray layer on the surface of the mold 2 for continuous casting. In order to improve the wear resistance of the surface of the mold 2 for continuous casting, a laser sprayed layer is formed on the surface of the mold 2 for continuous casting. The continuous casting mold 2 may include a metal having high thermal conductivity, such as copper (Cu).

The laser spraying apparatus 10 may include a laser generator 11 for generating a laser beam 1 and a laser coating head 12 connected to the laser generator 11.

The laser generator 11 may include a diode laser generator, a fiber laser generator, a CO ₂ laser generator, a YAG laser generator, and the like. The laser generator 11 may irradiate the laser beam 1 having an output of 1 to 8 kW. When the output of the laser beam 1 is low, the input heat source is low, so that the melting of the mold 2 for continuous casting and melting of the incoming powder are difficult. When the output is high, there is a lot of heat and reflection for the mold 2 for continuous casting. Due to the high energy, the optical system may be damaged by the laser beam 1 reflected by the laser generator 11. The wavelength of the laser beam 1 may use a band of 950 ~ 1000nm. Since the wavelength region of the laser beam 1 includes an absorption region of metal, it is possible to diversify the materials usable as the mold 2 for continuous casting.

The laser beam 1 may have a square shape so as to uniformly heat the surface and provide a uniform energy source at a location where the powder is introduced, so that the coating of the coating powder can be uniformly made. The size of the laser beam 1 can be variously used from 1 to 6 mm in length and 3 to 24 mm in width. For example, the laser beam 1 may be formed in a square shape having a width of 4 mm and a length of 4 mm.

The laser coating head 12 may supply powder for coating on the mold 2 for continuous casting and focus the laser beam 1.

The coating powder may have a structure in which at least one species selected from B and Si is mixed with NiCr powder. The powder for coating is supplied to the laser coating head 12. The laser beam 1 melts the powder for coating. The powder for coating is melted by the laser beam 1 to form a thermal spray coating layer on the mold 2 for continuous casting.

The auxiliary member 20 can be mounted on the mold 2 for continuous casting to prevent deformation of the mold 2 for continuous casting. When the mold 2 for continuous casting is heated and deformation occurs, the auxiliary member 20 holds the mold 2 for continuous casting and serves to suppress deformation of the mold 2 for continuous casting. The auxiliary member 20 may include a cooling plate 21. Therefore, the temperature of the mold 2 for continuous casting can be adjusted by rapidly cooling the heated mold 2 for continuous casting.

Under the mold 2 for continuous casting, a bolt assembly 2a for assembling with the cooling plate 21 may protrude. In this case, it is difficult to efficiently transfer the heat of the main heater 30 to the mold 2 for continuous casting. However, in the present embodiment, since the auxiliary member 20 having a groove 20a corresponding to the bolt assembly 2a of the mold 2 for continuous casting is installed, the heat of the main heater 30 is efficiently continuously circulated. It can be delivered to the quiet mold (2). The auxiliary member 20 may include copper (Cu) or the like.

The auxiliary member 20 may be surrounded by the main heater 30 and the sub heater 40. Accordingly, heat generated from the main heater 30 and the sub-heater 40 may be transferred to the mold 2 for continuous casting through the auxiliary member 20.

The main heater 30 supports and heats the auxiliary member 20. Therefore, the heat generated in the main heater 30 is conducted through the auxiliary member 20 to heat the mold 2 for continuous casting. Therefore, the phenomenon that the mold 2 for continuous casting is damaged by heat does not occur.

The sub-heater 40 may contact the side surface of the continuous casting mold 2 and heat the continuous casting mold 2.

A heat compensator 45 may be connected to the main heater 30 and the sub heater 40. Irregular thermal stress concentration may occur in the continuous casting mold 2 by a laser spraying process that irradiates high-density energy locally. However, the heat compensator 45 of this embodiment measures the temperature of the main heater 30 and the sub heater 40 in real time, and selectively heats for temperature correction to selectively mold the casting during the laser spraying process (2). ) It is possible to minimize the thermal stress of the continuous casting mold 2 by maintaining the temperature uniformly according to the set value.

In this way, while forming the laser sprayed layer on the mold 2 for continuous casting, the temperature of the mold 2 for continuous casting is kept constant in real time by a heat conduction method using the main heater 30 and the auxiliary member 20. You can.

In addition, the main heater 30 and the sub-heater 40 locally heated the mold 2 for continuous casting to keep the temperature of the mold 2 for continuous casting constant to match the laser spraying process, so that the heat emissivity The laser spray layer formed on the surface of the high continuous casting mold 2 can be maintained at a constant temperature.

The main heater 30 and the sub heater 40 may be mounted on the support plate 60. The support plate 60 may be larger than the area of the main heater 30 and the sub heater 40 so that the main heater 30 and the sub heater 40 can be mounted.

The tilt adjuster 50 may adjust the tilt of the mold 2 for continuous casting. The inclination adjuster 50 may be installed on the cradle 70.

The tilt adjuster 50 may include a tilt adjusting shaft 51 connected to the support plate 60 and a tilt adjusting unit 52 connected to the tilt adjusting shaft 51.

The tilt adjustment shaft 51 is located under the support plate 60 and is engaged with the support plate 60. Therefore, the support plate 60 has an inclination according to the rotation of the inclination adjustment shaft 51.

The inclination adjustment unit 52 may adjust the inclination of the mold 2 for continuous casting mounted on the support plate 60 by rotating the inclination adjustment shaft 51.

In this way, the support plate 60 may be inclined using the inclination adjuster 50, and accordingly, the mold 2 for continuous casting may be inclined. Therefore, the laser beam 1 can be easily irradiated to the mold 2 for continuous casting of various shapes.

In addition, since it is not necessary to adjust the beam irradiation angle of the laser generator 11 to irradiate the laser beam 1 to the bent portion of the mold 2 for continuous casting, the laser generator 11 is damaged when the irradiation angle is increased. Can be prevented.

On the other hand, in the above embodiment, when the mold 2 for continuous casting is inclined, it may occur, but another embodiment having a fixing part for fixing the mold 2 for continuous casting may be possible to prevent this.

Hereinafter, with reference to FIGS. 4 and 5, the coating apparatus of the mold for continuous casting according to another embodiment of the present invention will be described in detail.

Figure 4 is a plan view of a coating device of a mold for continuous casting according to another embodiment of the present invention, Figure 5 is a continuous casting mold using a coating device of a mold for continuous casting according to another embodiment of the present invention It is a side view of the case.

4 and 5, except for the structure of the fixing part, as compared with the exemplary embodiment shown in FIGS. 1 to 3, the repeated description thereof will be omitted.

4 and 5, the coating apparatus of the mold for continuous casting according to another embodiment of the present invention is a laser spraying apparatus 10 for forming a laser spray layer on the surface of the mold 2 for continuous casting, The continuous casting mold 2 is mounted and the auxiliary member 20 preventing deformation of the continuous casting mold 2, the main heater 30 supporting and heating the auxiliary member 20, and the continuous casting mold 2 ) In contact with the side of the sub-heater 40 for heating the mold 2 for continuous casting, the inclined adjuster 50 for adjusting the inclination of the mold 2 for continuous casting, the support plate 60, the cradle 70, And it includes a plurality of fixing parts 80 for fixing the mold 2 for continuous casting.

The plurality of fixing parts 80 may extend from the support plate 60 and be fastened to the sub heater 40. Accordingly, the plurality of fixing parts 80 can fix the mold 2 for continuous casting by blocking the movement of the mold 2 for continuous casting when the mold 2 for continuous casting is inclined.

The sub heater 40 may have a plurality of slot holes 41 into which a plurality of fixing parts 80 are inserted. Therefore, it is possible to fix the mold 2 for continuous casting by inserting the fixing part 80 into the slot hole 41 at various positions according to the shape of the mold 2 for continuous casting.

Although the present disclosure has been described through preferred embodiments as described above, the present invention is not limited thereto, and various modifications and variations are possible without departing from the scope of the claims described below. Those in the field will readily understand.

10: laser spraying device 20: auxiliary member
30: main heater 40: sub heater
50: Tilt adjuster 60: Support plate
70: cradle

Claims (7)

A laser spraying device that forms a laser spraying layer on the surface of a continuous casting mold,
The continuous casting mold is mounted and an auxiliary member preventing deformation of the continuous casting mold,
The main heater for supporting and heating the auxiliary member,
A sub heater that contacts the side surface of the continuous casting mold and heats the continuous casting mold, and
Inclination adjuster for adjusting the inclination of the mold for continuous casting
Coating device for a continuous casting mold comprising a. According to claim 1,
The auxiliary member is a coating device of a mold for continuous casting surrounded by the main heater and the sub heater. According to claim 1,
Further comprising a support plate on which the main heater and the sub-heater are mounted,
The tilt adjuster
Inclination adjustment shaft connected to the support plate, and
Tilt adjustment unit connected to the tilt adjustment shaft
Including,
A coating device for a continuous casting mold that rotates the inclination adjusting shaft to adjust the inclination of the continuous casting mold mounted on the support plate. According to claim 3,
A plurality of fixing parts fastened to the sub heater to fix the mold for continuous casting
Coating apparatus for a continuous casting mold further comprising a. According to claim 4,
The plurality of fixing parts coating apparatus for a continuous casting mold connected to the support plate. The method of claim 5,
The sub-heater is a coating apparatus for a continuous casting mold having a plurality of slot holes into which the plurality of fixing parts are inserted. According to claim 1,
The laser spraying device
A laser generator that generates a laser, and
A laser coating head that is connected to the laser generator and supplies powder for coating on the mold for continuous casting and focuses the laser.
Coating device for a continuous casting mold comprising a.

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