KR101869601B1 - Apparatus for heat treatment using high frequency magnetic field - Google Patents

Abstract

The present invention relates to a heat treatment apparatus using a high frequency magnetic field, and a heat treatment apparatus using the high frequency magnetic field according to the present invention includes a work table; An induction heating heat treatment unit disposed in a part of the work table for induction heating a metal material having a rod shape and performing heat treatment; A metal material guide arranged on one side of the induction heating heat treatment part and guiding the metal material to the induction heating heat treatment part; And a metal material feeder disposed on the other side of the induction heating heat treatment section and for catching and transferring the metal material using a jaw.

Description

TECHNICAL FIELD [0001] The present invention relates to a heat treatment apparatus using a high frequency magnetic field,

The present invention relates to a heat treatment, and more particularly, to a heat treatment apparatus using a high frequency magnetic field for applying a high frequency magnetic field to a material to heat treat the material.

Generally, rod-like materials such as long pipes and rods are sometimes subjected to heat treatment in order to improve the mechanical properties such as hardness and strength or to form a designed shape. There are various methods of heat treatment. In the case of a rod-shaped material, there is a heat treatment method in which a material is sprayed at a constant speed while spraying a flame or applying a high frequency magnetic field.

On the other hand, Korean Patent Laid-Open No. 10-2003-0060217 discloses an example of a conventional heat treatment apparatus using a high frequency magnetic field in which a high frequency magnetic field is applied to heat treatment.

Hereinafter, a conventional heat treatment apparatus using a high-frequency magnetic field will be described with reference to the drawings.

1 is a schematic view of a conventional heat treatment apparatus using a high frequency magnetic field.

Referring to FIG. 1, a conventional heat treatment unit 1 using a high frequency wave advances horizontally with a rod-like material 21 as a first guide means 11 operated by a drive unit 3 The material 21 is guided to the work coil 31 and the material 21 is heat treated while passing through the work coil 31 and the heat treated material 21 is advanced to the second guiding means 41, 21) is heat-treated all at once.

On the other hand, the first guiding means 11 of the conventional heat treatment apparatus 1 using a high-frequency magnetic field conveys the rod-shaped material 21 using rollers.

When the diameter of the material 21 is small, the contact area between the surface of the roller of the first guiding means 11 and the surface of the material 21 is small, and the material 21 is transferred from the roller of the first guiding means 11 It can slide.

Thereby, when the material 21 slips on the rollers of the first guiding means 11, the material 21 is conveyed in an accelerated motion, thereby causing a problem that the material 21 is unevenly heat-treated.

Korean Patent Publication No. 10-2003-0060217 (published on July 16, 2003)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a magnetic recording medium using a high frequency magnetic field capable of uniformly heat- And a heat treatment apparatus.

According to an aspect of the present invention, there is provided a heat treatment apparatus using a high frequency magnetic field, comprising: a work table; An induction heating heat treatment unit disposed in a part of a work table for induction heating a metal material having a rod shape and performing heat treatment; A metal material guide arranged on one side of the induction heating heat treatment part and guiding the metal material to the induction heating heat treatment part; And a metal material feeder disposed on the other side of the induction heating heat treatment section and adapted to feed and transport the metal material using jaws.

Here, the induction heating heat treatment unit includes a walking coil body provided with a working coil, a cooling water flow path formed therein, and a through hole through which the metal material passes; A plurality of nozzles formed on an inner circumferential surface of the through-hole to inject cooling water flowing through the cooling water flow path; A cooling water supply pipe for supplying cooling water from the outside to the cooling water channel; And an electrode to which the high frequency AC power is applied from the outside to the working coil.

Further, the metal material conveying portion includes a rail provided on a work table; A moving truck capable of moving along the rail; A driving unit for moving the moving vehicle; A main shaft coupled to an upper surface of the moving truck; A chuck body rotatably coupled to the main shaft and having a sliding groove radially formed around the rotating shaft; And a plurality of jaws including a sliding part slidably coupled to the sliding groove and a supporting part protruding outwardly of the sliding part to support the outer surface of the metal material.

At this time, when the plurality of jaws hold the metal material, the outer diameter of each of the plurality of jaws may be smaller than the inner diameter of the through hole of the induction heating heat treatment unit.

On the other hand, the heat treatment apparatus using the high-frequency magnetic field further includes an auxiliary metal material guide portion which is disposed on the other side of the induction heating heat treatment portion and supports the metal material conveyed by the metal material conveyance portion, A third roller disposed in a line on one side of the path; A fourth roller paired with the third roller and arranged in a line on the other side of the path through which the metal material is fed; An auxiliary guide roller support having an upper portion rotatably coupled to the third and fourth rollers; A lifting member coupled to the work table and lifting the auxiliary guide roller support; A metal material conveyance portion sensing sensor disposed on one side of the elevation member and sensing the presence or absence of the metal material conveyance portion on the image side; And a control unit for controlling the elevating member to raise the auxiliary guide roller support when the metal material conveyance unit detection sensor detects the absence of the metal material conveyance unit.

According to the high frequency heat treatment unit according to the present invention, even when the diameter of the material is small, the material can be transported at a constant speed and the material can be uniformly heat-treated.

1 is a schematic view of a conventional heat treatment apparatus using a high frequency magnetic field.
2 is a plan view schematically showing a heat treatment apparatus using a high frequency magnetic field according to an embodiment of the present invention.
3 is a perspective view schematically showing an induction heating heat treatment unit according to an embodiment of the present invention.
4 is a perspective view schematically showing a metal material guide according to an embodiment of the present invention.
FIG. 5 is a perspective view schematically showing a chuck body and a plurality of jaws of a metal material transfer unit according to an embodiment of the present invention.
FIG. 6 is a side view showing a chuck body and a plurality of jaws of a metal material transfer unit according to an embodiment of the present invention.
7 is a plan view schematically illustrating an auxiliary metal material guide according to an embodiment of the present invention.
8 is a perspective view schematically showing an auxiliary metal material guide according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that will be readily apparent to those skilled in the art, And this does not mean that the technical idea and scope of the present invention are limited.

Hereinafter, a heat treatment apparatus using a high frequency magnetic field according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 3 is a perspective view schematically showing an induction heating heat treatment unit according to an embodiment of the present invention, and FIG. 4 is a cross- FIG. 5 is a perspective view schematically showing a chuck body and a plurality of jaws of a metal material transferring part according to an embodiment of the present invention, and FIG. 6 is a perspective view schematically showing a metal material guide part according to an embodiment of the present invention. FIG. 5 is a side view showing a chuck body and a plurality of jaws of the metal material delivery portion according to one embodiment.

2 to 6, a heat treatment apparatus 100 using a high frequency magnetic field according to an embodiment of the present invention includes a work table 200, a metallic material M having a rod shape disposed on a part of the work table 200, A metal material guide portion 400 disposed on one side of the induction heating heat treatment portion 300 and guiding the metal material M to the induction heating heat treatment portion 300; And a metal material feeder 500 disposed on the other side of the induction heating heat treatment unit 200 and configured to feed and transport the metal material M by using a jaw 550.

The work table 200 may be implemented as a plan plate or a table so that the induction heating heat treatment unit 300, the metal material guide unit 400, and the metal material feed unit 400 can be stably installed on the upper surface.

The induction heating heat treatment unit 300 includes a working coil body 310 having a working coil not shown in the figure and formed with a cooling water flow path not shown in the figure and a through hole 340 through which the metal material M passes, A plurality of nozzles 350 formed on the inner circumferential surface of the through hole 340 for spraying the cooling water flowing through the cooling water flow path, a cooling water supply pipe 360 for supplying cooling water to the cooling water flow passage received from the outside, And electrodes 371 and 372 for applying AC power to the working coil. When the metal material M passes through the through hole 340, the induction heating heat treatment unit 300 applies a high frequency magnetic field to the metal material M by using a working coil, The metal material M is heated by generating heat due to eddy current loss and hysteresis loss in the material M. [ The induction heating heat treatment unit 300 cools the metal material M by spraying the metal material M that has passed through the through hole 340 using a plurality of nozzles 350. Thus, the metal material M that has passed through the through hole 340 is heat-treated.

The metal material guide portion 400 includes a first roller 410 arranged in a line on one side of a path P on which the metal material M is conveyed, A second roller 420 arranged in a line on the other side of the path P from which the first and second rollers 410 and 420 are conveyed and an upper part rotatably coupled with the first and second rollers 410 and 420, And a roller support 430. The first roller 410 and the second roller 420 are disposed so that the rotational axis S of the first roller 410 and the second roller 420 is perpendicular to the path P RTI ID = 0.0 > PX. ≪ / RTI >

The metal material guide portion 400 having the above-described structure is configured such that when the metal material M is placed in the first roller 410 and the second roller 420 and the metal material M is fed to the induction heating heat treatment portion 300, the metal material M is guided so that the metal material M can be stably conveyed to the induction heating heat treatment unit 300. The plurality of metal material guide portions 400 may be formed.

The metal material transfer unit 500 includes a rail 510 installed on the work table 200, a movable carriage 520 movable along the rail 510, a driving unit 560 for moving the movable carriage 520, A chuck body 540 rotatably coupled to the main shaft 530 and formed with a sliding groove 541 radially formed around the rotation axis RS, A plurality of jaws 550 including a sliding portion 551 slidably coupled to the groove 541 and a support portion 552 protruding outside the sliding portion 551 to support the outer surface of the metal material M, . Each of the plurality of jaws 550 is slid toward the rotation axis RS in a state where the metal material M is positioned between the support portions 552 of the plurality of jaws 550, And moves the moving carriage 520 in a state in which the metallic material M is held, thereby transporting the metallic material M.

6, a plurality of jaws 550 may have an end outer diameter D1 formed by the supporting portions 552 of each of the plurality of jaws 550 when the metal material M is held by the metal material M, May be smaller than the inner diameter (D2) of the through hole (340) of the induction heating heat treatment section (300). Accordingly, the metal material transfer unit 500 can hold the metal material M before the metal material M passes through the through hole 340.

FIG. 7 is a plan view schematically showing an auxiliary metal material guide according to an embodiment of the present invention, and FIG. 8 is a perspective view schematically showing an auxiliary metal material guide according to an embodiment of the present invention.

7 and 8, a heat treatment apparatus 100 using a high-frequency magnetic field according to an embodiment of the present invention is disposed at the other side of the induction heating heat treatment unit 300 and is conveyed by the metal material conveyance unit 500 And an auxiliary metallic material guide portion 600 for supporting the metallic material M. [

Specifically, the auxiliary metal material guide portion 600 is paired with a third roller 610 and a third roller 610 arranged in a line on one side of the path P on which the metal material M is transported, A fourth roller 620 arranged in a line on the other side of the path P on which the material M is transported and an auxiliary guide roller support 630 on which the third and fourth rollers 610 and 620 are rotatably engaged, An elevating member 640 coupled to the work table 200 to elevate and lower the auxiliary guide roller support 630 and a lifting member 640 disposed on one side of the elevating member 640 to lift and lower the metal material feeder 500 The metal material conveyance unit detection sensor 650 and the metal material conveyance unit detection sensor 650 detect the presence of the metal material conveyance unit and control the elevation member 640 to lower the auxiliary guide roller support 630, When the material conveyance unit detection sensor 650 detects the absence of the metal material conveyance unit, the control unit 640 controls the elevation member 640, It may include a control unit 660 that increases the internal roller support (630).

The elevating member 640 is embodied as a generally known electric hydraulic elevating unit, and the metal material conveying unit detecting sensor 650 can be embodied as a sensor capable of sensing an object, such as a generally known proximity sensor.

The auxiliary metal material guide portion 600 as described above prevents the heat-treated metal material M from being sagged and deformed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims. will be. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Heat treatment apparatus using high frequency magnetic field
200: Workbench
300: induction heating heat treatment unit
400: metal material guide portion
500: metal material transfer part
600: auxiliary metal material guide portion

Claims (5)

A work table 200; An induction heating heat treatment unit 300 disposed at a part of the work table for induction heating a metal material having a rod shape and performing heat treatment; A metal material guide portion (400) disposed on one side of the induction heating heat treatment portion and guiding the metal material to the induction heating heat treatment portion; And a metal material transferring part (500) arranged on the other side of the induction heating heat treatment part for transferring the metal material by using a jaw,
The metal material transfer unit 500 includes a rail 510 installed on the work table; A moving carriage 520 movable along the rail; A driving device 560 for moving the moving vehicle; A main shaft 530 coupled to an upper surface of the moving truck; A chuck body 540 rotatably coupled to the main shaft and having a sliding groove formed radially about the rotational axis; And a plurality of jaws (550) including a sliding portion slidably coupled to the sliding groove and a support portion protruding outwardly of the sliding portion to support an outer surface of the metal material,
When the plurality of jaws 550 hold the metal material M, the end outer diameter D1 formed by the supporting portions 552 of the plurality of jaws 550 is smaller than the outer diameter D1 of the through holes of the induction heating heat- Is formed to be smaller than the inner diameter of the through hole (340) so that the metal material (M) is held and conveyed before passing through the through hole (340) of the induction heating heat treatment part (300) Heat treatment apparatus using high frequency magnetic field. The method according to claim 1,
Wherein the induction heating heat treatment unit comprises:
A working coil body provided with a working coil, a cooling water channel formed therein, and a through hole through which the metal material passes;
A plurality of nozzles formed on an inner circumferential surface of the through-hole to inject cooling water flowing through the cooling water passage;
A cooling water supply pipe for supplying cooling water from the outside to the cooling water channel; And
And an electrode for applying a high frequency AC power to the working coil from the outside and applying the high frequency AC power to the working coil. delete delete The method according to claim 1,
Further comprising an auxiliary metal material guide portion disposed on the other side of the induction heating heat treatment portion and supporting the metal material conveyed by the metal material conveyance portion,
Wherein the auxiliary metal material guide portion comprises:
A third roller arranged in a line on one side of a path through which the metal material is fed;
A fourth roller paired with the third roller and arranged in a line on the other side of the path through which the metal material is fed;
An auxiliary guide roller support having an upper portion rotatably coupled with the third and fourth rollers;
A lifting member coupled to the work table and lifting the auxiliary guide roller support;
A metal material conveyance portion sensing sensor disposed on one side of the elevation member and sensing the presence of the metal material conveyance portion on an upper side; And
And a control unit controlling the elevating member to raise the auxiliary guide roller supporting member when the metal material conveyance unit detecting sensor senses the absence of the metal material conveyance unit.

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