KR20110051335A - Heating area variable induction heating apparatus - Google Patents

Abstract

PURPOSE: A heat zone variable form induction heater is provided to improve a quality of heat treatment product and increase heat treatment efficiency. CONSTITUTION: A induction heater(100) includes a heating main body(110) and a heat module(120). The heat module is assembled in the heating main body with a cartridge method in order to be replaceable. The heat module is arranged to a direct image unit as having a constant interval from a heated body(2) which will be heat treated. In floor side of a depression(112), a power connection terminal groove(114) is electrically connected to a power cable(116). In the heating main body, the heating body which is inserted to the depression includes a fixing plate not to be separated to a lower part by a weight.

Description

Heating Area Variable Induction Heating Apparatus

The present invention relates to an induction heating apparatus capable of varying a heating area, and more particularly, induction heating area can be easily adjusted according to a change in size of a heating body while constantly and uniformly heating the entire area of the heating object. The present invention relates to a heating area variable induction heating apparatus that can flexibly respond to a change in size of a heating element and can reduce energy consumption by excluding unnecessary heating.

In general, high frequency induction heating (hereinafter referred to as induction heating) used for metal heating is caused by electromagnetic induction, and conductors such as metals located in a coil in which an alternating current (high frequency) current flows cause eddy current loss and hysteresis. Hysteresis is the generation of heat by resistance of loss.

The heating energy (metal or conductor) to be heated using the heat energy generated as described above is called induction heating, and in particular, using high frequency current is called high frequency induction heating (高周波 誘導 加熱).

A heat treatment for heating and treating a heated object such as steel sheets, slabs, and steels is to heat the metal material to a temperature below the melting point, and selectively decrease and decrease the cooling rate to give the required structure and properties.

Accordingly, the slabs, steel sheets, and steels produced in the steel mill are heated or stopped in one direction as shown in FIG. 5 to have desired physical properties according to the use used in automobiles, ships, and aircrafts. Heat treatment is performed using the heat generated from the induction heating device 10 disposed at a predetermined interval in the vicinity of the).

At this time, in the conventional induction heating apparatus 10, as shown in Figure 6 (a), the coil holder 5, which is wound and fixed to the induction coil 6 is fixed to the lower surface of the heating body, such a coil holder (5) has an outer diameter corresponding to the width of the heating target body 2 to be heat treated, and thus the heating target body 2 corresponding to a region where the induction coil 5 is not wound in the process of heat-treating the heating target body. Induction heating does not affect the induction heating, which results in a poor heat treatment that the heating element is unevenly heated.

In addition, when the width of the heating target member 2 to be heat-changed is variable, the coil holder 5 must be replaced by the heating main body 3 in accordance with this, and the worker replaces the coil holder that is heavy. It is very cumbersome, and the replacement work time lengthens the overall work time of the heat treatment process, which is the main cause of deterioration of work productivity.

In addition, in the case of heating the heated member without replacing the existing coil holder in a state in which the width of the heated member is reduced, there is a problem in that energy consumption is excessive due to unnecessary power consumption, thereby increasing the manufacturing cost of the product.

Accordingly, the present invention is to solve the above problems, the object is to uniformly and uniformly heat the entire area of the heating object having a large area to increase the heat treatment efficiency, according to the size change of the heating body The induction heating zone can be easily and quickly adjusted to flexibly respond to the change in the size of the heated object, and to provide a heating zone variable induction heating device that can reduce energy consumption by eliminating unnecessary heating.

As a specific means for achieving the above object, the present invention is an apparatus for induction heating of a heating object, which is arranged at a predetermined distance from the heating body, on one side corresponding to the surface of the heating body. A heating body having a plurality of depressions which are formed to have a predetermined depth; A coil holder inserted into and fixed to the recess in the power connection terminal groove formed in the bottom of the recess and electrically connected to the recess, and a predetermined length is wound around the core of the coil holder and electrically connected to the connection terminal. It provides a heating zone variable induction heating apparatus comprising a heating module having an induction coil connected thereto.

Preferably, the heating body includes a fixing plate through which through holes having an inner diameter smaller than the outer diameter of the coil holder and larger than the outer diameter of the induction coil for each region corresponding to the recessed portion.

More preferably, the fixing plate is integrally fixed to one side of the heating body by means of an adhesive or replaceably assembled via a fastening member.

Preferably, the depression is provided with a predetermined depth of the same size as the height of the coil holder or is provided with a size lower than the height of the coil holder.

Preferably, the heating module is mounted to each of the plurality of recesses in which rows and columns are constantly provided in a matrix form on one side of the heating body.

Preferably, the heating module is mounted to each of the plurality of recesses provided to alternate the front row and the rear row on one side of the heating body.

Preferably, each power cable electrically connected to the power connection terminal groove is electrically connected to a control unit connected to an external power source so as to individually control a plurality of heating modules provided in the heating body.

According to the present invention, a plurality of heating modules are replaceably provided on one side of a heating body arranged in close proximity to a heating object to be heat treated, thereby heat treating the entire area of the heating object having a large area using one heating module. Compared with that, the heat can be heated uniformly and uniformly, thereby improving the heat treatment efficiency and improving the quality of the heat treated product.

In addition, by removing or remounting the heating module assembled so as to be replaceable on one side of the heating body, the induction heating zone can be easily and quickly adjusted in accordance with the size change of the heating body, thereby flexibly responding to the size change of the heating body. It is possible to reduce the capital investment because it is not necessary to maintain and maintain a heating body having various sizes.

In addition, it is not necessary to apply an alternating current to the heating module disposed outside the unnecessary induction heating area, thereby reducing the energy consumption and reducing the manufacturing cost of the heat treatment product.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a longitudinal sectional view showing a heating zone variable induction heating apparatus according to a first embodiment of the present invention, Figure 2 is a heating zone variable induction heating apparatus according to a first embodiment of the present invention, a) Is an exploded perspective view from above, and b) is an exploded perspective view from below.

Induction heating apparatus 100 according to the first embodiment of the present invention, as shown in Figure 1 and 2 (a) (b), the heating body 110 is disposed in the vicinity of the heating target body, and the heating It includes a heating module 120 is assembled in a cartridge method so that the main body 110 is replaceable.

The heating body 110 is disposed directly above the heating body 2 to be heat-treated at a predetermined interval, and the heating module 120 is assembled on one side surface corresponding to the surface of the heating body 2. It is provided with a plurality of recesses 112 formed to be a predetermined depth so as to.

In addition, the bottom surface of the recess 112 has a power connection terminal groove 114 electrically connected to the power cable 116 so that AC power is input when power is applied, and the power connection terminal groove 114 is provided. The connection terminal 124 of the coil holder 122, which will be described later, is inserted and fixed.

Each power cable 116 electrically connected to the power connection terminal groove 114 is a controller 130 connected to an external power source so as to individually control a plurality of heating modules 120 provided in the heating body 110. May be electrically connected).

Here, the controller 130 is a storage unit for receiving and storing the product information, such as material type, width, length, thickness, weight of the object to be heated, and the product information of the pre-stored object to be heat-treated A comparison judging unit may be provided to compare product information of different heating elements to determine a heating area.

The heating module 120 is a heating means that is assembled so as to be replaced on one side of the heating body 110, the heating module 120 includes a coil holder 122 and the induction coil 126, the coil Holder 122 has a plurality of terminals formed on one side of the heating body 110 by having a connection terminal 124 is inserted into the corresponding power connection terminal groove 114 formed on the bottom surface of the recess 112 electrically connected to One-to-one correspondence is inserted and assembled for each recess 112.

The induction coil 125 is a coil member that is wound around a core 123 formed in the center region of the coil holder at a predetermined length, and both ends of the induction coil 126 are connected to the coil holder in pairs. Electrically connected to 124, respectively.

On the other hand, the heating body 110 includes a fixing plate 129 so that the heating body inserted corresponding to the depression 112 is not separated downward by its own weight, the fixing plate 129 is the depression 112 For each region corresponding to the through hole 129a having an inner diameter smaller than the outer diameter of the coil holder 122 and larger than the outer diameter of the induction coil 126 is formed.

In this case, when the fixing plate 129 having the through hole 129a is assembled to one side of the heating body 110, the coil holder 122 inserted into the recess 112 may be disposed in the through hole 129a. It can be fundamentally prevented by being pulled down by the dead weight.

The fixing plate 129 is not affected by the magnetic flux, it is preferably made of a non-metallic material, such as engineering plastic having a heat resistance, this fixing plate 129 is an adhesive means such as adhesive on one side of the heating body 110 It can be fixed integrally via the media, but is not limited thereto, and may be assembled to replace one side of the heating body 110 via a fastening member (not shown) such as a bolt.

In addition, the depression 112 provided on one side of the heating body 110 is the heating module 120 is embedded in the depression without protruding from one side of the heating body 110 directly below the heating body ( The predetermined depth of the recess is preferably equal to the height of the coil holder to prevent interference with 2), but is not limited thereto. As shown in FIG. 3, the heating module 120 includes the heating body 110. It may be provided with a size relatively lower than the height of the coil holder 122 to facilitate the replacement of the heating module 120 while being protruded a predetermined length directly from one side of the bottom to close to the heating element (2). .

And, as shown in Figure 2 (b), the heating module 120 is stopped by being mounted to each of the plurality of recessed parts are provided with a constant row and column in a matrix form on one side of the heating body A heating module arranged in a matrix form with respect to the heating body may be uniform, but is not limited thereto. As illustrated in FIG. 4, a plurality of front and rear rows of the heating body may be alternated with each other. In each heat treatment process, the heating elements move in one direction or the heating body moves in one direction, so that the heating elements in the rear row are arranged in the space between the heating module in the front row and the heating module adjacent to the heating elements in the one direction or the heating elements move in one direction. It can be heated.

In the heating area variable induction heating apparatus 100 having the above-described configuration, when an alternating current is applied to the induction coil of the heating module through a power cable, an alternating magnetic flux is generated so that an eddy current, which is an induction current, flows in the heating object 2. In addition, the induced current generates Joule heat by the eddy current loss, and heat generated by rapid heating of the heating element 2 in a short time as the generated heat.

At this time, the heating module 120 is arranged in plural with a predetermined interval on one side of the heating body, as shown in Figure 6 (a), by using one heating module to induce one heating zone in the heating element. Compared with the heat treatment that is formed and non-uniformly, the large area of the heating object can be heat-treated uniformly by forming a plurality of induction heating regions on the heating object without irreversible region.

In addition, as a method of reducing the induction heating range using the heating module because the width or length of the heating target body 2 to be heat-reduced is shortened, a plurality of heating modules 120 fixedly inserted into the recesses of the heating main body are provided. ) By holding the heating module disposed outside the induction heating range of the heated object 2 and pulling it directly below, the connection terminal 124 inserted into the power connection terminal groove 114 is separated and unnecessary heating module 120 is removed. Since it can be easily and quickly separated and removed from the heating body, the induction heating area of the heating module can be easily and quickly reduced and adjusted according to the size of the heated object.

At this time, the fixing plate 129 which is mounted on one side of the heating body 110 is disassembled before the separating operation of the heating module 120, and reassembled when the separating operation of the heating module is completed.

In addition, another method for reducing the induction heating range using the heating module by reducing the width or length of the heated object 2 'to be heat-treated is based on product information of the heated object to be heat-treated by the controller. The size of the blood is changed by controlling the AC current is not input to the heating module disposed outside the induction heating range of the heating element (2 ') of the plurality of heating module 120 is fixed to the depression of the heating body to According to the heating element, the induction heating area of the heating module can be easily and quickly reduced and adjusted.

At this time, the fixing plate 129 mounted on one side of the heating body 110 to be replaceable is maintained as it is without having to be separated from the heating body.

On the contrary, in order to expand the induction heating range using the heating module because the width or length of the heated object 2 to be heat-treated is increased, the heating module separated from the depression of the heating body in accordance with the enlarged induction heating range in contrast to the above. Re-install the control panel to control the input of the alternating current to the heating module corresponding to the fixed or enlarged induction heating range while electrically connecting to enable the input of the alternating current. You can easily and quickly adjust the magnification.

While the invention has been shown and described with respect to particular embodiments, it will be understood that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a longitudinal sectional view showing a heating area variable induction heating apparatus according to a first embodiment of the present invention.

Figure 2 shows a heating area variable induction heating apparatus according to a first embodiment of the present invention,

a) is an exploded perspective view from above,

b) is an exploded perspective view from below.

3 is a longitudinal sectional view showing a heating area variable induction heating apparatus according to a second embodiment of the present invention.

4 is a perspective view showing a heating area variable induction heating apparatus according to a second embodiment of the present invention.

5 is a schematic view showing a general large area induction heating apparatus.

6 (a) shows a heating area distribution for an induction heating device using one heating module, and FIG. 6 (b) shows a heating area distribution for an induction heating device using a plurality of heating modules.

   Explanation of symbols on the main parts of the drawings

110: heating body 112: depression

114: power connection terminal groove 116: power cable

120: heating module 122: coil holder

124: connecting terminal 126: induction coil

Claims (7)

In the apparatus for induction heating to heat-treat the heating element, A heating body disposed at a predetermined interval from the heating body and having a plurality of depressions recessed in a predetermined depth on one side surface corresponding to the surface of the heating body; A coil holder inserted into and fixed to the recess in the power connection terminal groove formed in the bottom of the recess and electrically connected to the recess, and a predetermined length is wound around the core of the coil holder and electrically connected to the connection terminal. Induction heating apparatus variable heating region, characterized in that it comprises a heating module having an induction coil connected. The method of claim 1, The heating body has a variable heating region induction heating apparatus characterized in that it comprises a fixing plate through the through hole having a smaller inner diameter than the outer diameter of the coil holder and the inner diameter of the induction coil corresponding to each of the recessed portion. to provide. The method of claim 3, The fixed plate is a heating area variable induction heating apparatus, characterized in that the one side of the heating body is fixed integrally by the adhesive or assembling replaceable through the fastening member. The method of claim 1, The recessed portion is variable heating area induction heating device characterized in that provided with a predetermined depth of the same size as the height of the coil holder or less than the height of the coil holder. The method of claim 1, The heating module is a heating area variable induction heating apparatus, characterized in that mounted on a plurality of depressions each of which is constantly provided in a row and column in a matrix form on one side of the heating body. The method of claim 1, The heating module is a heating area variable induction heating apparatus, characterized in that mounted on each of the plurality of recesses provided to alternate the front row and the rear row on one side of the heating body. The method of claim 1, Each power cable electrically connected to the power connection terminal groove is electrically connected to a control unit connected to an external power source to individually control a plurality of heating modules provided in the heating body. .

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