KR20170127231A - Induction heating plate which prevents exit of the heating coil production method and withdrawal prevention portion forming apparatus for it - Google Patents

Abstract

The present invention relates to an induction heating plate manufacturing method for preventing separation of a heating coil, and an apparatus for forming a separation preventing unit therefor. According to the present invention, the apparatus for forming a separation preventing unit comprises: a heat plate heated by a temperature which melts an upper portion of a coil insertion groove forming body; a mounting table in which the coil insertion groove forming body having a heating coil wound thereon, is mounted; a heat plate moving means for moving the heat plate in a vertical direction of the coil insertion groove forming body mounted in the mounting table to allow an upper portion of the coil insertion groove forming body to be pressed by the heat plate, and to be released with a pressure thereof; and a mounting table moving means for moving the mounting table forward and backward to move the mounting table in a state that the heat plate presses the coil insertion groove forming body by the heat plate moving means, and generating a sliding phenomenon between the coil insertion groove forming body and the heat plate to form a separation preventing unit which blocks an upper portion of the coil insertion groove. According the induction heating plate manufacturing method of the present invention, the upper portion of the coil insertion groove forming body which forms the coil insertion groove, is pressed by the heat plate in a state that the heating coil is inserted into the coil insertion groove, and the sliding phenomenon in a state of being in contact with the heat plate is generated so as to form the separation preventing unit for blocking the coil insertion groove while the upper portion of the coil insertion groove forming body is collapsed. Accordingly, the wound heating coil is not separated from an installation position, thereby maintaining excellent efficiency thereof for a long time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an induction heating plate manufacturing method and an induction heating plate forming apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and a method for manufacturing an induction heating plate which is a core component of an induction range and the like.

Generally, induction range is applied to high induction magnetic induction technology called induction heating.

Specifically, when an alternating current is applied to the induction heating coil inside the induction cooking stove, a magnetic field is generated, eddy current is generated in the center of the magnetic field, and the electric resistance of the metal causes the cooking vessel itself to generate heat It is a way to be able to cook.

Therefore, such an induction range does not cause a fire because there is no flame or harmful gas, and there is no generation of carbon monoxide which is inevitably generated when a gas is used as a heat source.

Therefore, there is a characteristic that it is possible to maintain a pleasant indoor space because the indoor oxygen consumption is small, and there is no fear of burning while the container is heated, and there is no danger of fire and explosion because there is no flame.

The induction range is installed in the main body with an induction circuit, ventilation fan, and the like, and the upper surface is mostly made of a material such as ceramic glass.

Such a conventional induction cooking stove is generally made so that its top surface is flat, and the cooking vessel is placed on a flat upper surface to cook food by directly heating the cooking vessel.

A conventional induction heating coil used in such an induction range is formed by winding a twisted wire formed by twisting a plurality of strands of copper wire into a circular plate shape, coating an enamel varnish as an insulating coating film so as to maintain its shape, The copper strand is rolled in a disk shape, and then the self-bonding varnish coated with heat is cured to form an integrated disk shape, and is attached to the support plate, and after being attached to the support plate, And it has a fixed form in order to maintain a certain shape without scattering or loosening.

Conventionally, since the helically wound heating coils are kept in close contact with each other without any gap, there is a problem that the amount of expensive heating coil is increased when the heating coil wound in a disk shape is manufactured.

In addition, the increase in the amount of expensive heating coil increases the cost of the induction cooking appliance to lower the profitability, and the heating coil itself is heated due to the resistance force generated between the heating coils, thereby damaging the heating coil.

In order to solve this problem, the induction heating coil used in the conventional induction cooking stove is installed at a distance of about 3 to 5 mm from the cooking vessel, and the output of the magnetic field is controlled so that the cooking vessel can be heated to lower the permeability. It is usually formed by winding a spiral (helical winding when extended outward) to form one or 1.5 stages.

Therefore, the size of the induction heating coil is variously changed according to the size of the cooking vessel depending on the places such as home or restaurant.

That is, since the cooking vessel used in the restaurant has a larger diameter than the cooking vessel used in the home, the diameter of the induction heating coil of the induction cooking stove used in a restaurant or the like is made larger and used. And a transmittance of 3 to 5 mm was used.

However, when the output is increased to increase the transmittance, the voltage flowing through the induction heating coil is not stable and it is difficult to increase the output.

Specifically, in the conventional induction range, AC is rectified to make DC, and then the voltage is lowered by a small DC to use as a power source of the control unit. However, when the IGBT is continuously driven, the IGBT is destroyed .

Korean Patent No. 1450238 and Korean Patent No. 1096103 have been proposed as techniques for solving the above problems.

The above technique is a technique of providing an induction heating coil and an induction heating plate that can be wound at equal intervals to reduce the number of parts, thereby reducing cost economically and improving productivity.

However, there is a problem that the amount of the heating coil to be wound is smaller than that of the heating coil wound in close contact with each other, the thermal efficiency is lowered, the transmittance is further lowered, and the time for heating the cooking vessel is increased.

In the induction cooking pot designed for the size of a cooking vessel commonly used in a home or a restaurant, when a cooking vessel smaller than a commonly used cooking vessel is used, noise is generated due to a magnetic field generated outside the cooking vessel The problem of not being efficiently heated occurred.

In recent years, in order to reduce the cooking space occupied by the induction cooking stove, an induction cooking stove is installed at the bottom of the cooking stove and the dining table. For this purpose, the cooking stove and the dining table are made of materials not affected by the magnetic field, There has been developed an induction range that satisfies a condition that a magnetic permeability of a magnetic field generated by a coil must be high.

For this reason, the Korean Patent Registration No. 10-1534510 appeared.

In the above technique, since the heating coil is wound in several layers while the gap between the heating coils is kept constant, the cooking chamber is smaller in diameter than the heating portion, It is a technology that can be done.

However, the above technique has a problem in that the winding coil is frequently disconnected from the heating coil.

Korean Patent No. 1450238 Korean Patent No. 1096103 Korea Patent No. 10-1534510

The present invention has been made in an effort to solve the above problems, and it is an object of the present invention to provide an induction heating plate manufacturing method in which a coiled heating coil is not separated from an installation position and excellent efficiency is maintained for a long time. .

In the present invention, in the state where the heating coil is inserted into the coil insertion groove of the induction heating plate, the upper part of the coil insertion groove forming body for forming the coil insertion groove is pressed by the heating plate and slipping occurs in contact with the heating plate The upper portion of the coil insertion groove-forming body is disintegrated to form a departure preventing portion for cutting off the coil insertion groove.

 Thereby allowing the wound heating coil to be removed from the mounting position, thereby providing an induction heating plate in which excellent efficiency is maintained for a long time.

The induction heating plate manufacturing method of the present invention includes a heating coil installation step in which a heating coil is inserted into a coil insertion groove formed in a coil insertion groove forming body so that the heating coil is positioned in a coiled shape while drawing a spiral extending outward .

Further, there is a hot plate pressing step for pressing the upper portion of the coil insertion groove forming body forming the coil insertion groove by the hot plate after the heating coil setting step.

Further, after the hot plate pressing step, a slipping phenomenon is generated between the coil insertion groove forming body and the hot plate while maintaining the state that the upper portion of the coil insertion groove forming body is in contact with the heat plate, so that the upper part of the coil insertion groove forming body is broken, And a release preventing portion forming step for forming a releasing preventing portion for blocking.

To this end, the separation preventing portion forming apparatus of the present invention has a heating plate heated to a temperature at which the upper portion of the coil insertion groove-formed body is melted.

In addition, it has a table on which a coil insertion groove formed body in which the heating coil is wound is placed.

Further, there is provided a heat plate moving means capable of pressing the upper portion of the coil insertion groove-formed body by the heat plate or releasing the pressing force by moving the heat plate above and below the coil insertion groove formed body on the face table.

In addition, since the table can be moved forward and backward and the table is moved by the hot plate moving means while the hot plate presses the coil insertion slot forming body, a slipping phenomenon occurs between the coil insertion slot forming body and the hot plate, And an anti-departure prevention portion for blocking the upper portion of the door.

The induction heating plate manufacturing method of the present invention is a method of manufacturing an induction heating plate in which a coil insertion groove forming body forming a coil insertion groove is pressed by a heating plate in a state where a heating coil is inserted into a coil insertion groove, And the upper portion of the coil insertion groove-forming body is disintegrated so as to block the coil insertion groove. Thus, the wound heating coil can not be removed from the installation position, and the efficiency can be maintained for a long time. Feature.

In addition, the table setting apparatus of the present invention has a heat plate, an anchor table, a hot plate moving means, and an anchor table moving means, so that it is easy to form the above-described departure preventing portion.

In addition, in the case where the table rotation means for rotating the table is rotated by a predetermined angle, it is easy to form the departure prevention portion at various points on the induction heating plate.

In addition, when the heat plate has a shape which draws a circumference corresponding to the shape from the central portion to the edge of the induction heating plate, the induction heating plate can be formed in the induction heating plate so as to protrude upward toward the central portion.

FIG. 1 is a schematic view for explaining an induction heating plate of the present invention, in which the detachment preventing portions are formed at five points,
2 is a schematic view for explaining a coil insertion groove formed in the induction heating plate of the present invention;
A: Schematic diagram of a coil insertion groove formed in a coil insertion groove
B is a partial cutaway view of a coil insertion groove-forming body which forms a coil insertion groove connected without breaking along a path along which the heating coil is wound
3 is a schematic view for comparing the case where the release preventing portion is formed by simply pressing with the heating plate and the case where slippage occurs between the heating plate and the coil insertion groove forming body,
A: In order to form the departure prevention portion,
B: Schematic diagram of the departure preventing portion formed by sliding the hitting plate or coil insertion groove forming body in a state where the hitting plate and the coil insertion groove forming body are in contact with each other
4 is a schematic view for explaining that the heating coil is wound so as to protrude upward toward the central portion
5 is a schematic view for explaining an apparatus for forming a departure preventing portion for manufacturing an induction heating plate in which the heating coil of the present invention is prevented from being released
6 is a schematic view for explaining another departure prevention part forming apparatus of the present invention in which the heat plate has a shape corresponding to the shape from the central portion to the edge of the induction heating plate

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention relates to a manufacturing method of an induction heating plate and an apparatus for forming a departure prevention portion on an induction heating plate.

However, the present invention has an object to provide an apparatus for forming an anti-departure portion for manufacturing an induction heating plate in which a coiled heating coil does not separate from an installation position, thereby maintaining excellent efficiency for a long time.

The induction heating plate 10 to be manufactured by the present invention has a heating coil 11 positioned in a spiral shape extending outwardly and a ferrite core 11 is disposed at a lower portion of the heating coil 11, 12) are located.

However, the present invention has an object of providing an induction heating plate having a small diameter of the heating portion and having a good output, as well as being able to maintain a good efficiency for a long time because the coiled heating coil 11 is not removed from the initial installation position .

In the induction heating plate of the present invention, the heating coil 11 is inserted into the coil insertion groove 13 formed to maintain the space between the heating coils 11 while being spirally wound to be wound.

The upper portion of the coil insertion groove forming body 14 forming the coil insertion groove 13 is pressed by the heat plate 110 so as to have the deviation preventing portion 15 formed by the upper portion of the coil insertion groove forming body 14 The separation preventing portion 15 is formed such that a phenomenon of slipping occurs between the coil insertion groove forming body 14 and the heat plate 110 while maintaining the state that the heat plate 110 is in contact with the upper portion of the coil insertion groove forming body 14 So that the heating coil 11 is in a rigid state in which it can not escape.

That is, in the induction heating plate manufacturing method of the present invention, the heating coil 11 is inserted into the coil insertion groove 13 formed in the coil insertion groove forming body 14 so that the heating coil 11 extends outward And a heating coil mounting step for placing the heating coil in a winding form.

There is also a hot plate pressing step for pressing the upper part of the coil insertion groove forming body 14 forming the coil insertion groove 13 by the hot plate 110 after the heating coil setting step.

Further, after the hot plate pressing step, a slipping phenomenon is generated between the coil insertion groove-formed body 14 and the heat plate 110 while maintaining the contact between the upper part of the coil insertion groove-formed body 14 and the heat plate 110, Preventing portion 15 for blocking the upper portion of the groove forming body 110 and blocking the coil insertion groove 13 is formed.

Therefore, the induction heating plate 10 manufactured by the manufacturing method of the present invention has the coil insertion groove 13 formed by the coil insertion groove forming body 14, and the helical coil 11, The ferrite core 12 is inserted into the coil insertion groove 13 so as to maintain the gap between the heating coils 11 and the heating coil 11 at a lower portion thereof.

The upper portion of the coil insertion groove forming body 14 is pressed by the heat plate 110 to be dislocated and the heating coil 11 is inserted into the coil insertion groove 13 through the departure preventing portion 15 blocking the upper portion of the coil insertion groove 13. [ (Not shown).

The slidable direction between the coil insertion groove forming body 14 and the heat plate 110 is a direction crossing the heating coil 11 below the departure prevention portion 15 so that the effect of preventing the heating coil 11 from escaping is excellent .

When a phenomenon of slipping occurs between the coil insertion groove forming body 14 and the heat plate 110, the upper portion of the coil insertion groove 13 is mostly covered, and the coiled insertion groove 13 is filled with the broken portion, The insertion groove forming body 14 is pressed and fixed as a whole.

As a result, the effect of preventing the heating coil 11 from coming off is improved.

The occurrence of a phenomenon of slipping between the coil insertion groove forming body 14 and the heat plate 110 can be generated while the coil insertion groove forming body 14 and the heat plate 110 are moved in mutually opposite directions in contact with each other.

Further, the coil insertion groove-formed body 14 is stopped, and a phenomenon of slipping may occur in a manner that the heat plate 110 is moved.

The heat plate 110 is stopped, and the sliding phenomenon may occur in the same manner as in the accompanying drawings in which the coil insertion groove-formed body 14 is moved.

If a specific point on the upper portion of the coil insertion groove forming body 14 is pressed through the thin heat plate, a phenomenon as shown in FIG. 3A occurs. As shown in the drawing, the broken portion is directed upward, This is because the rising phenomenon occurs.

However, in the case of the present invention, as shown in FIG. 3B, a departure preventing portion having an excellent effect of preventing the heating coil 11 from being separated is formed.

The departure prevention part forming apparatus 100 for manufacturing the induction heating plate according to the present invention includes a heat plate 110, an anterior table 120, a heat plate moving unit 130, a table moving unit 140, (See Figure 5).

The heat plate is a component heated to a temperature at which the upper portion of the coil insertion groove forming body 14 is melted.

The reference table 120 is a constituent element in which the coil insertion groove forming body 14 in which the heating coil 11 is wound is housed.

The upper part of the coil insertion groove forming body 14 is moved to the upper side of the heat plate 110 by moving the hot plate 110 of the hot plate moving means 130 to the upper side and the lower side of the coil insertion groove forming body 14, So that the pressing force can be released.

The hot plate moving means 130 can be implemented by using a method using a cylinder 131 or a method used for transporting objects in various industrial fields such as a ball screw device that receives power of a motor.

However, the shape of the hot plate moving means 130 for moving the hot plate 110 up and down through the cylinder 131 can be fast and accurate.

The face table moving means 140 can move the face table 120 forward and backward and move the face plate 110 in the state in which the heat plate moving means 130 presses the coil insertion groove forming body 14, (15) for blocking the upper portion of the coil insertion groove (13) while slippage occurs between the coil insertion groove formation body (14) and the heat plate (110) by moving the coil insertion groove (120) to be.

The seat table moving means 140 can also be implemented using a method using a cylinder 141 or a method used for transferring objects in various industrial fields such as a ball screw device that receives power from a motor.

However, a method of moving the heat plate 110 upward and downward through the cylinder 141 allows rapid transfer and accurate transfer.

In the present invention, when the seat table rotation unit 150 that rotates the seat table 120 by a predetermined angle is further provided, the separation preventing unit 15 can be conveniently formed at a plurality of points.

That is, as shown in the accompanying drawings, it is preferable to form a plurality of separation preventing portions 15 on one induction heating plate.

When the plurality of departure preventing portions 15 are formed as described above, after the departure preventing portions 15 are formed at any one point, the table 120 is rotated by a predetermined angle and then the coil insertion groove forming body 14 is rotated. And the heat plate are brought into contact with each other to form the separation preventing portion 15.

This process is repeated to form the plurality of departure preventing portions 15.

The embodiment of the present invention may be embodied in such a manner that the rotation table 150 is provided with a speed reducer 151 for rotating the table 120.

That is, it is implemented to be automatically rotated by power rather than manual.

In the present invention, it is preferable that a plurality of the release preventing portions 15 are formed in a shape extending outward from the central portion of the induction heating plate.

Since the release preventing portion 15 is easily formed and the release preventing portion 15 traverses the heating coil 11, the effect of preventing the heating coil 11 from being separated There are more excellent features.

The heating coil 11 may be wound so as to protrude upward toward the center of the heating coil 11 (refer to FIG. 4), or may be wound so as to be recessed toward the center of the heating coil 11, The effect of maintaining a constant interval is excellent.

In the case of the induction heating plate having a shape protruding upward toward the central portion, the heat plate 110 can be formed in a shape corresponding to the shape from the central portion to the edge of the induction heating plate to form the separation preventing portion 15 Reference)

In this case, even if the table 120 is moved by the table moving means 140, the coil insertion groove forming body 14 is elastically pressed.

The projecting height L of the coil insertion groove forming body 14 protruding to the upper portion of the heating coil 11 in the state immediately before forming the departure prevention portion 15 is smaller than the projecting height L of the coil insertion groove 13, Is preferably in the range of 70 to 90% with respect to the width (D)

In other words, if the protrusion height L is too small, the effect of preventing the departure of the upper portion of the heating coil 11 is lowered. If the protrusion height L is too large, And the phenomenon of hindering the smooth formation of the electrode 15 may occur.

10. Induction Heating Plate
11. Heating coil
12. Ferrite core
13. Coil insertion groove
14. Coil insertion groove forming body
15. Disengagement prevention part
100. Departure preventing part forming device
110. Heat plate
120. Anchor table
130. Heat plate moving means
131. Cylinders
132. Elastomer
140. An orientation table moving means
141. Cylinders
150. Antenna table rotating means
151. Reducer

Claims (5)

A heating plate 110 heated to a temperature at which the upper portion of the coil insertion groove forming body 14 is melted;
An orientation table (120) on which a coil insertion groove forming body (14) on which a heating coil is wound is placed;
The upper part of the coil insertion groove forming body 14 is pressed by the heat plate 110 or the pressing force is released by moving the heat plate 110 above and below the coil insertion groove forming body 14 placed on the position table 120 A heat plate moving means (130) capable of being provided; And
It is possible to advance and retract the position table 120 and move the table 120 in a state in which the hot plate 110 presses the coil insertion groove forming body 14 by the hot plate moving means 130, And an anti-jam table moving means 140 capable of forming a separation preventing portion 15 for blocking the upper portion of the coil insertion groove 13 while a slipping phenomenon occurs between the groove forming body 14 and the hot plate 110 Wherein the heating coil is made of a material having a high thermal conductivity.
The method according to claim 1,
An anti-rotation table (150) for rotating the anti-reflection table (120) by a predetermined angle; and an anti-departure part forming device for manufacturing the induction heating plate.
The method according to claim 1,
The induction heating plate is convexly raised toward the center,
Wherein the heat plate (110) has a shape corresponding to a shape from a central portion to an edge of the induction heating plate, wherein the heating coil (110) is prevented from departing from the heating coil.
4. The method according to any one of claims 1 to 3,
The heating plate moving means 130 moves the heating plate 110 up and down through the cylinder 131,
The apparatus for forming an anti-departure part for manufacturing an induction heating plate according to claim 1, wherein the seat table moving means (140) moves the seat table (120) back and forth through a cylinder (141).
A method of manufacturing an induction heating plate,
A heating coil mounting step of placing the heating coil 11 in the coil insertion groove 13 of the coil insertion groove forming body 14 so that the heating coil 11 is wound in a spiral shape extending outward;
A heating plate pressing step of pressing the upper portion of the coil insertion groove forming body 14 forming the coil insertion groove 13 by the heating plate 110 after the heating coil mounting step; And
A slip phenomenon may occur between the coil insertion groove forming body 14 and the heat plate 110 while maintaining the state that the upper portion of the coil insertion groove forming body 14 and the heat plate 110 are in contact with each other after the hot plate pressing step, (15) for preventing the coil insertion groove (13) from being formed as the upper portion of the coiled body (14) is collapsed, wherein the induction heating portion Gt;

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