KR102055529B1 - An electric conduction plate for induction range potand an manufacture method of induction range pot usingit - Google Patents

Abstract

Disclosed are a coupling structure assembly for a magnetic field transfer plate of a cooking vessel for an induction range, and a coupling method thereof. According to the present invention, a ring type processing blade with a predetermined width is formed on an upper circumference of a column type coupling protrusion protruding from a bottom surface of a cooking vessel. Accordingly, even when the column type coupling protrusion is pressed with relatively small pressure, the ring type processing blade is restrictively compressed, extended in left and right directions, and fixed while filling the inside of the coupling hole of the magnetic field transfer plate. Therefore, a completely flat structure of the magnetic field transfer plate can be maintained on the bottom surface of a cooking vessel without bending, and it is possible to prevent the pressure applied to the column type coupling protrusion from being transmitted to an inner bottom surface of the cooking vessel, and prevent a pressed pin mark from being formed on an outer bottom surface of the cooking vessel. Thus, it is possible to increase product reliability.

Description

Magnetic field transfer plate coupling structure assembly of cooking vessel for induction range and its coupling method {AN ELECTRIC CONDUCTION PLATE FOR INDUCTION RANGE POTAND AN MANUFACTURE METHOD OF INDUCTION RANGE POT USINGIT}

The present invention relates to a magnetic field transfer plate applied to the bottom surface of the cooking vessel for the induction range to conduct heat to the magnetic field, and more particularly, when the magnetic field transfer plate is coupled to the outer bottom surface of the cooking vessel, The present invention relates to a magnetic field transfer plate coupling structure assembly of a cooking vessel for an induction range and a method of coupling the magnetic field transfer plate to maintain a completely flat structure without bending.

In general, aluminum and aluminum alloys are widely used as materials for cooking vessels for heating because of their excellent thermal conductivity and good moldability.

However, the induction range cooking vessel can not be made of the above aluminum material, because the material of non-ferrous metal such as aluminum or aluminum alloy is not magnetized, so it is not possible to generate heat by the magnetic field, so the food contained in the cooking vessel This is because it cannot be heated.

The induction range cooking vessel is generally manufactured by attaching a magnetic field transfer plate made of metal to the bottom surface of a cooking vessel made of aluminum or aluminum alloy having good thermal conductivity.

On the other hand, as a method of attaching the magnetic field transfer plate to the bottom surface of the induction range cooking vessel, there is a method of welding or die-casting or pressing pressure bonding.

The welding attachment method has a limited amount of production, so the cost increases, and when producing the cooking container by the die casting attachment method, it is difficult to integrate the main body for cooking materials and the heating plate for the cooking vessel as well as a certain time even if integrated. After this, there is a problem that the heating plate falls.

Compression bonding by the press pressure is in the state protruding the flat columnar engaging projection 101 on the bottom surface of the cooking vessel 100, as shown in Figure 1, the columnar engaging projection 101 is inserted After seating the magnetic field transfer plate 200 in which the coupling hole 201 is formed, the pillar coupling protrusion 101 is pressed by pressing the column coupling protrusion 101 with a press machine (for example, a hammer) of a large pressure. The upper protruding portion of the is compressed to form an area extending portion (101a) extending to the left and right, thereby fixing the magnetic field transfer plate 200.

However, due to the large press pressure applied to the column coupling protrusion 101, the area extension 101a in which the upper protrusion of the column coupling protrusion 101 extends from side to side is coupled to the magnetic field transfer plate 200. While pressing the periphery 201a of the hole 201, there is a problem that a coupling gap 300 is formed between the area extension 101a and the periphery 201a of the coupling hole 201, and the coupling gap as described above. Due to the (300) in the subsequent kumgangsa grinding process, the fine diamond dust particles that are foreign matters are caught in the coupling gap 300, which is when the buyer put the cooking vessel in the induction range and apply the heat when using the fine There is a problem that Geumgang particles fall off.

In addition, when hitting the upper projecting portion of the columnar engaging projection 101 with a large press pressure, the striking pressure is transmitted to the lower portion of the columnar engaging projection 101, the cooking vessel 100 As the pressing pin marks P protrude from the inner bottom surface, the surroundings of the pressing pin marks P may be discolored, thereby degrading reliability of the product.

Published Patent Publication No. 10-2003-0028529 (published 2003.04.08.) Publication No. 10-2006-0003839 (published Jan. 11, 2006) Publication No. 10-2008-0113847 (Published Date 2008.12.31.) Published Patent Publication No. 10-2010-0117410 (Published November 2010.) Published Patent Publication No. 10-2014-0039421 (Published date 2014.04.02.)

The problem to be solved by the present invention is to form a ring-shaped processing blade having a predetermined width around the upper side of the columnar engaging projection projecting to the bottom surface of the cooking vessel, even if the columnar engaging projection is pressed with a small press pressure An induction range that allows the magnetic field transfer plate to maintain a complete flat structure without bending at the bottom of the cooking vessel by allowing the type of processing wings to be squeezed to the left and right to be fixed while filling the inside of the coupling hole of the magnetic field transfer plate. It is to provide a magnetic field transfer plate coupling structure assembly of a cooking vessel.

Another problem to be solved by the present invention, while preventing the pressure applied to the column coupling projection to the inner bottom surface of the cooking vessel induction to prevent the formation of pressing pin marks on the outer bottom surface of the cooking vessel. It is to provide a method of combining a range cooker and a magnetic field transfer plate.

The magnetic field transfer plate coupling structure assembly of the induction range cooking container, which is a means for solving the problems of the present invention, is made of aluminum or an aluminum alloy, the induction range cooking vessel protruding the engaging projection on the outer bottom surface; And a magnetic field transfer plate obtained by processing a metal plate to have a predetermined dimension and shape, and having a coupling hole corresponding to the coupling protrusion. Including, but the coupling protrusion is made of a cylindrical structure of the outer diameter is narrowed as it protrudes upward from the lower side relative to the outer bottom surface of the cooking vessel, while having a predetermined width around the upper side of the coupling protrusion When pressed by a lower force when pressed by an external force is to form a ring-type processing wing that fills the inside of the coupling hole so that the coupling projection to form a horizontal plane with the outer bottom surface of the cooking vessel.

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In addition, the recessed groove is formed on the upper surface of the coupling protrusion by the processing wing, the recessed groove is to have a curved curved surface.

In addition, the protruding height of the coupling protrusion reaching the inner plane of the recessed groove except for the processing wing is the same as the thickness of the magnetic field transfer plate or lower than the thickness of the magnetic field transfer plate.

In addition, while the inner diameter of the coupling hole is the same as the lower outer diameter of the coupling protrusion or smaller than the lower outer diameter of the coupling protrusion, the lower direction of the processing wing between the upper outer diameter of the coupling protrusion and the coupling hole inner diameter guides. The gap is formed.

In addition, the magnetic field transfer plate is made of stainless steel.

According to another aspect, as a coupling method of the magnetic field transfer plate of the cooking container for the induction range, (a) at least one cylinder whose outer diameter becomes narrower from the lower side to the upper side of the outer bottom surface of the cooking vessel made of aluminum or aluminum alloy Protruding a die-type engaging projection and a ring-type working blade having a predetermined width around an upper surface of the engaging projection; (b) perforating coupling holes in a plate-shaped magnetic field transfer plate made of stainless material corresponding to the coupling protrusion of the step (a) whose inner diameter is the same as the lower outer diameter of the coupling protrusion or smaller than the lower outer diameter of the coupling protrusion. Process of doing; (c) passing the coupling protrusion of the cooking vessel through the coupling hole of the magnetic field transfer plate while closely contacting the magnetic field transfer plate of step (b) with the outer bottom surface of the cooking vessel of step (a); (d) After the coupling protrusion penetrates the coupling hole by the step (c) and the outer bottom surface of the cooking vessel contacts one surface of the magnetic field transfer plate, the processing blade is placed on the inner bottom of the cooking vessel. Limitedly pressing at a low press pressure to prevent the pressing pin marks from protruding from the surface, and fixing the processing blade to fill the gap formed between the outer diameter of the coupling protrusion and the inner diameter of the coupling hole while being pressed downward; And (e) after the processing blade is fixed while filling the gap between the outer diameter of the coupling protrusion and the inner diameter of the coupling hole from the step (d), the fixed portion is polished using gold steel particles, thereby Making the outer bottom surface flat without bending; It will include.

As such, the present invention is to form a ring-type processing wing having a predetermined width around the upper side of the columnar engaging projection protruding to the bottom surface of the cooking vessel, even if the ring pressing the columnar engaging projection at a small press pressure As the type of processing wings are limitedly squeezed to extend from side to side to be fixed while filling the inside of the coupling hole of the magnetic field transfer plate, the magnetic field transfer plate can be maintained at the bottom of the cooking vessel while maintaining a completely flat structure without bending. While preventing the pressure applied to the column coupling projection to the inner bottom surface of the cooking vessel to prevent the formation of pressing pin marks on the outer bottom surface of the cooking vessel can be expected to increase the reliability of the product.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a schematic cross-sectional view showing a coupling structure of a conventional induction cooker and magnetic field transfer plate.
Figure 2 is a real picture showing a combined structure of the conventional induction cooker and magnetic field transfer plate.
Figure 3 is an exploded perspective view of the coupling structure of the induction range cooking vessel and magnetic field transfer plate in an embodiment of the present invention.
Figure 4 is a schematic cross-sectional view showing a coupling structure of the induction range cooking vessel and the magnetic field transfer plate in an embodiment of the present invention.
5 is a real picture showing a coupling structure of the induction range cooking vessel and the magnetic field transfer plate in an embodiment of the present invention.
Figure 6 is an enlarged cross-sectional schematic view showing a coupling structure of the induction range cooking vessel and the magnetic field transfer plate in an embodiment of the present invention.
Figure 7 is an enlarged cross-sectional schematic view showing a state that the upper working blade of the engaging projection is compressed in the embodiment of the present invention.

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

3 is an exploded perspective view illustrating a coupling structure of an induction range cooking vessel and a magnetic field transfer plate according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating a coupling structure of an induction range cooking vessel and a magnetic field transfer plate according to an embodiment of the present invention. 5 is a perspective view illustrating a coupling structure of an induction range cooking vessel and a magnetic field transfer plate in an embodiment of the present invention, and FIG. 6 illustrates a coupling structure of an induction range cooking vessel and a magnetic field transfer plate in an embodiment of the present invention. 7 is an enlarged cross-sectional schematic view, and FIG. 7 shows an enlarged cross-sectional schematic view showing a state in which an upper working blade of the engaging protrusion is compressed in an embodiment of the present invention.

3 to 7, a magnetic field transfer plate coupling structure assembly of an induction range cooking container according to an embodiment of the present invention includes a cooking vessel 10, a magnetic field transfer plate 20, and a processing wing 30. It may include.

The cooking vessel 10 is made of aluminum or aluminum alloy is a coupling protrusion 11 protrudes on the outer bottom surface, the coupling protrusion 11 is the outside of the cooking vessel 10 as shown in FIG. It is a cylindrical structure in which the outer diameter (d1> d2) becomes narrower as it protrudes from the lower side (d1) based on the bottom surface to the upper side (d2).

The magnetic field transfer plate 20 is a plate-shaped structure made of stainless material, which is obtained by processing a metal plate to have a predetermined dimension and shape, and a number of coupling holes 21 corresponding to the coupling protrusions 11 are formed. It can be.

Here, the inner diameter d3 of the coupling hole 21 may be drilled to be the same as the lower outer diameter d1 of the coupling protrusion 11 or smaller than the lower outer diameter d1 of the coupling protrusion 11. When the inner diameter d3 of the coupling hole 21 is drilled smaller than the lower outer diameter d1 of the coupling protrusion 11, the coupling protrusion 11 uses a tool (eg, a hammer of a press machine) 500. It can penetrate the coupling hole 21 from the external force.

In this case, a gap G may be formed between the upper outer diameter d2 of the coupling protrusion 11 and the inner diameter d3 of the coupling hole 21.

That is, the inner diameter d3 of the coupling hole 21 is drilled to be smaller than the lower outer diameter d1 of the coupling protrusion 11 or slightly smaller than the lower outer diameter d1, and the upper outer diameter d2 is Since it is perforated smaller than the lower outer diameter d1, the gap G may be formed between the upper outer diameter d2 of the coupling protrusion 11 and the inner diameter d3 of the coupling hole 21.

The processing wing 30 is a ring-type structure that protrudes with a predetermined width around the upper side of the engaging projection 11, which is pressed by the lower direction while being limitedly compressed by a small frame pressure the engaging projection 11 Fill the inside of the gap (G) formed between the upper outer diameter (d2) and the inner diameter (d3) of the coupling hole 21, the coupling protrusion 11 is the outer side of the cooking vessel (10) It can achieve a horizontal plane with the floor.

At this time, the recessed groove 31 may be formed on the upper side of the coupling protrusion 11 by the processing blades 30 forming a ring type, and the recessed groove 31 has an inclined curve with an inner plane 31a. It may have a face 31b.

In addition, the protrusion height h1 of the coupling protrusion 11 reaching the inner plane 31a of the recessed groove 31 except for the processing blade 30 is the thickness t1 of the magnetic field transfer plate 20. It may be equal to or lower than the thickness t1 of the magnetic field transfer plate 20, which is the coupling protrusion 11 when filling the inside of the gap (G) while an external force is applied to the processing wing (30). The top surface of the) to achieve a horizontal plane with the outer bottom surface of the cooking vessel 10.

Accordingly, when the magnetic field transfer plate 20 according to the embodiment of the present invention is coupled to the outer bottom surface of the cooking vessel 10, as shown in FIG. 7, the coupling protrusion 11 of the cooking vessel 10. The processing wing 30 forming the ring type is pressed in the downward direction by an external force, and fills the gap G between the coupling protrusion 11 and the coupling hole 21, thereby through the magnetic field. Compared with the conventional FIG. 1 while the coupling hole 21 of the transfer plate 20 is pressed, first, as (a) process, the lower side toward the outer bottom surface of the cooking vessel 10 made of aluminum or an aluminum alloy goes from the lower side to the upper side. At least one cylindrical coupling protrusion 11 whose outer diameters d1 and d2 are narrowed, and a ring type processing blade 30 having a predetermined width around the upper surface of the coupling protrusion 11 are protruded.

In the next step (b), the inner diameter d3 is equal to the lower outer diameter d1 as the number corresponding to the engaging projection 11 of the step (a) to the plate-shaped magnetic field transfer plate 20 made of stainless steel. Or punctures the coupling hole 21 smaller than the lower outer diameter d1.

In the following step (c), the magnetic field transfer plate 20 of step (b) is brought into close contact with the outer bottom surface of the cooking vessel 10 of step (a). The coupling hole 21 is to penetrate the coupling protrusion 11 of the cooking vessel 10.

In the following step (d), the coupling protrusion 11 penetrates the coupling hole 21 by the step (c), and the outer bottom surface of the cooking vessel 10 is the magnetic field transfer plate 20. After contact with one surface of, the processing wing 30 formed to have a predetermined width around the upper side of the engaging projection 11 is limited to a small press pressure.

Here, since the processing blade 30 is a ring-type structure, even if a small press pressure is applied to the processing blade 30, it is possible to compress.

Then, the processing blade 30 is pressed in the downward direction while filling the gap (G) formed between the upper outer diameter (d1) of the coupling protrusion 11 and the inner diameter (d3) of the coupling hole 21 and fixed. It can be.

At this time, since the processing wing 30 is pressed with a small press pressure, the problem that the pin pin (P) as shown in Figures 1 and 2 conventionally protrude on the inner bottom surface of the cooking vessel 10 does not occur. As a result, the peripheral discoloration problem due to the pressing pin marks P does not occur.

In the following step (e), the process blade 30 is fixed from the step (d) while filling the gap G between the coupling protrusion 11 and the coupling hole 21 and then fixed. When the part is polished using the embossed steel particles, the embrittlement steel particles are prevented from flowing into the inside of the coupling hole 21 by the processing blades 30 filling the gap G. As in the outer bottom surface of the cooking vessel 10 can maintain a flat state without bending, through which the quality satisfaction for the induction range cooking vessel 10 to which the magnetic field transfer plate 20 is coupled can be increased. It is.

In the above description, the technical concept of the magnetic field transfer plate coupling structure assembly and the coupling method of the induction range cooking vessel according to the present invention has been described together with the accompanying drawings, which is illustrative of the most preferred embodiment of the present invention. It is not limited.

Therefore, the present invention is not limited to the above-described specific embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

10; Cooking vessel 11; Engaging protrusion
20; Magnetic field transfer plate 21; Joining hole
30; Processing wing 31; Depression
31a; Inner plane 31b; Curved surface

Claims (7)

Induction range cooking vessel made of aluminum or aluminum alloy protruding the engaging projection on the outer bottom surface; And a magnetic field transfer plate obtained by processing a metal plate to have a predetermined dimension and shape, and having a coupling hole corresponding to the coupling protrusion. Including,
The coupling protrusion is formed of a cylindrical structure in which the outer diameter thereof narrows as it projects from the lower side to the upper side based on the outer bottom surface of the cooking vessel,
Protruding the ring-type processing wing that has a predetermined width around the upper surface of the coupling protrusion while being pressed downward by the external force while filling the inside of the coupling hole so that the coupling protrusion forms a horizontal plane with the outer bottom surface of the cooking vessel. Magnetic field transfer plate coupling structure assembly of the cooking vessel for induction range, characterized in that forming. delete The method of claim 1,
The recessed groove is formed on the upper surface of the coupling protrusion by the processing wing, the depression groove has a magnetic field transfer plate coupling structure assembly of the cooking vessel for induction range characterized in that it has an inclined curved surface. The method of claim 3, wherein
Protruding height of the coupling projection reaching the inner plane of the recessed groove except for the processing wing is the same as the thickness of the magnetic field transfer plate or lower than the thickness of the magnetic field transfer plate of the cooking vessel for induction range Magnetic field transfer plate coupling structure assembly. The method of claim 4, wherein
The inner diameter of the coupling hole is drilled to be equal to the lower outer diameter of the coupling protrusion or smaller than the lower outer diameter of the coupling protrusion, and a gap for guiding the downward direction of the processing blade between the upper outer diameter of the coupling protrusion and the coupling hole inner diameter. Magnetic field transfer plate coupling structure assembly of the cooking vessel for induction range is formed. The method of claim 1,
The magnetic field transfer plate coupling structure assembly of the induction range cooking vessel, characterized in that the magnetic field transfer plate is made of stainless steel. (a) at least one cylindrical engaging projection whose outer diameter is narrowed from the lower side to the upper side of the outer bottom surface of the cooking vessel made of aluminum or aluminum alloy, and a ring-type processing wing having a predetermined width around the upper surface of the engaging projection; Extrusion molding;
(b) perforating coupling holes in a plate-shaped magnetic field transfer plate made of stainless material corresponding to the coupling protrusion of the step (a) whose inner diameter is the same as the lower outer diameter of the coupling protrusion or smaller than the lower outer diameter of the coupling protrusion. Process of doing;
(c) penetrating the coupling protrusion of the cooking vessel through the coupling hole of the magnetic field transfer plate while closely contacting the magnetic field transfer plate of step (b) with the outer bottom surface of the cooking vessel of step (a);
(d) After the coupling protrusion penetrates the coupling hole by the step (c) and the outer bottom surface of the cooking vessel contacts one surface of the magnetic field transfer plate, the processing blade is placed on the inner bottom of the cooking vessel. Limitedly pressing at a low press pressure to prevent the pin pins from protruding from the surface, and fixing the processing blade to fill the gap formed between the outer diameter of the coupling protrusion and the inner diameter of the coupling hole while being pressed downward; And,
(e) After the process blade is fixed by filling the gap between the outer diameter of the engaging projection and the inner diameter of the engaging hole from the step (d), the fixed part is ground using diamond steel particles, and the outer bottom of the cooking vessel. Making the plane into a flat state without bending; Joining method of the magnetic field transfer plate of the cooking container for induction range comprising a.

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