JP2908705B2 - rice cooker - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rice cooker in which an induction current is generated by an induction heating coil for a pot having an induction heating section made of a magnetic material to perform cooking.

[0002]

2. Description of the Related Art It is known that a clad material is used as a pot used in this type of rice cooker. This clad material is a steel plate that is roll-welded in the form of a flat plate of aluminum with good heat conduction properties and magnetic stainless steel, which is a magnetic material. The pot is formed into a pot. Thereby, the pot is formed in a state where the outer surface is covered with the magnetic stainless steel constituting the induction heating portion and the inner surface is covered with aluminum constituting the heat conducting portion.

[0003] This pot is made to generate heat by an induction heating coil. That is, the induction heating coil is provided outside the pan, and a high-frequency current is applied to the induction heating coil to generate an induction current in the induction heating portion of the pan,
Heat is generated by the resistance loss, and the heat is conducted throughout the pot through the heat conducting portion to heat the inside of the pot.

[0004]

However, when attempting to construct a pot using the above-described clad material, usually, the only option is to deep-draw the clad material with a press, and the degree of freedom in designing the shape and the like is also low. There is a disadvantage such as low.

Further, since the entire structure has a double plate structure, there is a problem that heat transfer is not good. That is, the thermal conductivity of the magnetic stainless steel as the induction heating part is 0.062 (ca).
l / cm · sec · ° C.), while the thermal conductivity of aluminum as the heat conducting part is 0.53 (cal / c
m · sec · ° C), the induction heat generating part has a heat conductivity of about 1 / 8.5 compared to the heat conductive part, and hardly contributes to heat transfer. Become.
Further, magnetic stainless steel has a heat capacity of 0.1 unit volume.
Since it is about 85 (cal / ° C. · cm ³ ), the thermal efficiency is lower than the value of about 0.59 (cal / ° C. · cm ³ ) of aluminum.

Therefore, due to the properties of such materials, the induction heating portion made of magnetic stainless steel loses heat by its own heat capacity. However, since a clad material is used to compose the pot, the entire pot must be surrounded by magnetic stainless steel, and as a result, there is a problem that thermal efficiency is reduced as a whole.

As a solution to this problem, the applicant has considered using a casting / forging technique such as a die casting, forging, or molten metal forging technique for pot production. For example,
When a pot is manufactured by the molten metal forging technique, a magnetic stainless steel is placed inside a cavity of a molding die, and a molten heat conductive material is injected into the cavity and solidified by pressing. Thereby, a container-shaped heat conductive portion is formed from the heat conductive material, and the induction heat generating portion made of a magnetic material is attached in advance from the outer bottom surface portion to the outer peripheral surface portion of the heat conductive portion along with the solidification. A pot is manufactured. When a pot is manufactured using such a casting / forging technique, the degree of freedom in designing the shape and the like is high, and it is possible to provide an induction heating portion at a necessary location, thereby improving the thermal efficiency. Become.

However, on the other hand, during the production of the pot,
While the magnetic material is in a temperature state of about 100 ° C., the molten thermal conductive material is in a high temperature state of 800 ° C., and heat shrinks from this state to generate a large residual stress. Although this is affected by the size of the pot itself and the like, usually, stress concentration of residual stress occurs at a corner portion from the peripheral edge of the bottom wall portion to the peripheral side wall portion of the pan. In this case, when the pot material is the above-mentioned aluminum and stainless steel, since the proof stress against shear stress is about 5 kg / mm ² , the pot is cracked at its corners, or the heat conducting part and the induction heating part are separated. Or there is a risk of

The present invention has been made in view of the above circumstances. Therefore, the object of the present invention is to provide a high degree of freedom in the design of a pot and to provide an induction heating portion at a necessary place.
An object of the present invention is to provide a rice cooker that can improve thermal efficiency and that does not cause cracks or peeling at corners from the peripheral edge of the bottom wall to the peripheral side wall of the pot.

[0010]

The first means is that a molten heat conductive material is solidified to form a container-like heat conducting portion,
Further, a pot in which an induction heating portion made of a magnetic material is attached in advance from the outer bottom surface portion to the outer peripheral surface portion of the heat conducting portion along with the solidification, and an induction heating coil disposed outside the pot, When the diameter of the pan at the specified maximum water level is D, the radius of curvature of the inner wall surface and the outer wall surface of the corner from the bottom wall peripheral edge to the peripheral wall is 0.05.
The present invention is characterized in that it is formed by an arc wall having a diameter of D or more (the invention of claim 1).

[0011] A second means is the first means, wherein the bottom wall of the pot is smaller in width than the upper end of the peripheral side wall, and the inclined portion is formed to expand upward from the bottom wall to the peripheral side wall. Is formed, and a corner portion between the bottom wall portion and the inclined portion is formed by an arc wall portion (the invention of claim 2).

A third means is that, in the first means, the induction heating coil is provided at a portion for heating the periphery of the bottom wall of the pot, and the induction heating coil and the arc wall of the pot are in a corresponding positional relationship. It has a characteristic in a certain place (the invention of claim 3).

The fourth means is characterized in that, in the second means, the inclined portion is formed in the shape of an arc wall having a radius of curvature of 0.5 D or more (the invention of claim 4).

The fifth means is that the heat conductive material which has melted is solidified to form a container-like heat conductive portion, and the induction heat generating portion made of a magnetic material extends from the outer bottom surface to the outer peripheral surface of the heat conductive portion. A pot pre-attached with the solidification, and an induction heating coil disposed outside the pot, wherein a corner portion from the bottom wall peripheral edge to the peripheral wall portion of the pot is formed on an inner wall surface and an outer wall surface. Is characterized by being formed by an arc-shaped wall portion having a radius of curvature of 10 [mm] or more (the invention of claim 5).

The sixth means is characterized in that, in the first means or the fifth means, the heat conducting portion of the pot is formed by molten forging (the invention of claim 6).

[0016]

In the first means, the heat conducting portion in the pot is formed into a container shape by solidifying the molten heat conductive material, and is formed of a magnetic material from the outer bottom surface to the outer peripheral surface of the heat conducting portion. Since the heating part is attached in advance with the solidification, unlike the case where the clad material is used for the pot,
The degree of freedom in the design of the pot is high, and the induction heating section can be provided at a necessary place, so that the thermal efficiency can be improved. Further, when the diameter of the pan at the prescribed maximum water level is D, the radius of curvature of the inner wall surface and the outer wall surface of the corner from the bottom wall peripheral edge to the peripheral wall is 0.05 D or more. Formed by the arcuate wall
The degree of concentration of the residual stress of the pot at the corner can be reduced, and the pot does not crack or peel.

In the second means, the bottom wall of the pot is smaller in width than the upper end of the peripheral side wall, and an inclined portion is formed to extend upward from the bottom wall to the peripheral side wall. Since the corner between the wall and the inclined portion is formed by the arc-shaped wall, the convection of the heated water inside the pot is improved.

In the third means, the induction heating coil is provided at a portion for heating the periphery of the bottom wall portion of the pot, and the induction heating coil and the arc wall portion of the pot have a corresponding positional relationship. The convection of the heated water is improved. In this case, repeated heating of the induction heating coil acts on the arc wall, but cracks and peeling at the arc wall can be prevented.

In the fourth means, since the inclined portion is formed in the shape of an arc wall having a radius of curvature of 0.5 D or more, convection of heated water inside the pot is improved.

In the fifth means, since the corner portion from the peripheral edge of the bottom wall portion to the peripheral side wall portion of the pot is formed by an arc wall portion having an inner wall surface and an outer wall surface having a radius of curvature of 10 [mm] or more, The degree of concentration of the residual stress of the pot at the corner can be reduced, and the pot does not crack or peel.

In the sixth means, the heat conducting part of the pot is
Since it is formed by molten metal forging, the adhesion between the induction heating portion and the heat conducting portion is good, furthermore, so-called nests are less generated, and the heat conductivity is greatly excellent as a whole.

[0022]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIGS. First, FIG. 3 showing the overall configuration
, A rice cooker main body 1 made of a resin is provided with a lid 2 at an upper portion thereof which can be opened and closed upward by a hinge 3. An outer tub 5 is formed inside the rice cooker main body 1 as a pan storage portion capable of storing the pan 4. Immediately below the bottom of the outer tub 5, an induction heating coil 6 corresponding to the outer peripheral portion is formed. However, the induction heating coils 6a are respectively disposed slightly from the center, and a ferrite 7 for forming a magnetic circuit is disposed below them. The upper opening of the pan 4 is closed by an inner lid 2a provided inside the lid 2 when the lid 2 is closed, and inside the lid 2 through the inner lid 2a. A lid heater 8 for heating the inside is provided. Note that the induction heating coil 6 on the outer peripheral side of the induction heating coil 6 and the induction heating coil 6a is set to have a higher input W number.

A temperature sensor 9 is disposed at the center of the bottom of the outer tank 5 so as to be in contact with the bottom of the pan 4.
The temperature of the pan 4 is detected. In addition, an inverter circuit section 10 for generating a high-frequency current is provided at the inner bottom of the rice cooker main body 1 and a cooling fan 11 is provided. A control circuit section 12 and an operation section 13 are arranged on the front side in the rice cooker main body 1. Operation unit 13
Are provided with operation switches and a display so as to be exposed outside the front of the rice cooker main body 1. In addition, rice cooker body 1
A body heater 14 for heating and maintaining the temperature of the pot 4 is provided through the side wall of the outer tub 5 inside.

Next, the configuration of the pot 4 will be described in detail with reference to FIG. The pot 4 is formed by using a technique called melt forging, which will be described later. The pot 4 has a container-shaped heat conducting portion 15 and an induction heating portion 16 attached from the outer bottom surface to the outer peripheral surface of the heat conducting portion 15. It is composed of The induction heating portion 16 is made of stainless steel, and is provided to a predetermined height on the lower surface portion and the outer peripheral surface portion of the heat conducting portion 15.

As shown in FIGS. 1 and 2, in the pot 4, the width of the bottom wall portion 4a is smaller than the width of the upper end portion of the peripheral wall portion 4b, and is higher than the peripheral wall portion 4b above the bottom wall portion 4a. An upwardly extending inclined portion 4c is formed. A corner portion 1 from the periphery of the bottom wall portion 4a to the peripheral side wall portion 4b of the pan 4
7. In this case, a corner portion 17 extending from the bottom wall portion 4a to the inclined portion 4c is formed by an arc wall portion 4d. This arc wall portion 4 d is the specified maximum water level line Ld of the pot 4.
When the diameter dimension at (water level line corresponding to the maximum amount of cooked rice of this rice cooker) is D, the radius of curvature R of the inner wall surface and the outer wall surface is 0.05D or more. In this embodiment, D is 200 [mm] and R is 10 [mm].
It is set to [mm] or more, for example, 25 [mm]. At this time, the above 0.05D
Although there is no problem even if there is a portion having the following radius of curvature, the arc length Le of the arc wall portion 4d is preferably substantially 5 [mm] or more.

The inclined portion 4c is slightly curved, that is, formed in an arc wall shape having a radius of curvature Rc of 0.5 D or more (for example, 200 [mm] in this embodiment). As shown in FIG. 2, the induction heating coil 6 is provided at a portion for heating the periphery of the bottom wall 4a of the pan 4, and the induction heating coil 6 and the arc wall 4d of the pan 4 have a corresponding relationship. is there.

The heat conducting portion 15 made of a heat conducting material whose base material is an alloy containing aluminum as a main component is formed by using a molten metal forging technique. That is, as shown in FIG. 5, a low-melting-point material such as zinc or aluminum is brought into close contact with the inner surface of the induction heating portion 16 formed as described above by plating or the like, and this is placed in the outer shape of the pan 4. Set the female mold K corresponding to the shape. Then, a heat conductor material mainly composed of molten aluminum is poured into the female mold K, and a male mold M corresponding to the internal shape of the pan 4 is fitted into the female mold K and molded at high pressure. It should be noted that the arc-shaped wall portions 4d of the female die K and the male die M are of course shaped so as to obtain the above-mentioned radius of curvature R.

As a result of this manufacturing, a heat conducting portion 15 made of an aluminum alloy layer is formed inside the induction heating portion 16, and a low melting point made of stainless steel and aluminum is provided between the induction heating portion 16 and the heat conduction portion 15. An alloy layer is interposed. As a result, the heat conducting portion 15 and the induction heating portion 16 can be joined in a tight contact state, so that the thermal resistance between the two can be reduced, and the occurrence of so-called nests is reduced.

Further, when the above-described pot 4 is manufactured, the induction heating portion 16 which is a magnetic material is at a temperature of about 100 ° C., whereas the molten heat conductive material (the heat conducting portion 1) is melted.
5) is a high temperature state such as 800 ° C., and heat shrinks from this state, so that large residual stress is generated. In particular, stress concentration of residual stress occurs in the corner portion 17 from the peripheral edge of the bottom wall portion 4a of the pan 4 to the peripheral side wall portion 4b. However, since the corner portion 17 is constituted by the arc-shaped wall portion 4d having the curvature R of 0.05 D or more as described above, the pot 4 is cracked at the corner portion 17 or the heat conduction portion 15 and the induction heat are generated. The part 16 does not peel off.

FIG. 4 shows an electrical configuration. The control circuit section 12 includes a control circuit such as a microcomputer and stores a control program for cooking rice in advance. The control circuit unit 12 is connected to receive an operation signal from the operation unit 13, and when a control program is executed, outputs a control signal to the inverter circuit unit 10 in accordance with the operation signal from the operation unit 13. I have. The inverter circuit unit 10 supplies a high-frequency current of a predetermined frequency to the induction heating coil 6 in accordance with the supplied control signal, and causes the pan 4 to perform a heating operation.

The output terminal of the temperature sensor 9 is connected to the control circuit section 12 via the operation section 13 and supplies a temperature detection signal of the pan 4 to the control circuit section 12. In addition, cooling fan 1
1, the lid heater 8 and the body heater 14 are each controlled to be energized by a drive control signal provided from the control circuit unit 12.

Next, the operation of this embodiment will be described.
When a predetermined amount of rice and water are stored in the pot 4 and an operation for instructing execution of rice cooking is performed by the operation unit 13, the control circuit unit 1 is operated.
2 starts a rice cooking operation by executing a rice cooking program. When the control signal is output from the control circuit 12, the inverter circuit 10 supplies a high-frequency current of a predetermined frequency to the induction heating coils 6, 6a.

As a result, the magnetic flux generated around the induction heating coils 6 and 6 a passes through the gap between the induction heating coil 16, the inside of the induction heating section 16 and the gap between the induction heating coil 16 and the ferrite 7. It will pass. Then, in the surface layer portion of the induction heating portion 16, an induction current is generated due to a change in magnetic flux, and heat is generated due to the resistance loss, so that the pot 4 itself is heated.

At this time, good convection with less temperature unevenness can be obtained in the pot 4. That is, the periphery of the bottom wall portion 4a of the pan 4, that is, the portion from the arc wall portion 4d to the inclined portion 4c is heated by the heating action of the induction heating coil 6, which is the main induction heating coil, which has a large input. At this time, from the arc wall portion 4d to the inclined portion 4c, water near the inner surface thereof is heated to generate buoyancy right above. In addition, an adhesive force against water acts on the inner surface. This adhesion acts at right angles to its inner surface.

The buoyancy and the adhesive force are balanced from the arc wall portion 4d to the inclined portion 4c, and as shown by the broken line L in FIG. 2, the water to be heated continuously extends from the arc wall portion 4d to the inclined portion 4c. A strong ascending flow is generated, and as a result, the water in the upper portion descends satisfactorily on the center side of the pot 4, so that the water to be heated rises on the inner side of the peripheral side wall portion 4 b inside the pot 4, and Good convection such as descending is generated. In particular, since the induction heating coil 6a is provided inside the induction heating coil 6 at a distance, the temperature in the center of the pan 4 where the temperature tends to be slightly lower can be appropriately increased, and the temperature inside the pan 4 can be made uniform. You can plan. Therefore, it is possible to cook rice, steam and heat while heating the whole to a uniform temperature without unevenness. Sticking and the like do not occur.

According to the present embodiment, the heat conducting portion 15 of the pot 4 is formed into a container shape by solidifying aluminum, which is a molten heat conductive material, and the outer bottom portion of the heat conducting portion 15 is formed. Since the induction heating portion 16 made of stainless steel, which is a magnetic material, is attached in advance along with the solidification from the surface to the outer peripheral surface portion, unlike the case where the clad material is used for the pan, the degree of freedom in designing the pan 4 is high, and Induction heating section 16
Can be provided at necessary places, and the thermal efficiency can be improved.

When the diameter of the pot 4 at the prescribed maximum water level line Ld is D (200 mm), a corner portion 17 from the periphery of the bottom wall 4a to the peripheral side wall 4b of the pot 4 is provided.
Is formed by the arc-shaped wall portion 4d in which the inner and outer wall surfaces have a radius of curvature of 0.05 D or more (25 mm).
The degree of concentration of the residual stress of the pot 4 at the corner portion 17 can be reduced, and the pot 4 does not crack or peel. In particular, when the size of the pan 4 changes, the corner 1
7, the concentration of the residual stress also changes, but in the present embodiment, as described above, the arc wall portion 4d according to the size of the pan 4 (the size of the diameter D at the specified maximum water level Ld of the pan 4) as described above. Has a radius of curvature of 0.05 D or more, so that stress concentration can be reliably reduced.

Particularly in the present embodiment, the bottom wall 4 of the pan 4
a is smaller than the width of the upper end portion of the peripheral wall portion 4b, and the inclined portion 4 extends upward from the bottom wall portion 4a above the peripheral wall portion 4b.
c is formed, and the corner portion 17 between the bottom wall portion 4a and the inclined portion 4c is formed by the arc wall portion 14d, so that the convection of the water heated inside the pot 4 is improved, and as a result, Can be heated to a uniform temperature without unevenness.

Further, since the induction heating coil 6 is provided at a portion for heating the periphery of the bottom wall 4a of the pan 4, and the induction heating coil 6 and the arc wall 4d of the pan have a corresponding positional relationship, the pan 4 The convection of the water heated inside is improved. In this case, repeated heating of the induction heating coil 6 acts on the arc wall portion 4d, but cracks and peeling on the arc wall portion 4d can be prevented. Moreover, since the inclined part 4c is formed in the shape of an arc wall having a curvature radius Rc of 0.5 D or more (in this case, 200 mm), the convection of the water heated inside the pot 4 is also improved.

Further, since the heat conducting portion 15 of the pot 4 is formed by molten forging, the adhesion between the induction heating portion 16 and the heat conducting portion 15 is good, and so-called nests are less likely to occur. In general, the thermal conductivity is greatly improved, and the heating efficiency is improved.

Next, FIG. 6 shows a second embodiment of the present invention, in which the shape of the pot 21 is different. That is, this pot 21
Is formed in a substantially cylindrical shape with a bottom, and the first
In this embodiment, the pot 4 has no inclined portion 4c.
In this pan 21 as well, the prescribed maximum water level line Ld of the pan 21
When the diameter of the pan 21 is D, the bottom wall 21a of the pan 21
The corner portion 22 from the peripheral edge to the peripheral side wall portion 21b is
The inner wall surface and the outer wall surface are each formed by an arc wall portion 21c having a radius of curvature R of 0.05 D or more. Even in this embodiment, the intended purpose can be achieved.

Another means of the present invention may be as follows. That is, the corner portion from the bottom wall peripheral edge to the peripheral side wall portion of the pot is uniquely defined by an arc wall portion having a radius of curvature of 10 [mm] or more of the inner wall surface and the outer wall surface regardless of the size of the pot itself. It may be formed. In other words, the pot used in this kind of rice cooker has a diameter of 200 mm at the specified maximum water level line even in the smallest class.
Since it is rarely smaller than [mm],
The radius of curvature of the inner wall surface and outer wall surface of the arc wall is 10 m
m] or more, the degree of concentration of residual stress in the pot at the corner can be reduced, and the pot does not crack or peel.

The present invention is not limited to the above embodiments. For example, the heat conducting portion may be formed by die casting, casting or forging instead of forging molten metal. Also, the induction heating section does not need to be provided on the entire outer bottom surface of the heat conduction section,
It does not matter if it is not in the center of the outer bottom surface.

[0044]

As apparent from the above description, the present invention has the following effects. According to the first aspect of the present invention, the heat conductive portion of the pot is formed into a container shape by solidifying the molten heat conductive material, and the induction heat generated from the magnetic material extends from the outer bottom surface to the outer peripheral surface of the heat conductive portion. Since the part is attached in advance with the solidification, unlike the case where the clad material is used for the pot, the degree of freedom in the design of the pot is high, and the induction heating part can be provided at a necessary place, so that thermal It is also possible to improve the efficiency. Further, when the diameter of the pan at the prescribed maximum water level is D, the radius of curvature of the inner wall surface and the outer wall surface of the corner from the bottom wall peripheral edge to the peripheral wall is 0.05 D or more. Since it is formed by the arcuate wall portion, the degree of concentration of the residual stress of the pan at the corner portion can be reduced regardless of the size of the pan, and the pan does not crack or peel.

According to the second aspect of the present invention, the width of the bottom wall portion of the pot is smaller than the width of the upper end portion of the peripheral side wall portion, and the inclined portion is formed to extend upward from the bottom wall portion to the upper side of the peripheral side wall portion. Since the corner between the bottom wall and the inclined portion is formed by the arc-shaped wall, the convection of the heated water inside the pot can be improved, and the rice and water inside the pot can be uniformly heated. , And a good cook can be obtained.

According to the third aspect of the present invention, the induction heating coil is provided at a portion for heating the periphery of the bottom wall of the pan, and the induction heating coil and the arc wall of the pan have a corresponding positional relationship. The convection of the heated water inside the pot is improved. In this case, repeated heating of the induction heating coil acts on the arc wall portion, but cracks and peeling at the arc wall portion can be prevented as described above.

According to the fourth aspect of the present invention, the inclined portion is formed in the shape of an arc wall having a radius of curvature of 0.5 D or more.
The convection of the heated water inside the pot is further improved.

According to the fifth aspect of the present invention, the corner portion from the peripheral edge of the bottom wall portion to the peripheral side wall portion of the pot is formed by an arc wall portion in which the inner and outer wall surfaces have a radius of curvature of 10 [mm] or more. Accordingly, the degree of concentration of residual stress in the pot at the corner can be reduced, and cracks and peeling do not occur in the pot.

According to the sixth aspect of the present invention, since the heat conducting portion of the pot is formed by molten metal forging, the adhesion between the induction heating portion and the heat conducting portion is good, and furthermore, so-called nest formation occurs. In addition, the thermal conductivity is greatly improved, and the heating efficiency is increased.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional side view of a pot showing a first embodiment of the present invention.

FIG. 2 is a longitudinal sectional side view showing an arrangement relationship between a pot and an induction heating coil.

FIG. 3 is a vertical side view of the rice cooker.

FIG. 4 is a circuit diagram showing an electrical configuration.

FIG. 5 is a vertical sectional side view showing a pot manufacturing process by a molten metal forging technique.

FIG. 6 is a longitudinal sectional side view of a pot showing a second embodiment of the present invention.

[Explanation of symbols]

1 is a rice cooker main body, 4 is a pot, 4a is a bottom wall, 4b is a peripheral wall, 4c is an inclined part, 4d is an arc wall, 5 is an outer tank part, and 6,
6a is an induction heating coil, 7 is a ferrite, 10 is an inverter circuit, 12 is a control circuit section, 13 is an operation section, 15 is a pot base, 16 is an induction heating section, 17 is a corner section, 21 is a pan, and 21a is a bottom wall. , 21b is a peripheral wall portion, 21c is an arc wall portion, and 22 is a corner portion.

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-6-304065 (JP, A) JP-A-8-224163 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) A47J 27/00 103

Claims (6)

(57) [Claims] 1. A molten heat conductive material is solidified to form a container-like heat conducting portion, and an induction heating portion made of a magnetic material extends from an outer bottom surface to an outer peripheral surface of the heat conducting portion in advance with the solidification. A pan attached and comprising an induction heating coil disposed outside the pan, wherein D is a diameter of the pan at a specified maximum water level,
A rice cooker characterized in that a corner portion from a peripheral edge of a bottom wall portion to a peripheral side wall portion of the pot is formed by an arc wall portion having a curvature radius of an inner wall surface and an outer wall surface of 0.05 D or more. 2. The pot has a bottom wall having a width smaller than a width of an upper end portion of the peripheral wall portion, and an inclined portion extending upward from the bottom wall portion to the peripheral wall portion is formed. The rice cooker according to claim 1, wherein a corner portion extending to the inclined portion is formed by an arc wall portion. 3. The pot according to claim 1, wherein the induction heating coil is provided at a portion for heating the periphery of the bottom wall of the pot, and the induction heating coil and the arc wall of the pot have a corresponding positional relationship. Rice cooker. 4. The rice cooker according to claim 2, wherein the inclined portion is formed in an arc wall shape having a radius of curvature of 0.5 D or more. 5. The heat conductive material that has been melted is solidified to form a container-like heat conductive portion, and an induction heating portion made of a magnetic material extends from the outer bottom surface to the outer peripheral surface of the heat conductive portion along with the solidification. A pot attached, and an induction heating coil disposed outside of the pot, wherein the corner from the bottom edge to the peripheral side of the pot has a radius of curvature of an inner wall surface and an outer wall surface. A rice cooker characterized by being formed by an arc wall portion having a length of 10 [mm] or more. 6. The rice cooker according to claim 1, wherein the heat conducting portion of the pot is formed by molten forging.