JP6264647B2 - rice cooker - Google Patents

Description

  The present invention relates to a rice cooker including ferrite.

  Conventionally, this type of rice cooker generates a high frequency magnetic field by flowing a high frequency current through a heating coil, generates an eddy current on the surface of the pan by the high frequency magnetic field, and heats the pan by Joule heat due to the eddy current. . In conventional rice cookers, ferrite (magnetic material) is usually attached from the outer peripheral side surface to the bottom surface of the protective frame that houses the pan. As a result, among the magnetic lines generated when a high-frequency current is passed through the heating coil, the magnetic lines generated on the outside of the pan are guided to the inside of the ferrite to prevent leakage of the magnetic lines and to increase the inductive coupling with the pan. I have to.

  On the other hand, in order to appropriately heat the pot, it is important to adjust the distance of the heating coil to the pot in accordance with the frequency of the high-frequency current and the physical properties of the pot. For this reason, the heating coil is curved so as to be along the protection frame, and is arranged radially so as to face the heating coil, and the ferrite is provided along the protection frame. According to this structure, the pot can be heated efficiently and a rice cooker excellent in rice cooking performance can be provided.

  However, since ferrite has a hard and brittle nature, it is necessary to prevent breakage. Moreover, the ferrite may generate noise due to vibration generated when the pan is induction-heated. For this reason, various methods have been proposed for attaching and holding ferrite.

  For example, Patent Document 1 discloses a method in which two rod-shaped ferrites are fixed as a set with a holding member and then attached to a protective frame.

  Conventionally, as rice cookers, a plurality of products having the same performance and configuration but different rice cooking capacities are provided. In these products, the shape of the pan usually varies depending on the cooking rice capacity.

  For this reason, the shape of the protective frame is determined according to the shape of the pan (particularly the diameter of the bottom surface), and the ferrite is arranged in an optimal manner according to the shape of the protective frame. Is retained.

JP 2005-27965 A

  However, in the method of Patent Document 1, once the ferrite is fixed by the holding member so as to have a shape when attached to the protective frame, the position and shape of the ferrite cannot be freely changed. For this reason, it cannot respond, for example, when the necessity to attach the said ferrite to another product from which rice cooking capacity differs is produced. Moreover, in the method of patent document 1, the ferrite and holding member which adapt to the shape of a pan are required for every product, and manufacture of a metal mold | die etc. which are needed when creating them newly requires a great cost. That is, the method of Patent Document 1 has a problem that the versatility of ferrite is low.

  Accordingly, an object of the present invention is to provide a rice cooker that can improve the versatility of ferrite by solving the conventional problems.

In order to solve the conventional problems, the rice cooker of the present invention includes a rice cooker body,
A pot for storing cooked rice,
A protective frame that is provided inside the rice cooker body and houses the pan;
A heating coil arranged on the outer bottom of the protective frame for induction heating the pan;
A ferrite unit at least partially facing the heating coil and provided along the outer bottom of the protective frame;
With
The ferrite unit is
Rod-shaped first and second ferrites;
A holding member for connecting and holding one end of the first ferrite and one end of the second ferrite;
With
The holding member includes a hinge portion at a portion located between the first ferrite and the second ferrite,
It is configured as follows.

  According to the rice cooker which concerns on this invention, the position and angle of a 1st and 2nd ferrite can be changed by bending a hinge part, and the versatility of a ferrite (ferrite unit) can be improved.

It is a rice cooker which concerns on 1st Embodiment of this invention, Comprising: It is a side view which shows a rice cooker provided with the pan which has a rice cooking capacity of 1.0 liter with a partial cross section. It is sectional drawing of the ferrite unit with which the rice cooker of FIG. 1 is provided. It is sectional drawing which shows the 1st modification of the ferrite unit with which the rice cooker of FIG. 1 is provided. It is sectional drawing which shows the state which has arrange | positioned so that the 1st and 2nd ferrite with which the ferrite unit of FIG. 2A is provided may be located on the same plane. It is a perspective view of the ferrite unit with which the rice cooker of FIG. 1 is provided. It is a side view which shows a rice cooker provided with the pan which has a rice cooking capacity of 1.8 liter in a partial cross section. It is sectional drawing which shows the 2nd modification of the ferrite unit of FIG. 2A. It is sectional drawing which shows the 3rd modification of the ferrite unit of FIG. 2A. It is a perspective view of a ferrite unit with which a rice cooker concerning a 2nd embodiment of the present invention is provided. It is a partial cross section figure of the rice cooker which concerns on 2nd Embodiment of this invention.

The rice cooker according to the present invention includes a rice cooker body,
A pot for storing cooked rice,
A protective frame that is provided inside the rice cooker body and houses the pan;
A heating coil arranged on the outer bottom of the protective frame for induction heating the pan;
A ferrite unit at least partially facing the heating coil and provided along the outer bottom of the protective frame, and
The ferrite unit is
Rod-shaped first and second ferrites;
A holding member for connecting and holding one end of the first ferrite and one end of the second ferrite;
The holding member includes a hinge portion at a portion located between the first ferrite and the second ferrite,
It is configured as follows.

  According to this configuration, the position and angle of the first and second ferrites can be changed by bending the hinge portion, and the versatility of the ferrite (ferrite unit) can be improved. In addition, since the first ferrite and the second ferrite can be arranged so as to be positioned on the same plane, it is possible to pack without gaps, and excellent storage properties as parts and reduction in transportation cost. You can also.

  The holding member is preferably made of a resin material. According to this structure, a hinge part can be comprised using the bendability which a resin material has, without requiring other components, such as metal hinge pins. Therefore, the structure of the holding member can be simplified and simplified, and the holding member can be manufactured at low cost.

  Moreover, it is preferable that the said hinge part is formed thinly compared with the other part of the said holding member. According to this configuration, the bendability at the hinge portion can be further improved.

  Further, a chamfered portion is formed at one end of the first ferrite and one end of the second ferrite, and the other end surface of the one end of the first ferrite and the one end of the second ferrite. And the chamfered portion are preferably arranged so as to face each other. According to this configuration, by forming the chamfered portion, it is possible to avoid the interference between the first ferrite and the second ferrite when the holding member is bent at the hinge portion. As a result, the distance between one end of the first ferrite and one end of the second ferrite can be reduced. Further, by arranging the other end face of the first ferrite and the other end face of the second ferrite so as to face the chamfered portion, it becomes possible to effectively prevent leakage of magnetic field lines. , A decrease in heating efficiency can be suppressed.

  Moreover, it is preferable to further provide a protective frame cover attached to the protective frame via the heating coil and the ferrite unit. According to this configuration, since the heating coil and the ferrite unit are sandwiched between the protective frame and the protective frame cover, the positional relationship between the heating coil and the ferrite unit is stabilized, and the outside of the rice cooker body It is possible to suppress the leakage of magnetic field lines. As a result, rice cooking performance can be stabilized.

  The holding member is made of an elastic material, and when the protective frame cover is attached to the protective frame, between the ferrite unit and the heating coil, and between the ferrite unit and the protective frame cover. It is preferably formed so as to intervene. According to this configuration, even if the ferrite and the heating coil vibrate when the pan is induction-heated, the ferrite unit comes into contact with the protective frame cover and the heating coil via the holding member made of an elastic material. . Thereby, generation | occurrence | production of unusual sounds, such as a collision sound and a chatter sound, can be suppressed.

  Moreover, it is preferable that the said holding member equips the surface facing the said heating coil with a convex part. According to this configuration, the heating coil and the ferrite unit can be fixed without rattling by attaching the protective frame cover to the protective frame while deforming the convex portion so as to press the heating coil. Thereby, it can suppress that a heating coil and a ferrite unit vibrate, and generation | occurrence | production of abnormal noise can be suppressed further.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, this invention is not limited by the following embodiment.

(First embodiment)
The structure of the rice cooker which concerns on 1st Embodiment of this invention is demonstrated using FIG. FIG. 1 is a side view showing the rice cooker according to the first embodiment of the present invention in a partial cross section. The rice cooker according to the first embodiment performs rice cooking by electromagnetic induction heating.

  As shown in FIG. 1, the rice cooker which concerns on this 1st Embodiment is accommodated in the inside of the substantially bottomed cylindrical rice cooker main body 1 and the rice cooker main body 1, and accommodates to-be-cooked objects, such as rice and water. And a pan 2 to be used. A lid body 1a is attached to the upper portion of the rice cooker body 1 so that the upper openings of the rice cooker body 1 and the pan 2 can be opened and closed.

  Inside the rice cooker main body 1, a protective frame 3 that forms an accommodating portion of the pot 2 is provided. The protective frame 3 is formed in a bowl shape along the shape of the pan 2 so that a gap of a certain distance is left with respect to the side surface and the bottom surface of the accommodated pan 2.

  An outside bottom heating coil 5 wound in a spiral shape is disposed outside the protective frame 3 so as to face the outer bottom portion (corner portion between the side surface and the bottom surface) of the pan 2. In addition, outside the protective frame 3, an in-bottom heating coil 4 wound in a spiral shape so as to face the bottom surface of the pan 2 is disposed. The bottom heating coil 4 and the bottom heating coil 5 are connected to a drive circuit (not shown), and generate a magnetic field when a high frequency current is supplied from the drive circuit. The pan 2 is induction-heated by a magnetic field generated from the outside bottom heating coil 5 and the inside bottom heating coil 4.

  When the outside bottom heating coil 5 and the inside bottom heating coil 4 are viewed from above the rice cooker body 1, the center portion of the outside bottom heating coil 5 and the center portion of the inside bottom heating coil 4 are matched or substantially matched. Has been placed. Further, the outside bottom heating coil 5 is disposed outside and above the inside bottom heating coil 4.

  In addition, a ferrite unit 9 including a first ferrite 6, a second ferrite 7, and a holding member 8 is attached to the protective frame 3.

  2A to 2C are cross-sectional views of the ferrite unit 9. FIG. 2D is a perspective view of the ferrite unit 9. As shown in FIGS. 2A and 2D, the first ferrite 6 and the second ferrite 7 are connected and held by a holding member 8. The holding member 8 includes first and second ferrite holding portions 8a and 8b that are box-shaped or substantially U-shaped, hold one end of the first ferrite 6 by the first ferrite holding portion 8a, and One end portion of the second ferrite 7 is held by the two ferrite holding portions 8b. The holding member 8 includes a hinge portion 8c between the first ferrite holding portion 8a and the second ferrite holding portion 8b. In the first embodiment, the holding member 8 and each of the ferrites 6 and 7 are fixed by pressing the ferrites 6 and 7 into the ferrite holding portions 8a and 8b or by an adhesive.

  The holding member 8 is disposed in the vicinity of the bottom heating coil 4 and the bottom outside heating coil 5, and is exposed to a high temperature of, for example, 100 to 150 ° C. during induction heating of the pan 2 by the bottom heating coil 4 and the outside bottom heating coil 5. Is done. For this reason, it is preferable that the holding member 8 is comprised with the resin material which has heat resistance (for example, silicon rubber). In addition, when a high heat-resistant resin material such as PBT (polybutylene terephthalate) or PPS (polyphenylene sulfide) is used as the material of the holding member 8, the flexibility is small and it is difficult to bend the material. For this reason, as shown in FIG. 2B, the first ferrite holding portion 8a and the second ferrite holding portion 8b are separate parts, and the holding member 8 is configured by connecting them with a hinge portion 8c. May be. Even in this case, similar actions and effects can be obtained. Further, the bendability of the hinge portion 8c may be improved by forming the hinge portion 8c thinner than the first ferrite holding portion 8a and the second ferrite holding portion 8b. Even in this case, similar actions and effects can be obtained.

  In the first embodiment, the ferrite unit 9 is bent at the hinge portion 8c so that the angle A between the first ferrite 6 and the second ferrite 7 can be freely rotated between 90 degrees and 180 degrees. It is configured.

  In the first embodiment, a chamfered portion 6 a is provided at one end portion of the first ferrite 6 adjacent to one end portion of the second ferrite 7. Moreover, the hinge part 8c of the holding member 8 is arrange | positioned on the outer side with respect to the bending direction. According to this configuration, it is possible to avoid the interference between the first ferrite 6 and the second ferrite 7 when the holding member 8 is bent by the hinge portion 8c. As a result, the distance between one end of the first ferrite 6 and one end of the second ferrite 7 can be reduced.

  In the first embodiment, the first ferrite 6 is disposed outside the bottom heating coil 4, and the second ferrite 7 is disposed outside the bottom heating coil 5. According to this structure, the magnetic field which leaks to the outer side of the rice cooker main body 1 from the bottom heating coil 4 and the outside bottom heating coil 5 can be suppressed, and a magnetic force line can be concentrated on the pan 2 side.

  In the first embodiment, the ferrite unit 9 is fixed to the protective frame 3 by a fixing means such as an adhesive or a screw through the bottom heating coil 4 and the bottom heating coil 5. For example, after the first ferrite 6 is fixed to the center side of the pan 2 on the bottom surface of the protective frame 3, the hinge 8 c is bent so that the second ferrite 7 is in contact with the protective frame 3. The second ferrite 7 is fixed to the protective frame 3.

  Next, the operation and effect of the ferrite unit 9 of the rice cooker according to the first embodiment will be described.

  First, a high frequency current is supplied from the drive circuit to the bottom heating coil 4 and the bottom heating coil 5. Thereby, a magnetic field is generated from the bottom heating coil 4 and the outside bottom heating coil 5. The pot 2 is induction-heated by this magnetic field, and rice cooking is performed. At this time, the ferrite unit 9 disposed so as to oppose the bottom heating coil 4 and the bottom heating coil 5 suppresses leakage of magnetic lines of force to the outside of the rice cooker body 1, thereby suppressing a decrease in heating efficiency. it can.

  In addition, since the first ferrite 6 of the ferrite unit 9 is provided with the chamfered portion 6a, even when bent at the hinge portion 8c, the first ferrite 6 and the second ferrite 7 are prevented from interfering with each other. can do. As a result, the distance between one end of the first ferrite and one end of the second ferrite can be reduced. Moreover, since the end face of the one end part of the 2nd ferrite 7 and the chamfer 6a are arrange | positioned so that it can oppose effectively, it becomes possible to prevent the leakage of a magnetic field line effectively and can suppress the fall of heating efficiency. .

  Next, the operation | movement which attaches the same ferrite unit 9 to several rice cookers from which rice cooking capacity differs is demonstrated. Here, a rice cooker having a pot 2 having a rice cooking capacity of 1.0 liter (hereinafter referred to as 1.0 liter pot 2) and a pot 2a having a rice cooking capacity of 1.8 liter (hereinafter 1.8 liter). No. 2a) will be described as an example. FIG. 1 shows a rice cooker with a 1.0 liter pan. FIG. 3 shows a rice cooker with a 1.8 liter pot.

  In the rice cooker including the 1.0 liter pan 2, the diameter of the flat portion at the bottom of the pan 2 is about 147 mm. On the other hand, in the rice cooker provided with the 1.8 liter pot 2a, the diameter of the flat part of the bottom part of the pot 2a is about 165 mm. That is, the diameter of the flat part of the bottom part of the pan differs by about 18 mm between the rice cooker having a rice cooker capacity of 1.0 liter and the rice cooker having a rice cooker capacity of 1.8 liters. For this reason, the protective frame 3, the bottom heating coil 4 and the bottom heating coil 5 are arranged at positions determined according to the diameter of the flat portion of the bottom of the pan. Thereby, it is made to satisfy the rice cooking performance by induction heating.

  When attaching the ferrite unit 9 to a rice cooker including a 1.0 liter pot 2, first, the first ferrite 6 is fixed so as to face the bottom heating coil 4. Next, as shown in FIG. 1, the hinge portion 8 c is bent so that the second ferrite 7 faces the out-of-bottom heating coil 5. At this time, the angle A for bending the hinge portion 8c is, for example, 120 degrees.

  On the other hand, when attaching the ferrite unit 9 to a rice cooker including a 1.8 liter pot 2a, first, the first ferrite 6 is fixed so as to face the bottom heating coil 4a. At this time, the position of the first ferrite 6 is, for example, 5 mm away from the central axis 2b of the pan 2a as compared to the case of the rice cooker including the 1.0 liter pan 2. Next, as shown in FIG. 3, the hinge portion 8c is bent so that the second ferrite 7 faces the out-of-bottom heating coil 5a. At this time, an angle A ′ for bending the hinge portion 8 c is, for example, 135 degrees.

  According to the rice cooker according to the first embodiment, the position and angle of the first and second ferrites 6 and 7 can be changed by bending the hinge portion 8c, and the general purpose of the ferrite (ferrite unit 9). Can be improved.

  Moreover, according to the rice cooker which concerns on this 1st Embodiment, as shown to FIG. 2C, since it can arrange | position so that the 1st ferrite 6 and the 2nd ferrite 7 may be located on the same plane, It becomes possible to pack without gaps, and it is excellent in storage as a part, and the transportation cost can be reduced.

  In addition, this invention is not limited to the said embodiment, It can implement in another various aspect. For example, in the above description, the ferrite unit 9 is configured to include two ferrites, but the present invention is not limited to this. As shown in FIG. 4, the ferrite unit 9 may be configured to include three or more ferrites. In this case, a short rod-like ferrite can be attached along the outer bottom of the pan 2 by increasing the number of holding members 8 serving as nodes. Thereby, ensuring of favorable rice cooking performance and reduction of leakage of magnetic lines of force can be realized.

  In the above, one end portion of the first ferrite 6 is held by the box-shaped or substantially U-shaped first ferrite holding portion 8a, and the box-shaped or substantially U-shaped second ferrite holding portion 8b holds the first end. Although the holding member 8 is configured to hold one end of the ferrite 7 of No. 2, the present invention is not limited to this. For example, as shown in FIG. 5, the holding member may be constituted by a thin and flexible film 10. In this case, for example, by attaching the film 10 to one end portion of the first ferrite 6 and one end portion of the second ferrite 7 with an adhesive or a double-sided tape, they can be connected and held. In this case, the portion of the film 10 located between the first ferrite 6 and the second ferrite 7 functions as a hinge portion and can be easily bent.

  In the above description, the first ferrite 6 and the second ferrite 7 have different shapes and lengths. However, the shapes and lengths may be the same. In this case, parts can be shared, and costs for processing and transportation can be further reduced.

(Second Embodiment)
FIG. 6 is a perspective view of a ferrite unit included in the rice cooker according to the second embodiment of the present invention. FIG. 7 is a partial cross-sectional view of a rice cooker according to the second embodiment of the present invention. In addition, since the basic composition of the rice cooker which concerns on this 2nd Embodiment is the same as that of the rice cooker which concerns on the said 1st Embodiment, description of a similar part is abbreviate | omitted and it demonstrates centering around difference. Moreover, the same code | symbol is attached | subjected to the component same as the rice cooker which concerns on the said 1st Embodiment, and the description is abbreviate | omitted.

  As shown in FIG. 6, the holding member 8 of the ferrite unit 9 is made of an elastic material (for example, silicon rubber) and is insert-molded so as to cover the first and second ferrites 6 and 7. A constriction (thin wall portion) that functions as a hinge portion 8c is provided between the first ferrite 6 and the second ferrite 7 each having the chamfered portion 6a.

  As shown in FIG. 7, a protective frame cover 12 formed of a heat-resistant synthetic resin is provided outside the ferrite unit 9 (on the side away from the pan 2). The protective frame cover 12 is provided with a surrounding portion (not shown) having a U-shaped cross section. The ferrite unit 9 is press-fitted into the surrounding shape portion using its own elastic force. In the second embodiment, the protective frame cover 12 is provided with a claw portion (not shown) that engages with the ferrite unit 9 when the ferrite unit 9 is press-fitted into the surrounding shape portion. This prevents the ferrite unit 9 from coming off the protective frame cover 12.

  The protective frame cover 12 is attached to the protective frame 3 via the heating coils 4 and 5 and the ferrite unit 9. Specifically, after the ferrite unit 9 is press-fitted, the protective frame cover 12 is pressed against the protective frame 3 from the outside of the bottom heating coil 4 and the bottom outer heating coil 5, and the protective frame 3 Attached to.

  As described above, assembly is facilitated by attaching the protective frame cover 12 to the protective frame 3 in a state where the protective frame cover 12 and the ferrite unit 9 are integrated in advance. Further, by pressing the ferrite unit 9 into the protective frame cover 12, the angle A of the ferrite unit 9 is determined, and the shape of the ferrite unit 9 is determined. Further, by attaching the protective frame cover 12 to the protective frame 3 via the heating coils 4 and 5 and the ferrite unit 9, the heating coils 4 and 5 and the ferrite unit 9 are connected to the protective frame 3 and the protective frame cover 12. Will be pinched between. Thereby, the positional relationship of each heating coil 4 and 5 and the ferrite unit 9 can be stabilized, and it can suppress that a magnetic force line leaks to the outer side of the rice cooker main body 1. FIG. As a result, rice cooking performance can be stabilized.

  In addition, in the some rice cooker from which rice cooking capacity differs, in order to match | combine with the control system of each rice cooker, the property of a pan, etc., the circular cross-sectional shape of the bottom heating coil 5 and the thickness of a heating coil differ. Therefore, in the second embodiment, the holding member 8 is provided with a convex portion 8d on the surface facing each of the heating coils 4 and 5, as shown in FIGS. The convex portion 8d is formed in a linear shape, for example. The protective frame cover 12 is fixed to the protective frame 3 while deforming the convex portion 8d so as to press the heating coils 4 and 5 against each other. Thereby, the clearance between the holding member 8 and each of the heating coils 4 and 5 can be eliminated, and the ferrite unit 9 can be fixed without rattling. As a result, rice cooking performance can be stabilized.

  Next, the operation and effect of the ferrite unit 9 of the rice cooker according to the second embodiment will be described.

  First, a high frequency current is supplied from the drive circuit to the bottom heating coil 4 and the bottom heating coil 5. Thereby, a magnetic field is generated from each of the heating coils 4 and 5. The pot 2 is induction-heated by this magnetic field, and rice cooking is performed.

  At this time, the first and second ferrites 6 and 7 and the heating coils 4 and 5 vibrate due to the generated magnetic force. Here, in the second embodiment, since the first and second ferrites 6 and 7 are covered by the holding member 8 made of an elastic material, the protective frame cover 12 and the heating coils 4 and 5 On the other hand, contact is made through the holding member 8. Thereby, even if the 1st and 2nd ferrite 6 and 7 and each heating coil 4 and 5 vibrate, generation | occurrence | production of abnormal noises, such as a collision sound and a chatter sound, can be suppressed.

  In the second embodiment, the protective frame cover 12 is fixed to the protective frame 3 while being deformed so as to press the convex portions 8d against the heating coils 4 and 5, so that the first and second ferrites 6, 7 and each heating coil 4 and 5 can be fixed without rattling. Thereby, it can suppress that the 1st and 2nd ferrite 6 and 7 and each heating coil 4 and 5 vibrate, and generation | occurrence | production of abnormal noise can be suppressed further.

  In the second embodiment, since the first and second ferrites 6 and 7 are covered with the holding member 8 made of an elastic material, a drop impact or the like is applied to the rice cooker. However, it is possible to prevent the first and second ferrites 6 and 7 from cracking and leaking the magnetic lines of force due to the impact.

  In the second embodiment, the first and second ferrites 6 and 7 and the heating coils 4 and 5 can be attached without using an adhesive or a fixing tape, so that they can be easily disassembled. And recyclability can be improved.

  In the second embodiment, the holding member 8 is insert-molded so as to cover the first and second ferrites 6 and 7, but the present invention is not limited to this. For example, the first and second ferrites 6 and 7 may be inserted into the separately formed holding member 8 and assembled. In this case, the holding member 8 can be easily detached from the first and second ferrites 6 and 7, and the decomposability can be improved.

  In the second embodiment, the protective frame cover 12 is illustrated as a component built in the rice cooker body 1, but the present invention is not limited to this. For example, the protective frame cover 12 may be used as a component that forms the outline of the rice cooker body 1. In this case, the number of parts can be reduced, and an inexpensive rice cooker can be provided.

  In addition, it can be made to show the effect which each has among various embodiments by combining suitably any embodiment suitably.

  Since the rice cooker which concerns on this invention can improve the versatility of a ferrite, it is useful for the rice cooker provided with a ferrite.

DESCRIPTION OF SYMBOLS 1 Rice cooker main body 1a Lid main body 2 Pan 2a Pan 2b Center axis 3 Protection frame 4 Bottom heating coil 4a Bottom heating coil 5 Bottom bottom heating coil 5a Bottom bottom heating coil 6 1st ferrite 6a Chamfer 7 Second ferrite DESCRIPTION OF SYMBOLS 8 Holding member 8a 1st ferrite holding part 8b 2nd ferrite holding part 8c Hinge part 9 Ferrite unit 10 Film 11 Adhesive 12 Protection frame cover

Claims (7)

The rice cooker body,
A pot for storing cooked rice,
A protective frame that is provided inside the rice cooker body and houses the pan;
A heating coil arranged on the outer bottom of the protective frame for induction heating the pan;
A ferrite unit provided so that at least a part faces the heating coil and is along the outer bottom of the protective frame;
With
The ferrite unit is
Rod-shaped first and second ferrites;
A holding member for connecting and holding one end of the first ferrite and one end of the second ferrite;
With
The holding member, Bei example a hinge portion to a portion located between the first ferrite and the second ferrite, before the ferritic unit is provided along the outer bottom portion of the protective frame, While the angle formed between the first ferrite and the second ferrite can be changed, when the ferrite unit is provided along the outer bottom of the protective frame determined by the shape of the pan, the first A rice cooker that maintains the angle formed by the second ferrite and the second ferrite .   The rice cooker according to claim 1, wherein the holding member is made of a resin material.   The rice cooker according to claim 2, wherein the hinge portion is formed thinner than other portions of the holding member. A chamfered portion is formed on one end of the first ferrite and one end of the second ferrite,
The other end face of the one end part of the first ferrite and the one end part of the second ferrite, and the chamfered part are arranged so as to face each other. rice cooker.   The rice cooker according to any one of claims 1 to 4, further comprising a protective frame cover attached to the protective frame via the heating coil and the ferrite unit.   The holding member is made of an elastic material, and is interposed between the ferrite unit and the heating coil and between the ferrite unit and the protective frame cover when the protective frame cover is attached to the protective frame. The rice cooker according to claim 5, wherein the rice cooker is formed to perform.   The said holding member is a rice cooker of Claim 6 provided with a convex part in the surface facing the said heating coil.

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