JP6774687B2 - Cooker - Google Patents

Description

The present invention relates to a cooking cooker provided with a heating coil that heats an object to be heated by electromagnetic induction.

As a heating cooker, one having improved usability in group cooking has been proposed (Patent Document 1).
The induction heating cooker described in Patent Document 1 supplies a high-frequency current to a main body, a heating coil inside the main body, an electrically insulating top plate arranged above the heating coil, and the heating coil. A control circuit is provided in front of the main body, a first operation panel capable of performing an induction heating operation, and a second operation panel behind the center of the heating coil.

Japanese Unexamined Patent Publication No. 2004-6076

In the induction heating cooker of Patent Document 1, there is no specific description for discharging the heat of the heating coil during cooking to the outside, and in some cases, the discharged heat may hit the user. When hot air hits the user, it not only hinders cooking but also makes the user uncomfortable.
The present invention has been made in view of such circumstances, and an object of the present invention is to improve usability in group cooking and to provide a cooking cooker capable of comfortably cooking by a user.

In order to solve the above problems, the heating cooker according to one aspect of the present invention includes a heating coil for heating an object to be heated by electromagnetic induction, a housing for accommodating the heating coil, and a first portion of the housing. A first operating unit provided in the housing, a second operating unit provided in a second portion of the housing facing the first portion, and the housing having the first portion and the second portion. A heat exhaust port provided between the two and exhausting the heat inside the housing to the outside, an intake port provided on the bottom wall of the housing and for taking in outside air inside, and inside the housing. A fan arranged in a state facing the intake port and for taking in air from the intake port, and a flow for outside air provided in the housing and taken in from the intake port by the fan toward the exhaust heat port. The path, a control circuit unit arranged in the housing and controlling the heating coil based on the operation of the first operation unit and the second operation unit, and the first operation unit and the control circuit unit are electrically connected to each other. The first cable is provided, and the second cable for electrically connecting the second operation unit and the control circuit unit is provided, and the heating coil is provided in the middle of the flow path. And the second cable are arranged in the housing in a state of being separated from the flow path.

According to the present invention, the usability in group cooking can be improved and the user can cook comfortably. Further, the first cable and the second cable are separated from the heating coil, so that noise from the heating coil can be less likely to be received.

It is a perspective view which shows the electromagnetic cooker which concerns on 1st Embodiment, (a) is a view which was seen from the top, (b) is the figure which was seen from the bottom. It is a perspective view which looked at the disassembled state of an electromagnetic cooker from above. It is a perspective view which shows the heating part, (a) is a view seen from above, (b) is a view seen from below. It is a perspective view which the cover was inverted. It is a top view of the main body. (A) is a perspective view of the first operation unit viewed from above, and (b) is a perspective view of the second operation unit viewed from above. It is a perspective view which looked at the state which removed the top plate and the cover from above. (A) is a perspective view of the hood cover viewed from below, and (b) is a perspective view of the hood cover viewed from above. It is a top view with the top plate, the cover and the hood cover removed. It is sectional drawing which shows the positional relationship of a heating coil, a blower, and a control circuit part.

<Overview>
The heating cooker according to one embodiment includes a heating coil for heating an object to be heated by electromagnetic induction, a housing for accommodating the heating coil, a first operation unit provided in a first portion of the housing, and the above. A second operation unit provided in a second portion of the housing facing the first portion, and the inside of the housing provided between the first portion and the second portion of the housing. It is arranged in a state of being provided in the bottom wall of the housing and for taking in outside air inside the housing and facing the intake port. A fan for sucking air from the intake port, a flow path provided in the housing for the outside air taken in from the intake port by the fan toward the heat exhaust port, and a flow path provided in the housing and described above. A control circuit unit that controls the heating coil based on the operation of the first operation unit and the second operation unit, a first cable that electrically connects the first operation unit and the control circuit unit, and the first cable. 2 A second cable for electrically connecting the operation unit and the control circuit unit is provided, the heating coil is provided in the middle of the flow path, and the first cable and the second cable are connected from the flow path. They are arranged in the housing in a separated state.
In the cooking cooker according to another aspect, the first cable and the second cable are arranged on the opposite side of the heating coil with the flow path wall forming the flow path interposed therebetween.
In the heating cooker according to another aspect, the first operation unit is housed in a large storage unit in which the heating coil and the fan are housed and a first operation storage unit partitioned by a first partition wall, and the first operation unit is housed in the first operation storage unit. The two operation units are housed in a second operation housing unit partitioned by the large storage unit and the second partition wall, the heating coil is arranged on the upper side of the large storage unit, and the circuit board of the control circuit unit is The first flow is arranged on the lower side of the large accommodating portion, the fan is arranged between the heating coil and the circuit board, and the flow path wall is provided along the opening edge of the intake port. There is a road wall and a second flow path wall connected to the first flow path wall and provided along a part of the heating coil, and the first cable is the flow path wall and the flow path wall. It is connected to the second operation unit side of the circuit board through between the heating coil and the side wall located on the opposite side of the flow path wall.
The cooking cooker according to one aspect of the specification includes a heating coil for heating an object to be heated by electromagnetic induction, a housing for accommodating the heating coil, and a first operation unit provided in a first portion of the housing. A second operation unit provided in a second portion of the housing facing the first portion, and a heat exhaust port provided in the housing and exhausting internal heat to the outside. The hot port is provided between the first portion and the second portion.
The cooking cooker according to another aspect of the specification includes an intake port provided in the housing and for taking in outside air inside, and a fan arranged in the housing and for taking in air from the intake port. The intake port is provided on the side opposite to the heat exhaust port with the center of the heating coil interposed therebetween. As a result, the outside air taken in from the intake port flows toward the heat exhaust port, and the heat inside the housing can be efficiently discharged. Here, "the intake port is provided on the side opposite to the heat exhaust port with the center of the heating coil interposed therebetween" means that the side on which the intake port is formed and the heat exhaust port are formed. It means that the sides are opposed to each other (located on both sides) with the center of the heating coil in between. For example, when a part of the intake port overlaps with the heating coil in a plan view, the heat exhaust port Including the case where a part overlaps with the heating coil.
In the cooking cooker according to another aspect of the specification, a flow path in which the outside air taken in from the intake port by the fan toward the heat exhaust port is formed in the housing, and the heating coil is provided in the middle of the flow path. ing. As a result, the heat of the heating coil can be efficiently discharged.

In the cooking cooker according to another aspect of the specification, the flow path is a first flow path wall provided along the opening edge of the intake port and a second flow path provided along the peripheral edge of the heating coil. It has a road wall. As a result, the intake outside air can be efficiently used for heat discharge.
In the cooking cooker according to another aspect of the specification, the housing integrally includes the first flow path wall and the second flow path wall. As a result, the number of parts can be reduced and the cost can be reduced.
The cooking cooker according to another aspect of the specification includes a control circuit unit that controls the heating coil based on the operation of the first operation unit and the second operation unit in the housing, and at least one of the control circuit units. The portion faces the flow path. As a result, in addition to the heat of the heating coil, the heat of the control circuit unit can be efficiently discharged.
In the cooking cooker according to another aspect of the specification, the first cable that electrically connects the first operation unit and the control circuit unit, and the second operation unit and the control circuit unit are electrically connected. The second cable to be used is arranged in the housing in a state of being separated from the flow path. As a result, the first cable and the second cable are separated from the heating coil, and noise from the heating coil can be less likely to be received.

<Embodiment>
1. 1. Outline As an example of a cooking cooker, a so-called electromagnetic cooking cooker A, which heats an object to be heated by electromagnetic induction, will be described with reference to FIGS. 1 and 2.
The electromagnetic cooker A is a thin rectangular box-shaped tabletop type.
The electromagnetic cooker A includes a heating unit 1 including a heating coil 11, a housing unit 2 accommodating the heating unit 1, and an operation unit 3 for operating the heating unit 1. The operation unit 3 here includes a first operation unit 3a provided in the first portion 2a of the housing portion 2 and a second operation unit 3b provided in the second portion 2b of the housing portion 2. When the electromagnetic cooker A is viewed from above, the first portion 2a faces the second portion 2b. Further, the housing portion 2 corresponds to an example of the housing according to the present invention.
Here, in a plan view, the direction connecting the first portion 2a and the second portion 2b is the vertical direction, and the direction orthogonal to the vertical direction is the horizontal direction. Further, the direction orthogonal to the vertical direction and the horizontal direction is defined as the vertical direction or the front and back directions.
As shown in FIG. 2, the housing portion 2 includes a main body 20 that opens upward, a cover 25 that covers the opening of the main body 20 and has an opening 259 in the center, and a top plate 28 that covers the opening 259 of the cover 25. Consists of.

As shown in FIG. 2, the electromagnetic cooker A accommodates a blower 4 for controlling a temperature rise of the heating unit 1 during cooking in the housing portion 2. The blower 4 takes in air from the intake port 42 of the housing portion 2, exchanges heat with the heating portion 1, and then discharges the air from the heat exhaust port 43 of the housing portion 2.
In the housing portion 2, the third portion 2c provided with the heat exhaust port 43 is located between the first portion 2a where the first operation portion 3a is located and the second portion 2b where the second operation portion 3b is located. To do. In other words, the third part 2c may be a part other than the first part 2a and the second part 2b.
The electromagnetic cooker A includes a flow path 5 for efficiently exchanging heat with the heating unit 1 for the outside air taken in by the blower 4. The flow path 5 is a space formed in the housing portion 2, and is indicated by an arrow to distinguish it from the main body 20 of the housing portion 2.

As shown in FIG. 2, the electromagnetic cooker A accommodates a control circuit unit 6 that supplies electric power to the heating unit 1 according to the operation of the operation unit 3 in the housing unit 2. The electromagnetic cooker A includes a cord connecting portion 7 in the housing portion 2 for detachably connecting a power cord (not shown). The cord connection unit 7 is electrically connected to the control circuit unit 6.
Each part will be described below.

2. Each part (1) Heating part An example of the heating part will be described with reference to FIG.
The heating unit 1 has a heating coil 11. The heating coil 11 is configured by winding a lead wire (not shown) around a lead wire fixing portion 12. The lead wire fixing portion 12 has a disk shape as a whole. The lead wire fixing portion 12 radially connects the central disk-shaped central portion 121, the annular outer peripheral portion 123 arranged concentrically with the central portion 121, and the central portion 121 and the outer peripheral portion 123. It has a connecting portion 125.
The conductor fixing portion 12 has a groove 127 for winding the conductive wire. The central portion 121 has a groove 127 on the outer peripheral side, the outer peripheral portion 123 has a groove 127 on the inner peripheral side, and the connecting portion 125 has a groove 127 on the entire radial direction. The lead wire fixing portion 12 has a through hole 121a in the central portion 121 and a through hole 123a in the outer peripheral portion 123, respectively. The through holes 121a and 123a are for conducting wires.
The lead wire fixing portion 12 is attached to the main body 20 of the housing portion 2. A screw is used for the attachment here, and a through hole 123b for the screw is provided in the overhanging portion 129 protruding from the outer peripheral portion 123. In addition, there are three overhanging portions 129 at intervals in the circumferential direction.

(2) Housing portion The housing portion 2 is composed of a main body 20, a cover 25, and a top plate 28 as described above. The configuration of each part will be described below.
(2-1) Top Plate An example of the top plate 28 will be described with reference to FIG.
The top plate 28 has a flat plate shape having a shape corresponding to the planar shape of the electromagnetic cooker A or a shape close to the corresponding shape. The plane shape of the electromagnetic cooker A is rectangular, and the top plate 28 is square. The top plate 28 here is composed of, for example, an ABS resin and a polycarbonate resin. A guideline 281 for placing cooking utensils is provided on the upper surface of the top plate 28.

(2-2) Cover An example of the cover 25 will be described with reference to FIGS. 2 and 4.
The cover 25 has a frame shape corresponding to the planar shape of the electromagnetic cooker A. Here, the cover 25 has a rectangular frame plate shape. The inside of the frame shape is an opening 259.
The cover 25 has a plate mounting portion 251 on which the top plate 28 is mounted, a first operation cover portion 253a that covers the first operation portion 3a, and a second operation cover portion 253b that covers the second operation portion 3b. As shown in FIG. 4, the cover 25 has one or a plurality of cover-side mounting portions 255 and 256 for mounting on the main body 20 and one or a plurality of cover-side positioning portions 257 for positioning with respect to the main body 20. There is.
The cover 25 has a rectangular frame-shaped flat plate portion 271, an inner flange portion 273 projecting from the inner peripheral edge of the flat plate portion 271 to the back side, and an outer flange portion 275 projecting from the outer peripheral edge of the flat plate portion 271 to the back side. The plate mounting portion 251 and the first operation cover portion 253a and the second operation cover portion 253b utilize a flat plate portion 271 and the like.

(2-2-1) Plate mounting portion An example of the plate mounting portion 251 will be described with reference to FIG.
The plate mounting portion 251 is provided around the opening 259. The opening 259 is slightly smaller than the top plate 28. The plate mounting portion 251 is provided in a rectangular frame shape between the first operation cover portion 253a and the second operation cover portion 253b on the cover 25 in a plan view.
The plate mounting portion 251 has an outer contact portion 251a that abuts on the peripheral edge portion including the peripheral edge of the top plate 28. The plate mounting portion 251 has an inner contact portion 251b that abuts on the inner peripheral side portion located inside the outer peripheral portion of the top plate 28.
The outer contact portion 251a and the inner contact portion 251b have a rectangular frame shape in a plan view. In a plan view, the lateral edge of the outer contact portion 251a coincides with the lateral edge of the top plate 28. The plate mounting portion 251 has a rectangular annular groove portion 251c recessed on the back side between the outer contact portion 251a and the inner contact portion 251b.

(2-2-2) First Operation Cover Unit An example of the first operation cover unit 253a will be described with reference to FIG.
The first operation cover portion 253a has through holes 261a and 263a for the first mounting component 33a (see FIG. 6) of the first operation portion 3a. The through hole 261a here is for the switch component 331a, and the through hole 263a is for the display screen 333a.
The first operation cover portion 253a has one or a plurality of first mounting portions for mounting the first operation unit 3a. A screw is used for mounting, and the first mounting portion is configured by the screw hole 265a into which the screw is screwed.
In order to separate the first operation board 31a from the back surface of the flat plate portion 271, the first mounting portion (screw hole 265a) is provided in the boss portion 267a, and the extension rod 269a supporting the first operation board 31a is provided in the flat plate portion 271. One or more are provided.

(2-2-3) Second Operation Cover Unit An example of the second operation cover unit 253b will be described with reference to FIG.
The second operation cover portion 253b has through holes 261b and 263b (see FIG. 2 for 263b) for the second mounting component 33b (see FIG. 6) of the second operation portion 3b. The through hole 261b here is for the switch component 331b, and the through hole 263b is for the display component 333b. The through hole 263b communicates with the inside of the tubular portion 262b into which the display component 333b is inserted.
The second operation cover portion 253b has one or a plurality of second mounting portions for mounting the second operation portion 3b. A screw is used for mounting, and a second mounting portion is formed by a screw hole 265b into which the screw is screwed.
In order to separate the second operation board 31b from the back surface of the flat plate portion 271, the second mounting portion (screw hole 265b) is provided in the boss portion 267b, and the extension rod 269b supporting the second operation board 31b is provided in the flat plate portion 271. One or more are provided.

(2-2-4) Cover-side mounting portion An example of the cover-side mounting portions 255 and 256 will be described with reference to FIG.
The cover-side mounting portion 255 is provided on the back surface of the first operation cover portion 253a and the second operation cover portion 253b. A screw is used for mounting the cover 25, and the cover-side mounting portion 255 has a boss portion 255a extending to the back side and a screw hole 255b provided in the boss portion 255a. The extended tip portion of the boss portion 255a is fitted (internally fitted) to the tubular portion 210d of the main body side cover mounting portion 210 of the main body 20.
The cover-side mounting portion 256 is provided on the outer flange portion 275 other than the second operation cover portion 253b. An engaging portion is used for mounting the cover 25, and the cover-side mounting portion 256 is composed of a convex portion protruding inward from the outer flange portion 275. In FIG. 4, the convex portions other than the outer flange portion 275 on the right side cannot be seen behind the outer flange portion 275.

(2-2-5) Cover-side Positioning Section An example of the cover-side positioning section 257 will be described with reference to FIG.
The cover-side positioning portion 257 is composed of a plate mounting portion 251 and an extension plate extending downward from the back surface of the first operation cover portion 253a and the second operation cover portion 253b. The outer peripheral surface of the cover-side positioning portion 257 abuts on the inner surfaces of the side walls 202 to 205 of the main body 20. A plurality of cover-side positioning portions 257 are provided at intervals along the outer peripheral edge.

(2-3) Main body An example of the main body 20 will be described with reference to FIG.
The main body 20 has a thin box shape with an open upper part. The main body 20 has a rectangular shape that is long in the vertical direction in a plan view. The main body 20 has a bottom wall 201, a first side wall 202, a second side wall 203, a third side wall 204, and a fourth side wall 205.
Here, the first side wall 202 is a side wall located on the side of the first operation unit 3a. The second side wall 203 is a side wall located on the side of the second operation unit 3b and faces the first side wall 202. The third side wall 204 is a side wall located on the heat exhaust port 43 side. The fourth side wall 205 is a side wall located on the blower 4 side and faces the third side wall 204. In a plan view, the connecting portion of each side wall is a curved side wall 206.
The main body 20 has a first operation accommodating unit 207a accommodating the first operation unit 3a, a second operation accommodating unit 207b accommodating the second operation unit 3b, and a large accommodating unit 208 accommodating each unit.

The main body 20 includes a main body side cover mounting portions 210 and 211 for mounting the cover 25, a circuit fixing portion 212 for fixing the control circuit portion 6, a circuit support portion 213 for supporting the control circuit unit 6, and a heating coil. It has one or more coil fixing portions 214 for fixing 11, a hood fixing portion 215 for fixing the blower 4 and the hood cover 57, and a cord attaching portion 231 for attaching the cord connecting portion 7. ..
The main body 20 has a flow path forming portion 51 for forming the flow path 5. The hood cover 57 constitutes a part of the flow path forming portion 51. The main body 20 has an intake port 42 which is an inlet of the flow path 5 and a heat exhaust port 43 which is an outlet of the flow path 5.

(2-3-1) First operation accommodating portion The first operation accommodating portion 207a includes a first end portion 201a, a first side wall 202, and a first side wall on the bottom wall 201 on the side of the first operation unit 3a in the vertical direction. It is a space surrounded by curved side walls 206 and 206 on both sides of 202 and a first partition wall 221a. When the cover 25 to which the first operation unit 3a is attached is attached to the main body 20, the first operation unit 3a is housed in the first operation accommodating unit 207a.
The first partition wall 221a is erected from the bottom wall 201 in a state parallel to the first side wall 202, and extends to the vicinity of the first operation cover portion 253a of the cover 25 as shown in FIG. As a result, the air heated by the heating unit 1 is restricted from entering the first operation accommodating unit 207a side.

(2-3-2) Second operation accommodating portion The second operation accommodating portion 207b has a second end portion 201b, a second side wall 203, and a second side wall on the bottom wall 201 on the side of the second operation unit 3b in the longitudinal direction. It is a space surrounded by curved side walls 206 and 206 on both sides of 203 and a second partition wall 221b. When the cover 25 for mounting the second operation unit 3b is attached to the main body 20, the second operation unit 3b is housed in the second operation accommodating unit 207b.
The second partition wall 221b is erected from the bottom wall 201 in a state parallel to the second side wall 203, and extends to the vicinity of the second operation cover portion 253b of the cover 25 as shown in FIG. As a result, the air heated by the heating unit 1 is restricted from entering the second operation accommodating unit 207b side.

(2-3-3) Large accommodating unit As shown in FIG. 2, the large accommodating unit 208, which is an example of the large accommodating unit, accommodates the control circuit unit 6, the heating unit 1, the blower 41, and the like.
The large accommodating portion 208 includes an intermediate portion 201c excluding the first end portion 201a and the second end portion 201b of the bottom wall 201, a first partition wall 221a, a second partition wall 221b, a third side wall 204, and a second. It is a space surrounded by four side walls 205. The positional relationship between the control circuit unit 6, the heating coil 11, and the blower 41 will be described later.

(2-3-4) Main body side cover attachment portion A screw is used to attach the cover 25 to the main body 20. The main body side cover mounting portion 210 has a covered tubular portion 210a protruding from the bottom wall 201 to the front side, and a through hole 210c provided in the lid portion 210b of the covered tubular portion 210a. The lid portion 210b is in the middle of the projecting direction of the covered tubular portion 210a, and the front side of the lid portion 210b is the tubular portion 210d.
In a state where the boss portion 255a of the cover side mounting portion 255 is fitted to the tubular portion 210d of the main body side cover mounting portion 210, the screw arranged inside the covered tubular portion 210a inserts the through hole 210c, and FIG. As shown in, screw into the screw hole 255b of the cover side mounting portion 255.
The main body side cover mounting portions 210 are provided at a total of five locations, one inside the four curved side walls 206 and the substantially center in the lateral direction of the second operation accommodating portion 207b.

An engaging portion is used for attaching the cover 25 to the main body 20. As shown in FIG. 7, the main body side cover mounting portion 211 is formed on a stretch piece 211a extending upward from the upper ends of a total of six locations of the first side wall 202, the third side wall 204, and the fourth side wall 205, and the stretch piece 211a. It has a through hole 211b provided. The cover-side mounting portion (convex portion) 256 shown in FIG. 4 engages with the through hole 211b.

(2-3-5) Circuit fixing part and circuit support part Screws are used to fix the control circuit part 6 to the main body 20. The circuit fixing portion 212 has a boss portion 212a protruding from the intermediate portion 201c of the bottom wall 201, and a screw hole 212b provided in the boss portion 212a.
The circuit support portion 213 is provided across the bottom wall 201 and the third side wall 204, and straddles the bottom wall 201 and the second partition wall 221b, respectively.
The circuit support portion 213 has a back contact portion 213a that contacts the back surface of the circuit board 61 and a front contact portion 213b that contacts the front surface of the circuit board 61 on the front side of the back contact portion 213a. The distance between the back contact portion 213a and the front contact portion 213b corresponds to the thickness of the circuit board 61.
The back contact portion 213a here is composed of a pair of stretching plates extending apart from the bottom wall 201 on the front side. The front contact portion 213b here is composed of an extension plate extending in parallel with the bottom wall 201 from a portion of the third side wall 204 and the second partition wall 221b near the bottom wall 201.

(2-3-6) Coil fixing part A screw is used to fix the heating part 1 to the main body 20. The coil fixing portion 214 has a boss portion 214a extending from the intermediate portion 201c of the bottom wall 201 to the front side, and a screw hole 214b provided in the boss portion 214a.
A screw for inserting the through hole 123b of the overhanging portion 129 of the lead wire fixing portion 12 is screwed into the screw hole 214b of the coil fixing portion 214. The overhanging portion 129 of the heating coil 11 is supported by the upper end surface of the boss portion 214a.

(2-3-7) Hood fixing portion The hood cover 57 is fixed to the main body 20 together with the blower 4. That is, with the blower 4 supported by the hood fixing portion 215 of the bottom wall 201, the hood cover 57 covering the blower 4 is fixed to the hood fixing portion 215 as shown in FIG. 7.
The hood fixing portion 215 has a pair of stepped columnar portions 215a erected from the bottom wall 201 and a columnar portion 215b erected between the pair of stepped columnar portions 215a, and the columnar portion 215b has a screw hole 215c. Is provided.

(2-3-8) Flow path forming section The flow path forming section 51 discharges the outside air taken in from the intake port 42 from the heat exhaust port 43 via the control circuit section 6 and the heating coil 11. This is for forming the flow path 5 of the above. The flow path forming portion 51 is composed of a first flow path wall 52, a second flow path wall 53, a guide wall 54, etc., which are erected from the intermediate portion 201c of the bottom wall 201.
The first flow path wall 52, the second flow path wall 53, the guide wall 54, and the like will be described in the item of “(6) Flow path” described later.

(2-3-9) Intake port and heat exhaust port The intake port 42 is provided at an intermediate portion 201c of the bottom wall 201 and near the first partition wall 221a. The intake port 42 is provided at a portion close to the fourth side wall 205. Here, the intake port 42 is composed of a plurality of small holes 42a arranged on concentric circles.
The bottom wall 201 on which the intake port 42 is formed has a raised bottom in order to increase the amount of intake air from the intake port 42. That is, as shown in FIG. 1B, the intake port 42 is provided in the raised bottom portion 201d for widening the distance from the installation surface. The raised bottom portion 201d is provided so as to straddle the first side wall 202, the third side wall 204, and the fourth side wall 205, and is configured to take in air from a wide range. As shown in FIG. 1, the intake port 42 has a bottom wall 201 projecting to the back side in a bottomed tubular shape, and small holes 42a are formed in the tubular portion and the bottom portion.

The heat exhaust port 43 is provided on the third side wall 204. As shown in FIG. 5, the heat exhaust port 43 is composed of a plurality of small holes 43a provided along the longitudinal direction of the third side wall 204. The small hole 43a has a rectangular shape that is long in the vertical direction.

(2-3-10) Cord mounting portion The cord mounting portion 231 will be described with reference to FIG.
The cord attachment portion 231 is provided on the third side wall 204. The cord mounting portion 231 has a mounting port 233 (see FIG. 2) provided on the third side wall 204, a mounting groove 235 provided on the inner surface of the third side wall 204, and a cord on the bottom wall 201 side of the third side wall 204. It has a support portion 237 that supports the connection portion 7.

(3) Operation Unit An example of the operation unit 3 will be described with reference to FIG.
(3-1) First Operation Unit This will be described with reference to FIG. 6A.
The first operation unit 3a includes a first operation board 31a and a first mounting component 33a mounted on the first operation board 31a.
The first mounting component 33a includes a plurality of switch components 331a such as a power switch and a temperature control switch, a display screen 333a for displaying a temperature state, and the like. In the figure, some of the plurality of switch parts are designated by reference numerals.
The first operation unit 3a has a mounting portion for mounting on the first operation cover portion 253a of the cover 25 of the housing portion 2. Screws are used for mounting, and a plurality of through holes 35a for screws are provided on the first operation board 31a as mounting portions.

(3-2) Second Operation Unit This will be described with reference to FIG. 6B.
The second operation unit 3b includes a second operation board 31b and a second mounting component 33b mounted on the second operation board 31b.
The second mounting component 33b includes a plurality of switch components 331b such as a temperature adjustment switch, a display component 333b that displays a temperature state, and the like. In the figure, some of the plurality of display parts are indicated by reference numerals.
The second operation unit 3b has a mounting portion for mounting on the second operation cover portion 253b of the cover 25 of the housing portion 2. Screws are used for mounting, and a plurality of through holes 35b for screws are provided on the second operation board 31b as mounting portions.
The second operation unit 3b has a through hole 37b for the cover side attachment portion 255 for attaching the cover 25 to the main body 20.

(4) Blower An example of the blower 4 will be described with reference to FIG.
The blower 4 has a drive unit (not shown), a fan 413 attached to a rotating shaft of the drive unit, and an arm 415 on which the drive unit is mounted.
The blower 4 is fixed to the hood fixing portion 215 of the housing portion 2 as shown in FIG. 5 in a state of facing the intake port 42 of the housing portion 2 as shown in FIG.
The blower 4 is fixed in a state in which substantially the lower half in the direction in which the rotation shaft extends is fitted in a portion recessed in a bottomed tubular shape for forming the intake port 42.
The blower 4 has a pair of through holes 415a in the arm 415. The through hole 415a fits with the stepped portion of the pair of stepped columnar portions 215a of the hood fixing portion 215 of the bottom wall 201 of the housing portion 2. As a result, the blower 4 is supported by the hood fixing portion 215 of the housing portion 2.
The blower 4 has a recess 415b with a hole between the pair of through holes 415a of the arm 415. As shown in FIG. 8, a step 573c of the fixing portion 573 of the hood cover 57 fits into the recess of the recessed recess 415b with holes, and the hood fixing portion 215 of the housing portion 2 fits into the through hole of the recessed recess 415b with holes. A screw to be screwed into the screw hole 215c of the columnar portion 215b of the above is inserted.

(5) Control Circuit Unit An example of the control circuit unit 6 will be described with reference to FIG.
The control circuit unit 6 controls the heating coil 11 based on the operation of the operation unit 3 of the user. The control circuit unit 6 controls the supply of electric power to the first operation unit 3a and the second operation unit 3b.
The control circuit unit 6 includes a circuit board 61 and a plurality of electronic components 62, 63, 64, etc. mounted on the circuit board 61. The control circuit unit 6 includes a heat sink 65 thermally connected to the electronic components 63 and 64 on the circuit board 61 in order to suppress a temperature rise of the electronic components 63 and 64 that easily generate heat.
When the electronic component 62 has a rectangular shape in a plan view, the electronic component 62 is provided in a state in which the longitudinal direction is orthogonal to the second side wall 204. Further, the electronic component 62 is shown only in FIGS. 2 and 7.

The control circuit unit 6 has a circuit-side fixing unit 611 on the circuit board 61 for fixing to the bottom wall 201 of the housing unit 2. As shown in FIG. 5, the circuit-side fixing portion 611 is composed of a through hole for a screw screwed into the screw hole 212b of the circuit fixing portion 212 of the bottom wall 201. The fixed circuit board 61 is supported on the upper surface of the boss portion 212a of the bottom wall 201 in a state parallel to the bottom wall 201.
When the control circuit unit 6 is fixed to the main body 20, the two end portions of the circuit board 61 are inserted (sliding) between the back contact portion 213a and the front contact portion 213b of the circuit support portion 213. .. Therefore, the circuit board 61 has a through hole 612 larger than the boss portion 214a of the coil fixing portion 214.

As shown in FIG. 9, the control circuit unit 6 and the first operation unit 3a are electrically connected to each other via the first cable 66a. The first cable 66a has connectors 67a at both ends, and one connector 67a is detachably connected to the connector 68a of the circuit board 61 and the other connector 67a is detachably connected to the connector 68a of the first operation board 31a.
As shown in FIG. 9, the control circuit unit 6 and the second operation unit 3b are electrically connected to each other via the second cable 66b. The second cable 66b has connectors 67b at both ends, and one connector 67b is detachably connected to the connector 68b of the circuit board 61 and the other connector 67b is detachably connected to the connector 68b of the second operation board 31b.
As shown in FIG. 9, the first cable 66a and the second cable 66b are arranged so as to pass between the flow path forming portion 51 and the fourth striking side wall 205.

As shown in FIG. 7, the heat sink 65 has a plurality of heat radiating plates 651. The heat radiating plate 651 has a rectangular shape that is long in the lateral direction. The heat radiating plate 651 extends in a direction orthogonal to the front and back directions, and is connected to the first partition wall 221a on the opposite side.

(6) Flow path The flow path 5 is configured such that the outside air taken in from the intake port 42 goes to the heat exhaust port 43 in the housing portion 2. A heating coil 11 is provided in the middle of the flow path 5. As a result, the temperature rise of the heating coil 11 can be suppressed. Further, a control circuit unit 6 is provided in the middle of the flow path 5. As a result, the temperature rise of the control circuit unit 6 can be suppressed.
The flow path 5 is formed between the intermediate portion 201c of the bottom wall 201 and the cover 25 and the top plate 28.
The region between the intermediate portion 201c of the bottom wall 201 and the cover 25 and the top plate 28, which is not a flow path, is referred to as a flow path outer region 59. The first cable 66a and the second cable 66b are arranged in the flow path outer region 59 in the housing portion 2.

In the large accommodating portion 208 of the housing portion 2, the outside air taken in from the intake port 42 naturally goes to the heat exhaust port 43 by the blower 4. In this case, the outside air also flows to the region where the cooling target of the large accommodating portion 208 does not exist, and the cooling efficiency tends to deteriorate. The flow path forming unit 51 guides the intake outside air toward the heating coil 11 and the control circuit unit 6 to be cooled.
As shown in FIG. 5, the flow path forming portion 51 includes a first flow path wall 52 provided along the opening edge of the intake port 42 and a second flow path wall provided along the peripheral edge of the heating coil 11. It has 53 and. The flow path forming portion 51 has a hood cover 57 that covers the opposite side (the back side of the blower 4) of the intake port 42 in the blower 4. The flow path forming portion 51 has a guide wall 54 that guides the intake outside air to the cooling target.

(6-1) First Channel Wall The first flow path wall 52 is formed on the side opposite to the third side wall 204 of the intake port 42, that is, on the fourth side wall 205 side of the intake port 42 in a plan view. .. In other words, the first flow path wall 52 is formed between the intake port 42 and the fourth side wall 205. The first flow path wall 52 has an arc shape in a plan view.
The first flow path wall 52 is formed so as to extend upward from the intermediate portion 201c of the bottom wall 201. As shown in FIG. 7, the upper end of the first flow path wall 52 substantially coincides with the upper end of the first partition wall 221a. As a result, it is possible to prevent the sucked outside air from leaking to the outside flow path region 59 from between the first flow path wall 52 and the cover 25 or between the first flow path wall 52 and the top plate 28.
One end of the first flow path wall 52 is connected to the first partition wall 221a as shown in FIG. The other end of the first flow path wall 52 is connected to the second flow path wall 53.

(6-2) Second Channel Wall The second flow path wall 53 is formed on the side opposite to the third side wall 204 of the heating coil 11, that is, on the fourth side wall 205 side of the heating coil 11 in a plan view. .. In other words, the second flow path wall 53 is formed between the heating coil 11 and the fourth side wall 205.
The second flow path wall 53 is provided on the peripheral edge of the heating coil 11 and not facing the blower 41 (hood cover 57) in a plan view.
The second flow path wall 53 is formed so as to extend upward from the intermediate portion 201c of the bottom wall 201.

As shown in FIG. 7, the upper end of the second flow path wall 53 substantially coincides with the upper ends of the first partition wall 221a and the second partition wall 221b. As shown in FIG. 7, the upper end of the second flow path wall 53 substantially coincides with the upper surface of the heating coil 11. As a result, it is possible to prevent the intake outside air from leaking from between the second flow path wall 53 and the top plate 28.
As shown in FIG. 5, one end of the second flow path wall 53 is connected to the other end of the first flow path wall 52. The other end of the second flow path wall 53 extends close to the circuit board 61 of the control circuit unit 6.
The second flow path wall 53 approaches the heating coil 11 as it moves away from the first flow path wall 52 toward the second side wall 203, and when it approaches the peripheral edge of the heating coil 11, the second flow path wall 53 of the second flow path wall 53 approaches the peripheral edge. Extend to the end. In other words, the second flow path wall 53 has a straight line portion on the first flow path wall 52 side and an arc portion on the other end side in a plan view.

The second flow path wall 53 is connected to the coil fixing portion 214. The second flow path wall 53 has a recess 531 in a portion connected to the coil fixing portion 214. As shown in FIG. 7, the overhanging portion 129 of the heating coil 11 fits into the recess 531.

(6-3) Hood Cover An example of the hood cover 57 will be described with reference to FIG.
The hood cover 57 has a flat plate portion 571 that covers the back side of the blower 4, and a fixing portion 573 for fixing the hood cover 57 to the housing portion 2. The hood cover 57 has a guide wall 579 that guides the outside air taken in from the intake port 42 to the heat sink 65 side of the control circuit unit 6.

The flat plate portion 571 has a shape that fills the space between the first flow path wall 52 and the heating coil 11 in a plan view. The flat plate portion 571 has a shape that does not overlap with the heat sink 65 of the control circuit portion 6 in a plan view. Reinforcing ribs 571a are provided in a mesh shape on the surface of the flat plate portion 571.

The fixed portion 573 has a bottomed tubular portion 573a that protrudes in a bottomed tubular shape on the back side. The fixed portion 573 has a step 573c at the tip of the bottom portion 573b of the bottomed tubular portion 573a. The step 573c fits into the recess of the perforated recess 415b of the arm 415 of the blower 4.
A through hole 573d is provided in the bottom portion 573b. A screw arranged in the bottomed tubular portion 573a is inserted into the through hole 573d. The screw passes through the recessed recess 415b (see FIG. 2) of the arm 415 of the blower 4 and is screwed into the screw hole 215c of the hood fixing portion 215 of the housing portion 2.

As shown in FIG. 7, the guide wall 579 extends between the heating coil 11 and the heat sink 65 toward the bottom wall 201. The guide wall 597 has an arc shape along the peripheral edge of the heating coil 11 in a plan view. The outside air taken in from the intake port 42 goes to the heat exhaust port 43 while expanding between the second flow path wall 53 and the guide wall 597. As a result, the outside air passes through substantially the entire region of the heating coil 11. Further, the outside air taken in from the intake port 42 passes through the heat sink 65 from between the first partition wall 221a and the guide wall 597 and heads for the heat exhaust port 43.

(6-4) Guide Wall An example of the guide wall 54 will be described with reference to FIG.
The guide wall 54 is formed on the raised bottom portion 201d of the bottom wall 201. The guide wall 54 is erected from the raised bottom portion 201d. The upper end of the guide wall 54 substantially coincides with the upper end of the fan 413 of the blower 4. As a result, the outside air taken in from the intake port 42 can be efficiently guided toward the heat exhaust port 43.
The guide wall 54 has a first guide wall 541 extending tangentially from the other end of the first flow path wall 52 to the peripheral edge of the intake port 42 in a plan view.
The guide wall 54 has a second guide wall 543 that extends in a direction parallel to the first guide wall 541 in a plan view. The second guide wall 543 is formed on the side opposite to the second flow path wall 53 with respect to the first guide wall 541.
The guide wall 54 has a third guide wall 545 extending in the lateral direction (direction in which the heat exhaust port 43 is located) at intervals from the second guide wall 543 in a plan view. The third guide wall 545 is formed on the opposite side of the second guide wall 543 from the first guide wall 541.
The height of the first guide wall 541, the second guide wall 543, and the third guide wall 545 in the vertical direction is lower than the height of the first flow path wall 52 and the second flow path wall 53.

The guide wall 54 is a peripheral edge of the intake port 42, and is a fourth guide wall 547 in an area where the first flow path wall 52, the first guide wall 541, the second guide wall 543, the third guide wall 545, and the like are not formed. have. The fourth guide wall 547 has an arc shape along the peripheral edge of the intake port 42 in a plan view. The fourth guide wall 547 is for guiding the intake outside air upward.
The height of the fourth guide wall 547 is lower than that of the first flow path wall 52, and the outside air taken in from the intake port 42 passes above the fourth guide wall 547 toward the heat sink 65 and the electronic component 62.
The numbers from the first guide wall 541 to the fourth guide wall 547 are for distinguishing from other guide walls.

(7) Coat Connection Unit An example of the cord connection unit 7 will be described with reference to FIG.
The cord connecting portion 7 has a connecting portion main body 71 made of an insulating material and a connector 73 provided on the connecting portion main body 71. The connector 73 here is a magnet type.
The connecting portion main body 71 has a ridge portion 71a protruding outward from the side wall, and the ridge portion 71a is inserted from the front side into the mounting groove 235 of the cord mounting portion 231 of the third side wall 204 of the housing portion 2. As a result, the cord connecting portion 7 is supported by the supporting portion 237 and attached to the main body 20.

3. 3. Positional Relationship An example of the positional relationship between the heating coil 11, the control circuit unit 6, and the blower 4 will be described with reference to FIGS. 9 and 10.

(1) Planar view The positional relationship in the plan view will be described with reference to FIG.
The heating coil 11 is arranged at substantially the center of the large accommodating portion 208, and is provided at three locations: two coil fixing portions 214 penetrating the circuit board 61 and a coil fixing portion 214 connected to the second flow path wall 55. It is fixed.
The control circuit unit 6 is arranged in a substantially left half in the lateral direction of the large accommodating unit 208. The left side here is the side where the third side wall 204 is located. The heat sink 65 is arranged between the heating coil 11 and the first partition wall 221a at a position close to the blower 4.
The blower 4 is arranged on the substantially right side in the lateral direction of the large accommodating portion 208. In other words, the blower 4 is arranged in an area where the control circuit unit 6 is not arranged.
In this way, the control circuit unit 6 and the blower 4 are arranged so as not to overlap each other, and the heating coil 11 is arranged so as to overlap the control circuit unit 6 and the blower 4. The heat sink 65 is arranged so as not to overlap the heating coil 11 and the blower 4.

(2) Side view An example of the positional relationship in the side view will be described with reference to FIG.
The heating coil 11 is arranged on the upper side of the large accommodating portion 208. The circuit board 61 is arranged on the lower side of the large accommodating portion 208. The blower 4 is provided on the raised bottom portion 201d of the bottom wall 201, and is arranged substantially at the center of the large accommodating portion 208 in the vertical direction. That is, the blower 4 is arranged between the heating coil 11 and the circuit board 61. As a result, the air sent out from the blower 4 spreads up and down in the large accommodating portion 208, and the outside air is sent to substantially the entire region of the heating coil 11 and the control circuit portion 6.

The upper surface of the raised bottom portion 201d of the bottom wall 201 is above the upper surface of the circuit board 61 of the control circuit unit 6. Thereby, it is possible to regulate that the air sent from the blower 4 enters between the circuit board 61 and the bottom wall 201.

4. An example of the flow path 5 will be described with reference to FIG.
As described above, the flow path 5 is composed of a space surrounded by the intermediate portion 201c of the bottom wall 201, the cover 25, the top plate 28, and the flow path forming portion 51, and is connected to the intake port 42 and the heat exhaust port 43. The heating coil 11 to be cooled and the control circuit unit 6 face the flow path 5.
(1) Around the intake port In the vicinity of the intake port 42, the outside air taken in by the blower 4 spreads in a direction orthogonal to the rotation axis of the blower 4 by the hood cover 57. At this time, since the first flow path wall 52 and the fourth guide wall 547 are formed on the peripheral edge of the intake port 42, the amount of outside air entering between the circuit board 61 and the bottom wall 201 can be regulated.
(2) Second flow path wall Of the intake outside air, the outside air traveling above the first guide wall 541 travels along the second flow path wall 53 and heats up, as shown by arrow A in the figure. It passes through the second partition wall 221b side of the coil 11 and the control circuit unit 6 and heads toward the heat exhaust port 43.

(3) First guide wall Of the intake outside air, the outside air toward the first guide wall 541 travels along the first guide wall 541 as shown by the arrow B in the drawing, and the heating coil 11 and the control circuit It passes through the middle part of the part 6 and heads for the heat exhaust port 43.
(4) Second guide wall Of the intake outside air, the outside air toward the second guide wall 543 (see FIG. 5) is the second guide wall 543 and the third guide wall 545 as shown by the arrow C in the figure. Proceeding between, passes through the intermediate portion between the heating coil 11 and the control circuit unit 6 and heads for the heat exhaust port 43.
(5) Fourth guide wall Of the intake outside air, the outside air traveling above the fourth guide wall 547 is a heating coil along the guide wall 579 (see FIG. 7) as shown by the arrow D in the figure. It passes through the second partition wall 221b side in 11 and the control circuit unit 6 and heads for the heat exhaust port 43.
Of the intake outside air, the outside air traveling above the fourth guide wall 547 and traveling between the guide wall 579 (see FIG. 7) and the first partition wall 221a is indicated by an arrow E in the figure. As described above, the heat sink 65 of the control circuit unit 6 passes between the heat radiating plates 651 and heads toward the heat exhaust port 43.

Although the embodiments have been described above, the embodiments are not limited to these embodiments, and for example, the following modifications may be used. Further, the embodiment, the modified example, and the modified example may be combined.
Further, even if there is an example not described in the embodiment or the modified example, or a design change within a range not deviating from the gist, the present invention is included.

<Modification example>
(1) The electromagnetic cooker A of the embodiment has a rectangular shape in a plan view, but may have another shape. Other shapes include a triangular shape, a circular shape, an elliptical shape, and the like. In this case, the first operation unit 3a and the second operation unit 3b may be located at substantially opposite portions, and in the case of a triangle, the operation unit may be provided on two adjacent sides and the heat exhaust port may be provided on the remaining one side. Good.
The shape here means the entire shape, and for example, in the case of a rectangular shape, the shape includes a shape in which the rectangular corner portion is rounded and a shape in which the rectangular corner portion is chamfered.
(2) The housing portion 2 of the embodiment is composed of a main body 20, a cover 25, and a top plate 28. However, the housing 2 may be composed of two members, a main body and a top plate, as long as it can accommodate the heating coil 11, the control circuit unit 6, and the like, or may be composed of four or more members including these. May be good.

(3) The heat exhaust port 43 of the embodiment is provided on the third side wall 204 in which the first operation unit 3a and the second operation unit 3b are not provided, but the third side wall 204 and the fourth side wall 205 are provided. It may be provided in a dispersed manner. If the exhaust heat is not felt by the user from the heat exhaust port, the first part (the first side wall side in the first side wall or the bottom wall) and the second part (the second side wall or the second side wall in the bottom wall). A heat exhaust port may be provided on the side wall side).
(4) The heat exhaust port 43 of the embodiment has a plurality of rectangular small holes 43a long in the front and back directions in the vertical direction and the front and back directions (see (b) in FIG. 1), but the heat exhaust port is , A plurality of rectangular or square small holes and circular small holes long in the vertical direction may be provided, or small holes having different shapes may be combined. That is, the heat exhaust port 43 has a size that human fingers, chopsticks, and the like cannot be inserted, and it is sufficient that the air inside the housing can be discharged, and the shape, size, and the like thereof are not particularly limited.

(5) The heating coil 11 of the embodiment has a disk shape as a whole, but other shapes may be used. Other shapes include polygonal shapes such as triangles and squares, ellipses, and oval shapes.
(6) In the embodiment, a screwing method using screws is adopted for fixing and mounting the cover 25, the first operation unit 3a, the second operation unit 3b, the heating unit 1, the control circuit unit 6, the blower 4, and the like. For example, a fastening method using fasteners such as rivets and fasteners, an engaging method using engaging pieces, engaging convex portions, engaging concave portions, and the like may be adopted.
(7) Although the plate mounting portion 251 of the embodiment has the inner contact portion 251b, the plate mounting portion may be formed by the outer contact portion or the inner contact portion. Further, the groove portion 251c between the outer contact portion 251a and the inner contact portion 251b may or may not be present.

(8) The first operation unit 3a and the second operation unit 3b of the embodiment are attached to the cover 25 of the housing unit 2. For example, the first operation unit and the second operation unit are the main body of the housing unit. It may be mounted on the side.
In the embodiment, the first operation unit 3a and the second operation unit 3b are provided, but for example, the third operation unit 3 may be provided on the fourth side wall 205 side. In this case, the heat exhaust port is preferably provided on the side of the third side wall 204.
(9) In the embodiment, the blower 4 and the hood cover 57 are fixed integrally, but the blower and the hood cover may be fixed separately.
(10) In the embodiment, the hood cover 57 is provided separately from the housing portion 2, but the cover constituting the housing portion 2 may integrally have a cover corresponding to the hood cover.

(11) The first flow path wall 52 or the like forming the flow path 5 of the embodiment was formed in the main body 20, but for example, a dedicated flow path is formed by a member different from the main body 20, and the flow path is formed. It may be arranged in the housing portion. In this case, the dedicated flow path may be provided with a wall corresponding to the hood cover, or the hood cover may be used as it is without providing the wall corresponding to the hood cover.
(12) The heat exhaust port 43 of the embodiment is provided on the third side wall 204, and the intake port 42 is provided on the bottom wall 201. For example, the heat exhaust port and the intake port may be provided on the same side wall.
Although the heat exhaust port is provided on the third side wall 204, for example, it may be provided on the bottom wall or may be provided straddling the bottom wall and the side wall. Although the intake port is provided on the bottom wall 201, it may be provided on the side wall, for example, or may be provided straddling the bottom wall and the side wall.

(13) The circuit support portion 213 of the embodiment is provided on the second partition wall 221b, but may be provided on the first partition wall 221a, for example. Further, the back contact portion 213a and the front contact portion 213b are in contact with each other on the front and back of the same portion of the circuit board 61, but the front contact portion and the back contact portion are separated in the vertical direction and the horizontal direction. It may be brought into contact with the substrate. Further, the number of the front contact portion and the back contact portion may be the same or different.

(14) The guide wall 54 of the embodiment is provided integrally with the bottom wall 201, but for example, a wall corresponding to the guide wall may be provided on the flat plate portion 571 of the hood cover 57, which is different from the hood cover 57. The guide wall may be configured separately.
(15) The heat radiating plate 651 of the heat sink 65 of the embodiment extends in a direction orthogonal to the front and back directions and is connected on the opposite side to the first partition wall 221a. For example, it is connected by the first partition wall 221a of the heat radiating plate. May be done. Even in this case, the flow of outside air from the intake port to the heat exhaust port is not obstructed.

(16) The blower 4 of the embodiment is arranged on the side of the first partition wall 221a in the plan view as shown in FIG. 9, but when the heating coil and the blower do not overlap in the front and back directions in the side view, The blower may be arranged in the center in the vertical direction in a plan view.
In this case, the flow path forming portion extends along the peripheral edge of the heating coil from both ends of the first flow path wall, which is the peripheral edge of the intake port and is formed between the intake port and the fourth side wall, and the first flow rate wall. It will have two second flow path walls. Depending on the arrangement of the heat sink, one of the second flow path walls may extend to the heat sink side.

(17) In the embodiment, one heating coil 11 and one blower 4 are provided, but a plurality of heating coils and blowers may be provided. Further, the number of blowers may be one, or a plurality of intake ports may be provided.

A electromagnetic cooker (heat cooker)
2 Housing (housing)
3a 1st operation unit 3b 2nd operation unit 11 Heating coil 43 Heat exhaust port

Claims (3)

A heating coil that heats the object to be heated by electromagnetic induction,
A housing for accommodating the heating coil and
A first operation unit provided in the first portion of the housing and
A second operation unit provided in a second portion of the housing facing the first portion and
A heat exhaust port provided between the first portion and the second portion of the housing and for discharging heat inside the housing to the outside.
An intake port provided on the bottom wall of the housing and for taking in outside air inside,
A fan arranged in the housing and facing the intake port and for taking intake air from the intake port,
A flow path provided in the housing and for the outside air taken in from the intake port by the fan to go to the heat exhaust port.
A control circuit unit arranged in the housing and controlling the heating coil based on the operation of the first operation unit and the second operation unit.
A first cable that electrically connects the first operation unit and the control circuit unit,
A second cable for electrically connecting the second operation unit and the control circuit unit is provided.
The heating coil is provided in the middle of the flow path, and the heating coil is provided.
A cooking device in which the first cable and the second cable are arranged in the housing in a state of being separated from the flow path. The cooking cooker according to claim 1, wherein the first cable and the second cable are arranged on opposite sides of the heating coil with a flow path wall forming the flow path interposed therebetween. The first operation unit is housed in a large storage unit in which the heating coil and the fan are housed, and a first operation storage unit partitioned by a first partition wall.
The second operation unit is accommodated in the second operation accommodation unit partitioned by the large accommodation unit and the second partition wall.
The heating coil is arranged on the upper side of the large accommodating portion, the circuit board of the control circuit unit is arranged on the lower side of the large accommodating portion, and the fan is arranged between the heating coil and the circuit board. Being done
The flow path wall is connected to the first flow path wall provided along the opening edge of the intake port and the first flow path wall, and is provided along the periphery of a part of the heating coil. There are two flow path walls,
The first cable is connected to the second operation unit side of the circuit board through between the flow path wall and the side wall located on the opposite side of the heating coil across the flow path wall. The cooking device according to claim 2.

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