JPH10199668A - Induction heating cooking device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent intrusion of water to the inside of a main body to improve safety by allowing a support to support both an inverter circuit and a fan motor unit, and positioning a bottom surface positioned on the side of a fan motor unit suction side below a bottom surface of a fan motor unit support part. SOLUTION: A cooling air is taken in from an intake port by rotating a fan of a fan motor unit in order to cool electronic parts. When water enters by mistake from the air intake port 17, it passes through the inside of the port 17 and stored on a bottom surface 16 positioned at a lower part of the port 17 and further positioned below a bottom surface 15 supporting the unit 13. Therefore, the water entering from the port 17 is stored only on the surface 16 positioned at the side of suction side of the unit if it is not in a large amount, whereby no water enters the inside of the main body directly.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling structure in an induction heating cooker.

[0002]

2. Description of the Related Art FIG. 7 shows a cooling structure of a conventional induction heating cooker.
Will be described. 1 is a heating coil, 2 is a heating coil 1
Circuit, a bottom plate for supporting the inverter circuit, a fan motor unit for cooling the heating coil 1 and the inverter circuit 2, a support for supporting the fan motor unit 4, and a fan motor unit 3. The support 4 is arranged so that the rotation direction of the fan is parallel to the horizontal direction.
It is fixed to. 6 is a lid for guiding the intake air to the inverter circuit, 7 is an intake port which is a cooling air intake port, 8 is a case for guiding the cooling air sucked from the intake port to the inside of the main body, and 9 is a shell supporting all of them. It is.

[0003]

However, in such a structure, the cooling air sucked from the intake port 7 passes through the inside of the case 8, that is, once sucked downward, and then from below the fan motor unit 4. It is sucked up and hits the lid 6 located above the fan motor unit 4, and then flows through the inside of the lid 6 to the inverter circuit 2 and then to the heating coil 1. Had a very inefficient configuration. Further, the inverter circuit 2 has a bottom plate 3
In addition, since the fan motor unit 4 is fixed to a separate component such as the support 5, the cooling air may escape in the intake path between the unconnected bottom plate 3 and the support 5 in the cooling configuration. The flow of cooling air is not stable even in the inside of the lid 6 when flowing in an uneven direction, and the number of parts increases in structural parts, and expensive parts must be used. However, there was a problem that the cost was high. In addition, even when the bottom plate 3 and the support 5 are formed as an integral part, the height of the surface on which the fan motor unit 4 is located and the height of the bottom surface of the case 8 are the same when water enters through the intake port 7. In this case, water accumulates in the case 7, and the water infiltrates into the main body due to the rotation of the fan of the fan motor unit 4, so that the water adheres to the charged portion on the inverter circuit 2. There was a potential problem.

Therefore, the present invention solves the above-mentioned conventional problems, and has a structure in which a heating coil inside the main body and electronic components on the inverter circuit are efficiently cooled, and water is prevented from entering the inside of the main body. It is another object of the present invention to provide a low-cost, highly-assembled device with very high reliability and safety by reducing the number of parts.

[0005]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention is directed to a base member which supports an inverter circuit as an integral part which also serves to support a fan motor unit, and which is located on a fan motor unit suction side. Is located below the bottom surface of the fan motor unit support section, leading to an efficient intake path, preventing water from entering the inside of the main body, and also realizing a reduction in the number of parts. be able to.

[0006]

DETAILED DESCRIPTION OF THE INVENTION The invention according to claim 1 comprises a heating coil, an inverter circuit for driving the heating coil, a fan motor unit for cooling the heating coil and the inverter circuit, and a support for supporting the inverter circuit. The body is composed of integral parts that also support the fan motor unit, and the bottom surface located on the suction side of the fan motor unit is located below the bottom surface of the fan motor unit support, so that water from the intake port Even if it enters, water accumulates on the lower bottom surface on the suction side of the fan motor unit, so that water can be prevented from entering the inside of the main body, and the safety of the device can be improved. And to make the support an integral part, create an efficient intake path,
Further, since the number of parts can be reduced, it is possible to provide a device with low cost and excellent assemblability.

According to a second aspect of the present invention, the fan motor unit suction port is provided even if water enters through the intake port by providing a hole in the bottom surface located on the fan motor unit suction side according to the first aspect. Since water accumulates on the bottom surface located on the side and is discharged to the outside of the intake section through the hole, it is possible to prevent water from entering the inside of the main body, so that the safety of the device can be further improved. In addition, since the support is formed as an integral part, an efficient intake path can be created, and the number of parts can be reduced. Therefore, a device that is low in cost and has excellent assemblability can be provided.

According to a third aspect of the present invention, there is provided a cover for covering at least an upper portion of the fan motor unit, wherein the cover extends downward from a lower surface of the cover between the intake port and the fan motor unit, and receives the air. 3. The structure according to claim 1, wherein the flow has a wall formed in a vertical direction, so that the intake air sucked from the intake port passes through the fan motor unit to the inside of the main body and the fan motor. By directing cooling air to the heat-generating components on the inverter circuit inside the main unit by the lid on the unit,
Excellent cooling efficiency can be achieved, and the reliability of the device can be increased. In addition, even if water enters through the air inlet, the wall extending from the lower surface of the lid blocks the intrusion into the main body and prevents water from adhering to the charging part, thus improving the safety of the equipment. Can be improved.

According to a fourth aspect of the present invention, there is provided a support plate for supporting the heating coil, wherein the support plate is formed of an integral part which also serves as a cover for covering at least the upper part of the fan motor unit. By adopting the configuration described,
Since the number of parts can be reduced, it is possible to provide a device with low cost and very good assemblability. Further, the intake air sucked from the intake port passes through the fan motor unit to the inside of the main body, and the cover on the fan motor unit directly induces cooling air to the heat-generating components on the inverter circuit inside the main body. Thereby, excellent cooling efficiency can be obtained, and the reliability of the device can be improved. In addition, even if water enters through the air inlet, penetration into the body is blocked by the wall extending from the bottom of the lid,
Since the adhesion of water to the charging section can be prevented, the safety of the device can be further improved.

According to a fifth aspect of the present invention, a heating coil and an inverter circuit for driving the heating coil and the heating coil, or a support bottom plate for supporting the inverter circuit and a fan motor unit for cooling the heating coil and the inverter circuit are provided. The bottom plate has a wall located on the exhaust side with respect to the fan motor unit, located above the lower surface of the heating coil, and having an opening between the wall and an end surface of the heating coil in the wall direction. As a result, the intake air sucked from the intake port goes through the fan motor unit to the inside of the main body, and after cooling the inverter circuit, the heating coil can also be cooled efficiently, thereby improving the reliability of the equipment. Can be. In addition, since the support bottom plate and the lid can be formed by one component, a low-cost device with good assemblability that can reduce the number of components can be provided.

According to a sixth aspect of the present invention, there is provided a heating coil, a support plate for supporting the heating coil, an inverter circuit for driving the heating coil, and an aluminum lid having at least one direction opening for covering the inverter circuit. A fan motor unit that cools the coil and the inverter circuit section is provided.Attached to the aluminum lid is a heat-generating component on the inverter circuit. By going inside and passing through the inside of the aluminum lid, which has excellent heat dissipation, cooling air is directly applied to the heat-generating components, so that it can have better cooling efficiency and reliability of equipment. Can be increased. In addition, there is no need for a radiation fin such as an extruded shape that has been conventionally used,
Since the lid and the radiating fin serve as one component, a low-cost device with good assemblability that can reduce the number of components can be provided.

[0012]

【Example】

(Embodiment 1) A first embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, 11 is a heating coil, 12 is an inverter circuit for driving the heating coil 11, 13 is a fan motor unit for cooling the heating coil 11 and the inverter circuit 12, and 14 is an inverter circuit and a fan motor unit 13. It is a supporting body to support. In the support 14, 15 is a bottom surface supporting the fan motor unit 13, 16 is a bottom surface located on the fan motor unit 13 suction side, and a bottom surface 16 located on the fan motor unit suction side is a bottom surface 15 supporting the fan motor unit. It is located below. Reference numeral 17 denotes a cooling air suction port, which is located on the bottom surface 16 located on the fan motor unit suction side. Reference numeral 18 denotes an outer shell that supports all of them, and the support 14
Is built in.

Next, the operation of the first embodiment will be described. Normally, when the induction heating cooker is operated, the heating coil 11 inside the main body and the electronic components on the inverter circuit 12 are cooled, so that the cooling air needs to be sucked in from the air inlet 17 by the rotation of the fan of the fan motor unit 13. is there. At this time, it is assumed that water has inadvertently entered from the intake port 17. The water passes through the inlet 17 and accumulates on the bottom surface 16 located on the suction side of the fan motor unit.
However, since the bottom surface 16 located on the suction side of the fan motor unit located below the intake port 17 is located below the bottom surface 15 supporting the fan motor unit, a large amount of water has entered through the intake port 17. If not,
It is accumulated only on the bottom surface 26 located on the suction side of the fan motor unit, so that water does not directly enter the inside of the main body.

In this configuration, the inverter circuit 12 is provided inside the main body and the fan motor unit 1 is provided.
3 is fixed to a support 14 which is a single component inside the main body near the intake port 15, so that the inverter circuit 12 and the fan motor unit 13 are fixed to the support 14 at the time of assembly, and then the support 14 is fixed. Since it can be assembled in the outer shell 16, it is possible to realize an assembling process with very good workability and no man-hour.

With these features, it is possible to prevent water from entering the inside of the main body and prevent water from adhering to the charging section, so that the safety of the device can be improved. In addition, since the support of the inverter circuit 12 and the fan motor unit 13 is made as an integral part, an efficient intake path is ensured so that the intake air does not escape from the clearance, and the number of parts can be reduced. Very good equipment can also be provided.

(Embodiment 2) Hereinafter, a second embodiment of the present invention will be described with reference to the drawings.

In FIG. 2, 21 is a heating coil, 22 is an inverter circuit for driving the heating coil 21, 23 is a fan motor unit for cooling the heating coil 21 and the inverter circuit 22, and 24 is an inverter circuit 22 and a fan motor unit 23. It is a supporting body to support. In the support 24, 25 is a bottom surface supporting the fan motor unit 23, 26 is a bottom surface located on the suction side of the fan motor unit 23, and the bottom surface 26 located on the fan motor unit is higher than the bottom surface 35 supporting the fan motor unit. It is located below and has a hole 27 in the bottom surface. Reference numeral 28 denotes an intake port that is a cooling air intake port,
Reference numeral 29 denotes a shell supporting all of them.

Next, the operation of the second embodiment will be described. Usually, when the induction heating cooker is operated, the heating coil 21 inside the main body and the electronic components on the inverter circuit 22 are cooled, so that the cooling air needs to be sucked from the air inlet 27 by the rotation of the fan of the fan motor unit 23. is there. At this time, it is assumed that water intrudes from the air inlet 27 by mistake. The water passes through the intake port 28 and accumulates on the bottom surface 26 located on the suction side of the fan motor unit. However, since the bottom surface 26 located on the suction side of the fan motor unit located below the intake port 28 is located lower than the bottom surface 25 supporting the fan motor unit, water entering from the intake port 28 The bottom surface 26 which is accumulated only on the bottom surface 26 located on the suction side of the motor unit and which is located on the suction side of the fan motor unit
Since there is the hole 27 on the upper side, the intruded water is discharged from the hole 27 to the outside of the intake unit, and the water does not directly enter the inside of the main body.

As a result, it is possible to further prevent water from entering the inside of the main body as compared with the case of the first embodiment and to prevent water from adhering to the charging section, thereby further improving the safety of the device. Can be. Further, as in the case of Example 1, the support 2
4 is an integral part, so that an efficient air intake path where the air does not escape from the clearance can be formed and the number of parts can be reduced, so that it is also possible to provide a low-cost and extremely easy-to-assemble device. .

Embodiment 3 Hereinafter, a third embodiment of the present invention will be described with reference to the drawings.

In FIG. 3, reference numeral 31 denotes a heating coil, 32 denotes an inverter circuit for driving the heating coil 31, 33 denotes a fan motor unit for cooling the heating coil 31 and the inverter circuit 32, and 34 denotes an inverter circuit and a fan motor unit 33. Reference numeral 35 denotes a supporting body for supporting, and reference numeral 35 denotes an intake port which is a suction port for cooling air. The fan motor unit 33 is fixed on the support 34 near the air inlet 35. A cover 36 covers at least the upper portion of the fan motor unit, and plays a role of guiding cooling air to the inverter circuit 32. A cover 37 is provided between the intake port 35 and the fan motor unit 33 from the lower surface of the cover. The flow of elongating, intake air is a wall that is formed vertically. Reference numeral 38 denotes a radiation fin for fastening a heat-generating component,
It is on the inverter circuit 32.

Next, the operation of the third embodiment will be described. Normally, when the induction heating cooker is operated, the heating coil 31 inside the main body and the electronic components on the inverter circuit 32 are cooled, so that it is necessary to suck the cooling air from the intake port 35 by the rotation of the fan of the fan motor unit 33. is there. Then, it is necessary to guide the inside of the main body. In this configuration, the cooling air sucked in from the fan motor unit 33 has a path defined by the lid 36 above the fan motor unit 33, and the inverter circuit 3
2 to form an efficient cooling configuration. In the third embodiment, the lid 36 is attached from above the fan motor unit 33 so as to cover the radiation fins 38 for fastening the heat-generating components. Therefore, the cooling air is determined so as to be applied to the radiating fins 38, which are the most heat generating sources, so that better cooling performance can be obtained. Further, since the lid 36 has a wall 37 extending downward from the lower surface of the lid between the intake port 35 and the fan motor unit 33 and formed vertically with respect to the flow of intake air, for example, Even if water enters through the port 35 and is sucked in by the fan motor unit 33, the water is blocked by the wall 37 and does not enter the inside of the main body.
Naturally, the length of the wall 37 is not a shape that covers the entire fan motor unit 33, but is a value determined according to the balance with the cooling performance.

With these features, the cooling of the heating coil and the electronic components inside the main body can be better performed, so that a highly reliable device can be provided. Also,
Since an efficient cooling configuration can be made, the specifications and grades of the cooling parts such as the fan motor unit can be reduced, and the fan motor unit 33 is sandwiched between the support 34 and the lid 36 as shown in FIG. Since the fan motor unit 33 can be fixed, there is no need to use screws to fix the fan motor unit 33, and an inexpensive device with a small number of parts and good workability during assembly can be provided. By providing the wall 37 on the lid 36, it is possible to more reliably prevent water from entering the inside of the main body, so that the safety of the device can be further improved.

The support may be supported in a concave shape, and the lid may be covered in a concave shape.

(Embodiment 4) A fourth embodiment of the present invention will be described below with reference to the drawings.

In FIG. 4, reference numeral 41 denotes a heating coil; 42, a support plate for supporting the heating coil 41;
1, a fan motor unit 44 for cooling the heating coil 41 and the inverter circuit 43, a support 45 for supporting the inverter circuit 43 and the fan motor unit 44, and a cooling air suction port 46. There is a certain intake. Fan motor unit 44
Are fixed on a support 45 near the air inlet 46.
Reference numeral 47 denotes a radiating fin for fastening a heat-generating component, which is mounted on the inverter circuit 43. The support plate 42 also serves as a lid that covers at least the upper part of the fan motor unit.

Next, the operation of the fourth embodiment will be described. Normally, when the induction heating cooker is operated, the heating coil 41 inside the main body and the electronic components on the inverter circuit 43 are cooled, so that it is necessary to suck the cooling air from the intake port 46 by the rotation of the fan of the fan motor unit 44. is there. Then, it is necessary to guide the inside of the main body. In this configuration, the cooling air sucked from the fan motor unit 44 is routed by the support plate 42 above the fan motor unit 44, and is guided directly to the inverter circuit 43, so that an efficient cooling configuration is achieved. Can be formed. In the fourth embodiment, the support plate 42 covers from above the fan motor unit 44 to a position where the entire heating coil 41 is supported. Naturally, it is mounted so as to cover the radiation fins 47 to which the heat-generating components are fastened.
Therefore, the cooling air is supplied to the radiation fins 4
7, so that better cooling performance can be obtained. In addition, since the lid supporting the heating coil 41 and guiding the cooling path for improving the cooling efficiency can also be used as a single component, the number of components can be reduced.

With these features, the cooling of the heating coil, the electronic components, and the like inside the main body can be better performed, so that a highly reliable device can be provided. Also,
Since an efficient cooling configuration can be made, the specifications and grades of the cooling parts such as the fan motor unit can be reduced, and the support plate 42 and the support 45 as shown in FIG.
Since the fan motor unit 44 can be fixed by sandwiching the same, there is no need to use screws for fixing the fan motor unit 44, and it is possible to provide an inexpensive device with a small number of parts and good workability during assembly. it can.

The support may be supported in a concave shape, and the cover may be covered in a concave shape.

(Embodiment 5) Hereinafter, a fifth embodiment of the present invention will be described with reference to the drawings.

In FIG. 5, reference numeral 51 denotes a heating coil; 52, an inverter circuit for driving the heating coil 51; 53, a support bottom plate for supporting the heating coil 51 or the inverter circuit 52; A wall located on the exhaust side, 55 is an opening provided in the support bottom plate 53, and 56 is a fan motor unit for cooling the heating coil 51 and the inverter circuit 52. In the support bottom plate 53, the height of the wall 54 is higher than the height of the lower surface of the heating coil 51, and there is an opening 55 between the wall 54 and the end surface of the heating coil 51 in the wall direction. The cooling air that has cooled the inverter circuit 52 passes through the opening 55 to cool the heating coil 51. Further, the support bottom plate 53 covers the upper part of the fan motor unit 56 and plays a role of guiding cooling air to the inverter circuit 52. Reference numeral 57 denotes an intake port serving as a cooling air intake port.

Next, the operation of the fifth embodiment will be described. Normally, when the induction heating cooker is operated, the heating coil 51 inside the main body and the electronic components on the inverter circuit 52 are cooled, so that it is necessary to suck the cooling air from the intake port 57 by the rotation of the fan of the fan motor unit 56. is there. The cooling air sucked thereby cools the inverter circuit 52 efficiently. Thereafter, the cooling air passes through the inside of the support bottom plate 53 and hits a wall 54 located on the exhaust side with respect to the fan motor unit 56 of the support bottom plate 53. However, since the support bottom plate 53 has an opening 55 between the wall 54 and the end face of the heating coil 51 in the direction of the wall 54, the cooling air flows through the opening 55. In addition, since the height of the wall 54 of the supporting bottom plate 53 located on the exhaust side with respect to the fan motor unit 56 is higher than the height of the lower surface of the heating coil 51, the cooling air flows toward the heating coil 51, and It is exhausted from behind. Therefore, a cooling configuration that can efficiently cool the inverter circuit 52 and the heating coil 51 can be formed.

With these features, the cooling of the heating coil and the electronic components inside the main body can be better performed, so that a highly reliable device can be provided. Also,
Since an efficient cooling configuration can be made, the specifications and grades of the cooling components such as the fan motor unit can be reduced. In addition, since the support bottom plate and the lid can be constituted by one component, an inexpensive device with reduced number of components and good assemblability can be provided.

Embodiment 6 Hereinafter, a sixth embodiment of the present invention will be described with reference to the drawings.

In FIG. 6, reference numeral 61 denotes a heating coil; 62, a support plate for supporting the heating coil 61;
1 is an inverter circuit for driving 1, 64 is an inverter circuit 6
An aluminum concave lid 65 having an opening at the front, rear and lower sides of the cover 2, and a fan motor unit 65 for cooling the heating coil 61 and the inverter circuit 62.
An inverter circuit 63 is provided in the aluminum concave lid 64.
The upper heat generating component 66 is fastened. Reference numeral 67 denotes an intake port serving as a cooling air intake port.

Next, the operation of the sixth embodiment will be described. Normally, when the induction heating cooker is operated, the heating coil 61 inside the main body and the electronic components on the inverter circuit 63 are cooled, so that it is necessary to suck the cooling air from the air inlet 67 by the rotation of the fan of the fan motor unit 65. is there. The cooling air sucked thereby passes through the inside of the aluminum-made concave lid 65 and passes through the inverter circuit 63.
To cool. In addition, the heat-generating component 66 of the inverter circuit 63, which generates a large amount of heat, is fastened to the aluminum-made concave lid 64, which has an excellent heat-dissipating property, so that the heat-dissipating component is more efficiently dissipated and the cooling performance is improved. Can be demonstrated. In addition, since it is not necessary to use the extrusion radiator fins that have been widely used in the past, the configuration can be made very light, and the radiator fin and the lid can be combined into one component. The score can also be reduced.

With these features, the cooling of the heating coil and the electronic components inside the main body can be better performed, so that a highly reliable device can be provided. Also,
Since an efficient cooling configuration can be made, the specifications and grades of the cooling parts such as the fan motor unit can be reduced, and in addition, the number of parts can be reduced, so that it is inexpensive and easy to assemble. Good equipment can be provided.

Further, since the aluminum-made concave lid is located below the heating coil, the lines of magnetic force generated by the heating coil are absorbed by the aluminum-made concave lid, and radiation noise can be reduced.

[0040]

As described above, according to the first aspect of the present invention, the support serves as both the inverter circuit and the fan motor unit, and the bottom located on the fan motor unit suction side supports the fan motor unit. By being located below the bottom surface of the unit, even if water enters through the air inlet, it is possible to prevent water from entering the inside of the main body, thereby improving the safety of the device. Further, since the number of parts can be reduced, it is possible to provide a low-cost device with very good assemblability.

According to the second aspect of the present invention, the support is an integral part that also supports the inverter circuit and the fan motor unit, and the bottom surface located on the fan motor unit suction side is lower than the bottom surface of the fan motor unit support portion. Even if water enters from the intake port, it is discharged to the outside of the intake section by adopting a configuration in which a hole is provided on the bottom surface located below and on the fan motor unit suction side,
Since water can be prevented from entering the inside of the main body, the safety of the device can be further improved. Further, since the number of parts can be reduced, it is possible to provide a low-cost device with very good assemblability.

According to the third aspect of the present invention, the support is an integral part which also serves as a support for the inverter circuit and the fan motor unit. By extending and forming a structure having a wall formed in the vertical direction with the flow of the intake air, the intake air sucked from the intake port passes through the fan motor unit to the inside of the main body, and is drawn on the fan motor unit. The lid directs cooling air directly to the heat-generating components on the inverter circuit inside the main unit,
It can have excellent cooling efficiency, and can also increase the reliability of the device. Further, even when water enters through the air inlet, the intrusion into the inside is blocked by the wall, and the intrusion of water into the inside of the main body can be prevented, so that the safety of the device can be further improved. Since the number of parts can be reduced, it is possible to provide a low-cost device with very good assemblability.

According to the fourth aspect of the present invention, there is provided a support plate for supporting the heating coil, and the support plate is constituted by an integral part which also serves as a lid for covering at least the upper part of the fan motor unit. Since the number of points can be reduced, it is possible to provide a device with low cost and very good assemblability. Further, the intake air sucked from the intake port passes through the fan motor unit to the inside of the main body, and the cover on the fan motor unit directly induces cooling air to the heat-generating components on the inverter circuit inside the main body. Therefore, excellent cooling efficiency can be obtained, and the reliability of the device can be improved.

According to the fifth aspect of the present invention, in the support bottom plate, the height of the wall located on the exhaust side with respect to the fan motor unit is located above the lower surface of the heating coil, and the height between the wall and the heating coil is lower. By having an opening between the end face in the wall direction and directing the cooling air to the heat-generating components inside the main body, the cooling coil can be efficiently used after cooling the inverter circuit. Since cooling can be performed, the reliability of the device can be improved. Also,
Since the support bottom plate and the lid can be constituted by one component, a low-cost device with good assemblability that can reduce the number of components can be provided.

According to the sixth aspect of the present invention, the cooling air is formed by fastening the heat-generating components on the inverter circuit in the aluminum-made concave cover provided with at least one-way opening covering the inverter circuit. Through the concave lid made of aluminum, which has very good heat dissipation, and by applying cooling air directly to the heat-generating components, it is possible to have better cooling efficiency and improve the reliability of the equipment . Further, since no heat radiation fins are required (they also function as the lid), it is possible to provide a low-cost device with good assemblability that can reduce the number of parts. In addition, since the aluminum concave lid is located below the heating coil, the lines of magnetic force generated by the heating coil are absorbed by the aluminum concave lid, and radiation noise can be reduced.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of an induction heating cooker according to an embodiment of the first invention.

FIG. 2 is a sectional view of an induction heating cooker according to an embodiment of the second invention.

FIG. 3 is a sectional view of an induction heating cooker according to an embodiment of the third invention.

FIG. 4 is a sectional view of an induction heating cooker according to an embodiment of the fourth invention.

FIG. 5 is a sectional view of an induction heating cooker according to an embodiment of the fifth invention.

FIG. 6 is a sectional view of an induction heating cooker according to an embodiment of the sixth invention.

FIG. 7 is a detailed view of a heat-generating component fastening portion showing an embodiment of the seventh invention.

FIG. 8 is a sectional view of a conventional induction heating cooker.

[Explanation of symbols]

11, 21, 31, 41, 51, 61 Heating coil 12, 22, 32, 43, 52, 63 Inverter circuit 13, 23, 33, 44, 56, 65 Fan motor unit 14, 24, 34, 45, 54, 65 Support 15, 25 Bottom supporting fan motor unit 16, 26 Bottom located on suction side of fan motor unit 27 Hole 35 Inlet 36 Cover 37, 54 Wall 42, 62 Support plate 53 Support bottom plate 55 Opening 64 Aluminum Concave lid 66 Heating parts

Continued on the front page (72) Inventor Akira Kataoka 1006 Kazuma Kadoma, Osaka Pref.Matsushita Electric Industrial Co., Ltd. Atsuo Ono 1006 Kadoma Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.

Claims (6)

[Claims] 1. A heating device comprising: a heating coil; an inverter circuit for driving the heating coil; a fan motor unit for cooling at least the inverter circuit; and a support for supporting the inverter circuit. An induction heating cooker that also serves as a support for a motor unit and has a bottom surface corresponding to a suction side of a fan motor unit positioned below a bottom surface of a support portion of the fan motor unit. 2. The induction heating cooker according to claim 1, wherein the support has a hole in a bottom surface located on a suction side of the fan motor unit. 3. The apparatus according to claim 1, further comprising a cover for covering at least an upper portion of the fan motor unit, wherein the cover has a wall extending downward from a lower surface between the intake port and the fan motor unit. An induction heating cooker as described. 4. The induction heating cooker according to claim 3, wherein the lid also serves as a support plate for supporting the heating coil. 5. A heating coil, an inverter circuit that drives the heating coil, a support bottom plate that supports at least the heating coil, a fan motor unit that cools the heating coil and the inverter circuit, and a fan motor unit. And a wall positioned on the exhaust side, wherein the upper surface of the wall is located above the lower surface of the heating coil, and an opening is provided between the wall and the heating coil. 6. A heating coil, a support plate for supporting the heating coil, an inverter circuit for driving the heating coil, an aluminum cover covering the inverter circuit and having an opening in at least one direction, An induction heating cooker comprising: a fan motor unit for cooling the inverter circuit portion; and the lid body is formed by fastening a heat-generating component of the inverter circuit.