JP2006202624A - Induction heating cooker - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an induction heating cooker with an improved cooling property of an operation circuit and a display part located under a top plate in front of a heating coil. <P>SOLUTION: The operation circuit 20 operating the operation state display part 19 and the heating coil 13 arranged under the top plate 11 located in front of the heating coil 13 is mounted to an operation duct 28 having an auxiliary fan 29 serving as a passage of an air flow supplied from a main fan 18. The display part 19 and the operation circuit 20 is cooled at the operation duct 28 by an air blow supplied from the auxiliary fan 29 and the main fan 18 to the operation duct 28. By this, in addition to a control circuit 16, the heating coil 13 or the like, also a component necessary to be cooled, namely, the display part 19 and the operation circuit 20 can be efficiently cooled. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an induction heating cooker configured to be used by being incorporated in a cabinet of a system kitchen, for example.

  Conventionally, as this type of induction heating cooker, it is generally performed to cool a control circuit unit or the like in the outer shell of the main body by blowing air (for example, see Patent Document 1).

FIG. 11 shows this conventional induction heating cooker. As shown in the figure, a top plate 1 for placing a pan or the like to be heated is placed on the upper part of the main body shell 6. Under the top plate 1, two heating coils 2 are placed in front of the left and right sides. ing. In addition, the roaster 3 is placed on the left side in the main body shell 6, and the control circuit unit 4 that drives and controls the heating coil 2 is arranged on the right side of the roaster 3. A fan 5 that is driven by a motor is attached to the back of the control circuit unit 4. The discharge port of the fan 5 is directed to the control circuit unit 4, and outside air enters through the intake opening 7 provided on the right rear side of the top plate 1 and is sucked into the fan 5. Sprayed toward the circuit unit 4 to cool the control circuit unit 4, and then cool the respective parts through the outline of the heating coil 2 and the roaster 3, and from the exhaust port 8 provided at the left rear of the top plate 1. It is configured to discharge air.
JP 2001-267054 A

  However, in the conventional configuration, the control circuit unit 4 and the heating coil 2 can be cooled by the air blown from the fan 5, but consideration is given to cooling all the cooling components in the main body outer shell 6. It is not. For this reason, it is difficult to cool the components requiring cooling disposed far from the fan 5. In particular, recently, there is a high demand in the market for products that can be operated in front of the top surface (front side) of the top plate 1, and in these products, how to cool the cooling components required for operation has been a problem.

  The present invention solves the above-described conventional problems, and in addition to a control circuit unit and a heating coil, an induction that can efficiently cool a cooling component required for operation in front of the top surface (front side) of the top plate. An object is to provide a cooking device.

  In order to solve the above-described conventional problems, an induction heating cooker according to the present invention includes an operation fan that is arranged in front of the heating coil and below the top plate, and an operation circuit unit that operates the heating coil. It is equipped with an operation duct that has an air path from the main fan and the display section and the operation circuit section are cooled in the operation duct by the air blown from the auxiliary fan and the air blown from the main fan supplied to the operation duct. Is.

  As a result, in addition to the control circuit unit and the heating coil, it is possible to efficiently cool the cooling components required for operation in front of the top plate (front side), that is, the display unit and the operation circuit unit.

  The induction cooking device of the present invention can efficiently cool a display unit and an operation circuit unit for operating in front of the top plate (front side) of the top plate in addition to the control circuit unit and the heating coil.

  1st invention, the main body outer shell which comprises an outer shell, the top plate which mounts the to-be-heated object provided in the upper part of the main body outer shell, the heating coil which induction-heats the to-be-heated object provided in the lower part of the top plate, A control circuit section for supplying current to the heating coil, a main fan that blows air to cool the heating coil and the control circuit section, and an operation state display section and a heating coil arranged in front of the heating coil and below the top plate are operated. An operating circuit unit that is provided with an operating duct having an auxiliary fan and serving as an air passage from the main fan, and the air flow and the main fan supplied to the operating duct are By using an induction heating cooker that cools the display unit and operation circuit unit in the operation duct by blowing air from the fan, in addition to the control circuit unit and heating coil, the top plate Top front-cooled components for operating in (front), that can also be efficiently cooled the display unit and the operation circuit section.

  According to a second aspect of the present invention, in particular, in the first aspect of the invention, the operation duct is configured such that a part of the operation duct communicates with the outside air so that the outside air can be taken into the operation duct, and the taken-in outside air having a low temperature is included. Cooling air can be sent to the display unit and the operation circuit unit to improve the cooling performance of the display unit and the operation circuit unit.

  According to a third aspect of the invention, in particular, in the first or second aspect of the invention, the operation duct is provided with a guide portion that guides a part of the air flow on the bottom surface of the top plate. The conduction heat of the object to be heated can be cooled, the thermal influence on the display unit and the operation circuit unit can be reduced, and the cooling performance of the display unit and the operation circuit unit can be improved.

  In a fourth aspect of the invention, in particular, in any one of the first to third aspects, a display hole is provided above the operation duct facing the display unit, and a gap is formed between the periphery of the display hole and the lower surface of the top plate. By arranging the sealing body that seals, it can prevent the warm wind from the other inside the outer shell of the body from blowing on the upper surface of the display unit, improve the cooling performance of the display unit, and the dust that got on the wind It can prevent adhering to the display part.

  In the fifth invention, in particular, in any one of the first to fourth inventions, the operation duct 28 has a temperature that is not affected by a roaster or the like because a part of the operation duct 28 is communicated with the outside air through the side surface of the main body outer shell. Low outside air can be taken in and sent to the display unit and the operation circuit unit in the operation duct, and the cooling performance of the display unit and the operation circuit unit can be improved.

  According to a sixth aspect of the invention, in particular, in any one of the first to fifth aspects of the invention, the auxiliary fan is provided on the leeward side of the operation duct so as to blow air from the auxiliary fan toward the heating coil. Can be efficiently sent to the display unit and the operation circuit unit, as well as cooling air can be blown to the heating coil, and the cooling performance of the display unit, the operation circuit unit and the heating coil can be improved.

  According to a seventh aspect of the present invention, in particular, in any one of the first to fifth aspects, the auxiliary fan is provided on the leeward side of the operation duct, and air is blown from the auxiliary fan toward the lower surface of the top plate. Not only can the wind be sent efficiently to the display unit and the operation circuit unit, but also the cooling air can be blown to the top plate, improving the cooling performance of the display unit and the operation circuit unit and using it. The temperature of the top plate that can be touched by a person can be reduced and used more safely.

  In an eighth aspect of the invention, in particular, in any one of the first to fifth aspects of the invention, a roaster is provided in the outer shell of the main body, and an auxiliary fan is provided on the leeward side of the operation duct, from the auxiliary fan to the outer shell of the main body and the roaster. Since the cooling air can be efficiently sent to the display unit and the operation circuit unit, the cooling air can be blown between the main unit outer shell and the roaster, and the display unit and the operation can be performed. In addition to improving the cooling performance of the circuit unit, it is possible to reduce the influence of heat from the roaster on the outer shell of the main body and lower the temperature of the outer shell of the main body, so that it can be used more safely.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiment.

(Embodiment 1)
1 and 2 show an induction heating cooker according to Embodiment 1 of the present invention.

  As an example, the induction heating cooker is configured to be used by being incorporated in a cabinet of a system kitchen.

  As shown in the figure, the induction heating cooker in the present embodiment includes a main body outer shell 12 constituting the outer shell, and a top plate 11 on which a heated object such as a pan and a frying pan provided on the upper portion of the main body outer shell 12 is placed. A heating coil 13 for inductively heating an object to be heated provided under the top plate 11, a control circuit unit 16 for supplying current to the heating coil 13 for driving control, and for cooling the heating coil 13 and the control circuit unit 16. The main fan 18 which consists of the sirocco fan which blows, and the operation circuit part 20 which operates the display part 19 of the operation state by a liquid crystal and the heating coil 13 which were arrange | positioned ahead of the heating coil 13 and the top plate 11 are provided.

  The main body shell 12 is provided with a roaster 15 on the lower left side in the inside thereof, and a control circuit portion 16 is fixed and arranged on the resin base on the right side. The heating coil 13 is composed of a left heating coil 13a having an output rating of 3 kW and a right heating coil 13b having an output rating of 2 kW, and there is a single opening at the center of the left heating coil 13a and the right heating coil 13b. A gentle heater 14 is arranged. The roaster 15 is located below the left heating coil 13a.

  An intake opening 17a is disposed on the upper right side of the upper surface of the main body shell 12, and an exhaust opening 17b is provided on the upper left side of the upper surface. A main fan 18 that blows air into the main body outer shell 12 is disposed below the intake opening 17a and behind the control circuit unit 16.

  Further, the display unit 19 and the operation circuit unit 20 include an auxiliary fan 29 made up of a propeller fan, and includes an operation case lower 24 and an operation case upper 25, and an operation duct 28 serving as an air path from the main fan 18. The display unit 19 and the operation circuit unit 20 are cooled in the operation duct 28 by blowing air from the auxiliary fan 29 supplied to the operation duct 28 and blowing air from the main fan 18.

  Here, the display unit 19 and the operation circuit unit 20 are provided below the top plate 11 and in front of the left and right heating coils 13a and 13b, respectively. A contact portion 21 made of a thin metal plate having a resilient shape is connected to the operation circuit portion 20 so as to be in contact with the back surface of the top plate 11. Then, when the user touches the operation key 22 printed on the upper surface of the top plate 11 above the contact portion 21, the operation circuit portion 20 detects a change in capacitance due to surface contact, and the signal is detected by a microcomputer. It is configured to process and operate. By operating the operation keys 22, the heating input to the object to be heated is increased or decreased, or an operation such as heating on / off is performed, and the operation state is displayed on the display unit 19 by a liquid crystal display. The user can be notified through the substantially transparent display window 23 from which the printing of the top plate 11 is removed.

  In particular, since the operation keys 22 and the display unit 19 are arranged in front of the left and right heating coils 13a and 13b, that is, in front of the left and right heated objects being cooked, the key operation is performed while watching the cooking state in the heated objects. Can be easily performed.

  The display unit 19 is connected to the operation circuit unit 20 by soldering. The operation circuit unit 20 including the display unit 19 is supported by the operation case lower 24 and is covered by the operation case upper 25 positioned above the display unit 19 and the operation circuit unit 20 and below the top plate. The operation duct 28 is equipped. The operation duct 28 includes an operation case lower 24 and an operation case upper 25, and has a right opening 26 and a left opening 27 at left and right ends. Further, the auxiliary fan 29 is provided at substantially the center in the operation duct 28. When driven, the auxiliary fan 29 can flow from right to left as viewed from the front of the main body outer shell 12.

  Next, the flow of the cooling air of the main fan 18 and the auxiliary fan 29 of the induction heating cooker in the present embodiment will be described.

  First, when the main fan 18 is driven, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 is blown toward the control circuit unit 16, and in particular, control. The switching element and the diode bridge in the circuit unit 16 are cooled. Thereafter, cooling air flows from the right heating coil 13b above the control circuit unit 16 to the outer wall of the left heating coil 13a and the roaster 15, and finally forms a cooling air path that goes out of the main body shell 12 from the exhaust opening 17b. Yes. Therefore, in the present embodiment, the leeward heating coil 13 is the right heating coil 13b, and the leeward heating coil 13 corresponds to the left heating coil 13a.

  Next, the flow of cooling air from the auxiliary fan 29 will be described. First, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and flows out to the vicinity of the operation circuit unit 20 in front of the right heating coil 13b. The air that has flowed out is sucked from the right opening 26 of the operation duct 28 by the auxiliary fan 29, and the sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b to be cooled, and subsequently. Cooling through the operation circuit unit 20 and the display unit 19 in front of the left heating coil 13a, exiting from the left opening 27 of the operation duct 28, joining the cooling air path of the main fan 18, and from the exhaust opening 17b It is discharged out of the main body shell 12.

  In particular, in the present embodiment, since the roaster 15 is provided on the left side, the temperature when the roaster is used increases on the left side of the operation duct. Therefore, as in the present embodiment, the right opening 26 on the right side of the operation duct 28 is less affected by the heat of the roaster 15 and is suitable for sucking cooling air.

  In recent years, there has been a growing market demand for operation on the upper surface of the main body outer shell 12 close to the object to be heated so that the operation can be performed while looking at the cooking state, and for this purpose, as in this embodiment In addition, it is necessary to arrange an operation circuit unit 20 that operates in front of the left and right heating coils 13a and 13b and a display unit 19 that displays the operation. In recent years, it has been desired to increase the heating power of induction heating cookers. For this reason, the output ratings of the two heating coils 13 so far have been both 2 kW, but the output ratings of the heating coils 13 are increasingly set to 2.5 kW and 3 kW. As a result, in the vicinity of the heating coil 13, in particular, the location where the operation circuit unit 20 and the display unit 19 that are easily affected by heat from the heating coil 13 and the object to be heated and are located on the leeward side of the cooling air of the main fan 18 This is the most difficult part to cool. Furthermore, components used for the operation circuit unit 20 and the display unit 19, for example, a liquid crystal display LCD for the display unit 19 and a microcomputer for the operation circuit unit 20 both have a use temperature limit of 85 ° C. or less. Therefore, it is very difficult to keep this component within the operating temperature limit with the cooling air that has passed through the control circuit section 16 at about 50 ° C. against the heat conduction from the object to be heated and the heat effect from the heating coil 13. difficult. In order to suppress the temperature rise, the following equation shows that the problem can be solved by increasing the amount of air passing through the location where the temperature rise is desired to be suppressed.

△ T∝W / Q
(ΔT: temperature rise [K], W: heat quantity [W], Q: air volume [m ³ / min])
Before the auxiliary fan 29 was used, the LCD was 100 ° C. and the microcomputer was 85 ° C. However, the operation circuit unit 20 and the display unit 19 are housed in the operation duct 28 as in the present embodiment, and the operation duct 28 is By operating the provided auxiliary fan 29, it is possible to pass a cooling air volume approximately twice that when the auxiliary fan 29 is not used, and to efficiently apply the cooling air to the operation circuit unit 20 and the display unit 19. It was possible to set the component temperature to 75 ° C for the LCD and 65 ° C for the microcomputer.

  As described above, in the present embodiment, the operation circuit unit 20 and the display unit 19 are provided in the operation duct 28, and the auxiliary fan 29 provided in the operation duct 28 is operated to operate the display unit 19 and the operation circuit. The temperature rise of the part 20 can be suppressed and the cooling performance can be improved. Further, the use of components within the operating temperature limit can be realized, and the reliability can be improved.

(Embodiment 2)
3 and 4 show an induction heating cooker according to Embodiment 2 of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that a main body outer front hole 30 is provided in front of the main fan 18 from the approximate center of the main body outer shell 12, that is, on the right side of the front surface of the main body outer shell 12, 25 and the operation case lower part 24 form a main body outer front hole connecting duct portion 31 connected to the main body outer front hole 30, and the auxiliary fan 29 is located on the leeward side of the main fan 18 from the main body outer front hole connecting duct portion 31, that is, left That is, it is arranged on the heating coil 13a side. That is, a part of the operation duct 28 is communicated with the outside air.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, as in the first embodiment, outside air enters through an intake opening 17a provided at the rear of the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and is in front of the right heating coil 13b. It flows out in the vicinity of the operation circuit unit 20. The air that has flowed out is sucked from the right opening 26 on the right side toward the main body outline 12 of the operation duct 28, and outside air also enters the operation duct 28 from the main body outer front hole 30 through the main body outer front hole connection duct portion 31. Inhaled. The sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b to be cooled, and then passes through the operation circuit unit 20 and the display unit 19 in front of the left heating coil 13a to be cooled. Then, it exits from the left opening 27 of the operation duct 28, merges with the cooling air path of the main fan 18, and is discharged out of the main body outer shell 12 through the exhaust opening 17 b.

  In particular, in the present embodiment, since the roaster 15 is provided on the left side of the main body outline 12, the left front portion of the main body outline 12 has a high temperature when using the roaster. If the main body outer front hole 30 is on the right side of the main body outer shell 12 as in the present embodiment, the temperature of the main body outer front hole 30 is as low as about 40 ° C. even when the roaster 15 is used, and the low temperature outside air is taken in. The right front part of the main body shell 12 is very suitable for use as cooling air.

  As described above, in the present embodiment, a part of the operation duct 28 is communicated with the outside air, so that the outside air can also be taken in, and the cooling air containing the taken-in outside air having a low temperature is taken into the operation duct 28. Thus, the display unit 19 and the operation circuit unit 20 can be efficiently sent, and the cooling performance of the display unit 19 and the operation circuit unit 20 can be improved.

(Embodiment 3)
FIG. 5 shows an induction heating cooker according to Embodiment 3 of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  The present embodiment differs from the first embodiment in that an operation case upper hole 32 is provided on the exhaust side of the auxiliary fan 29 on the operation case 25 on the leeward side of the main fan 18, that is, on the left side of the auxiliary fan 29. The guide portion 33 having a windbreak wall that directs the air path of the auxiliary fan 29 toward the operation case upper hole 32 is provided on the leeward side of the auxiliary fan 29 in the operation case upper hole 32. That is, the operation duct 28 is provided with a guide portion 33 that guides part of the air flow to the lower surface of the top plate 11.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and flows out to the vicinity of the operation circuit unit 20 in front of the right heating coil 13b. The air flowing out is sucked from the right opening 26 on the right side toward the outer shell 12 of the operation duct 28, and the sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13a to be cooled. Subsequently, it cools by passing through the operation circuit unit 20 and the display unit 19 in front of the left heating coil 13b, exits from the left opening 27 of the operation duct 28, and is also discharged from the operation case upper hole 32 by the guide unit 33. Then, it flows on the back surface of the top plate 11 at the upper part of the operation duct 28 on the leeward side, merges with the cooling air path of the main fan 18, and is discharged out of the main body outer shell 12 through the exhaust opening 17b.

  As described above, in the present embodiment, the air passage that flows from the exhaust side of the auxiliary fan 29 to the upper part of the operation duct 28 on the leeward side is formed, so that conduction of the heated object heated on the top surface of the top plate 11 is achieved. The heat can be cooled, the thermal influence on the display unit 19 and the operation circuit unit 20 can be reduced, and the cooling performance of the display unit 19 and the operation circuit unit 20 can be improved. In the present embodiment, the operation key 22 printed on the top plate 11 is touched, the capacitance change due to the surface contact is detected by the operation circuit unit 20, and the signal is processed by the microcomputer and operated. In this case, the temperature of the operation key 22 on the surface of the top plate 11 operated by the user is determined by law so as to be kept at 60 ° C. or lower. Therefore, in particular, the operation key 22 can be efficiently cooled and the cooling performance can be improved by flowing the cooling air to the upper part of the operation duct 28 on the leeward side where the temperature becomes high.

(Embodiment 4)
FIG. 6 shows an induction heating cooker according to Embodiment 4 of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that a display hole 34 is provided above the display unit 19 on the operation case upper 25 constituting the operation duct 28, and the periphery of the display hole 34 and the lower surface of the top plate 11. It is that the sealing body 35 which seals a gap | interval between these was arrange | positioned.

  With this sealing body 35, it is possible to prevent hot air from the heating coil 13 and the control circuit unit 16 in the main body outer shell 12 from being blown onto the upper surface of the display unit 19.

  As described above, in the present embodiment, the sealing body 35 can prevent the hot air from the heating coil 13 and the control circuit unit 16 in the main body outer shell 12 from being blown onto the upper surface of the display unit 19. The cooling performance of the display unit 19 by the cooling air flowing in the operation duct 28 can be improved, and the dust that has entered the wind can be prevented from adhering to the upper surface of the display unit 19.

(Embodiment 5)
FIG. 7 shows an induction heating cooker according to the fifth embodiment of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that the main body outline 12 is located on the main fan 18 side, that is, on the right side surface of the main outline 12 at a position facing the right opening 26 of the operation duct 28. A side hole 36 is provided, and an auxiliary fan 29 is disposed in the right opening 26. That is, a part of the operation duct 28 is communicated with the outside air through the side surface of the main body outline 12.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, as in the first embodiment, outside air enters through the intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and operates in front of the right heating coil 13b. It flows out in the vicinity of the circuit unit 16. The air that has flowed out is sucked by the auxiliary fan 29 from the right opening 26 on the right side of the operation duct 28, and outside air is also sucked by the auxiliary fan 29 from the body outer side surface hole 36 and sucked into the operation duct 28. The sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b, and then passes through the operation circuit unit 20 and the display unit 19 in front of the left heating coil 13a to be cooled. 28 exits from the left opening 27, merges with the cooling air path of the main fan 18, and is discharged out of the main body shell 12 through the exhaust opening 17b.

  In particular, in the present embodiment, since the roaster 15 is provided on the left side of the main body shell 12, the left front portion of the main body shell 12 has a high temperature when using the roaster. As in the present embodiment, if the main body outer side hole 36 is located on the right side of the main body outer shell 12, the temperature of the main body outer side surface hole 36 is as low as about 40 ° C. even when the roaster 15 is used. The right side portion of the main body shell 12 is very suitable for use as cooling air.

  As described above, in the present embodiment, a part of the operation duct 28 communicates with the outside air through the side surface of the main body outer shell 12, so that the outside air that is not affected by the roaster or the like can be taken in. This can be sent to the display unit 19 and the operation circuit unit 20 in the operation duct 28, and the cooling performance of the display unit 19 and the operation circuit unit 20 can be improved.

(Embodiment 6)
FIG. 8 shows an induction heating cooker according to the sixth embodiment of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that the intake side of the auxiliary fan 29 is attached to the left opening 27 on the leeward side of the main fan 18 of the operation duct 28, and the exhaust port of the auxiliary fan 29 is connected to the heating coil 13. That is, the air is blown toward the left heating coil 13a toward the left heating coil 13a.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and flows out to the vicinity of the operation circuit unit 20 in front of the right heating coil 13b. The air that has flowed out is sucked from the right opening 26 of the operation duct 28, and the sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b, followed by operation in front of the left heating coil 13a. The cooling air passing through the circuit unit 20 and the display unit 19 is cooled and sucked into the auxiliary fan 29 provided in the left opening 27 of the operation duct 28, and the cooling air blown out from the auxiliary fan 29 is exhausted to the rear side of the auxiliary fan 29. Is blown to the left heating coil 13a, merges with the cooling air path of the main fan 18, and is discharged out of the main body outer shell 12 through the exhaust opening 17b. In particular, the left heating coil 13a is leeward of the main fan 18, and it is difficult to efficiently apply cooling air. However, in the present embodiment, cooling air can be blown by the auxiliary fan 29.

  As described above, in the present embodiment, the auxiliary fan 29 is provided on the leeward side of the operation duct 28, and air is sent from the auxiliary fan 29 toward the heating coil 13. The cooling air can be blown to the heating coil 13 as well as the operation circuit unit 20 can be efficiently sent, and the cooling performance of the display unit 19, the operation circuit unit 20 and the heating coil 13 can be improved. . In particular, this is effective in a case where a plurality of heating coils 13 are provided.

(Embodiment 7)
FIG. 9 shows an induction heating cooker according to Embodiment 7 of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that the intake side of the auxiliary fan 29 is attached to the left opening 27 on the leeward side of the main fan 18 of the operation duct 28, and the exhaust port of the auxiliary fan 29 is connected to the main fan 18. This is a configuration directed to the top plate 11 above the side surface of the main body outer shell 12 on the leeward side. In the present embodiment, a sirocco fan is used as the auxiliary fan 29. This is because an effect and an effect are exhibited by utilizing the feature of the intake and exhaust of the fan that the direction of the intake and exhaust of the fan is substantially perpendicular.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and flows out to the vicinity of the operation circuit unit 20 in front of the right heating coil 13b. The air that has flowed out is sucked from the right opening 26 of the operation duct 28, and the sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b to be cooled, and then the left heating coil 13a. Cooling air that has passed through the front operation circuit unit 20 and the display unit 19 and cooled, sucked into the auxiliary fan 29 provided in the left opening 27 of the operation duct 28, and blown out from the auxiliary fan 29 is leeward of the main fan 18. Is blown to the lower surface of the top plate 11 above the side surface of the main body outer shell 12, merges with the cooling air path of the main fan 18, and is discharged out of the main body outer shell 12 through the exhaust opening 17 b. In particular, the top plate 11 above the side surface of the main body outer shell 12 on the leeward side of the main fan 18 is leeward of the main fan 18 and it is difficult to efficiently apply the cooling air. However, in the present embodiment, cooling air can be blown by the auxiliary fan 29 to the top plate 11 above the side surface of the main body outer shell 12.

  As described above, in the present embodiment, the auxiliary fan 29 is provided on the leeward side of the operation duct 28 and air is blown from the auxiliary fan 29 toward the lower surface of the top plate 11, whereby the cooling air is displayed on the display unit 19. As well as being able to efficiently send to the operation circuit unit 20, cooling air can be blown to the top plate 11, and the cooling performance of the display unit 19 and the operation circuit unit 20 can be improved and used. The temperature of the top plate 11 that may be touched by a person can be reduced, and it can be used more safely.

(Embodiment 8)
FIG. 10 shows an induction heating cooker according to the eighth embodiment of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the present embodiment, the difference from the first embodiment is that the intake side of the auxiliary fan 29 is attached to the left opening 27 on the leeward side of the main fan 18 of the operation duct 28, and the exhaust port of the auxiliary fan 29 is connected to the main fan 18. That is, the structure is directed between the side surface of the main body outer shell 12 on the leeward side and the side surface of the roaster 15 on the leeward side. In the present embodiment, a sirocco fan is used as the auxiliary fan 29 as in the seventh embodiment. This is because an effect and an effect are exhibited by utilizing the feature of the intake and exhaust of the fan that the directions of the intake and exhaust of the fan are substantially perpendicular.

  Here, the flow of the cooling air of the auxiliary fan 29 will be described.

  First, outside air enters through an intake opening 17a provided behind the top plate 11, and the air discharged from the main fan 18 passes through the control circuit unit 16 and flows out to the vicinity of the operation circuit unit 20 in front of the right heating coil 13b. The air that has flowed out is sucked from the right opening 26 of the operation duct 28, and the sucked air passes through the operation circuit unit 20 and the display unit 19 in front of the right heating coil 13b to be cooled, and then the left heating coil 13a. Cooling air that has passed through the front operation circuit unit 20 and the display unit 19 and cooled, sucked into the auxiliary fan 29 provided in the left opening 27 on the left side of the operation duct 28, and blown out from the auxiliary fan is the main fan 18. The air is blown between the side surface of the main body outer shell 12 on the leeward side and the side surface of the roaster 15 on the leeward side, merges with the cooling air path of the main fan 18, and is discharged out of the main body outer shell 12 through the exhaust opening 17 b. In particular, the space between the side surface of the main body outer shell 12 on the leeward side of the main fan 18 and the side surface of the roaster 15 on the leeward side is leeward of the main fan 18, and it is difficult to efficiently apply the cooling air. However, in the present embodiment, cooling air can be blown by the auxiliary fan 29 between the side surface of the main body outer shell 12 and the side surface of the leeward roaster 15.

  As described above, in the present embodiment, the roaster 15 is provided in the main body outer shell 12, and the auxiliary fan 29 is provided on the leeward side of the operation duct 28, so that the auxiliary fan 29 is directed between the main body outer shell 12 and the roaster 15. By supplying air, the cooling air can be efficiently sent to the display unit 19 and the operation circuit unit 20 as well as the cooling air can be blown between the main body shell 12 and the roaster 15. 19 and the operation circuit unit 20 can be improved in cooling performance, and the thermal effect of the roaster 15 on the main body outer shell 12 can be reduced, and the temperature of the main body outer shell 12 can be lowered, so that it can be used more safely. .

  In each of the above-described first to eighth embodiments, the left and right heating coils 13a and 13b have been described as the heating coil 13. However, the heating coil 13 may be composed of a single or three or more heating coils. It is not limited.

  As described above, the induction heating cooker according to the present invention efficiently cools the display unit and the operation circuit unit for operating in front of the top plate (front side) of the top plate in addition to the control circuit unit and the heating coil. Therefore, it can be applied to built-in type, tabletop, and stationary induction heating cookers.

The exploded perspective view which shows the induction heating cooking appliance in Embodiment 1 of this invention Sectional drawing which shows the principal part structure of the induction heating cooking appliance The perspective view of the induction heating cooking appliance in Embodiment 2 of this invention Sectional drawing which shows the principal part structure of the induction heating cooking appliance Sectional drawing which shows the principal part structure of the induction heating cooking appliance in Embodiment 3 of this invention Sectional drawing which shows the principal part structure of the induction heating cooking appliance in Embodiment 4 of this invention The perspective view of the induction heating cooking appliance in Embodiment 5 of this invention The disassembled perspective view which shows the induction heating cooking appliance in Embodiment 6 of this invention. (A) Sectional drawing which shows the principal part structure of the induction heating cooking appliance in Embodiment 7 of this invention (b) The same side view (A) Sectional drawing which shows the principal part structure of the induction heating cooking appliance in Embodiment 8 of this invention (b) The same side view The exploded perspective view which shows the structure inside the conventional induction heating cooking appliance

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Top plate 12 Body outline 13 Heating coil 13a Left heating coil 13b Right heating coil 14 Radiant heater 15 Roaster 16 Control circuit part 18 Main fan 19 Display part 20 Operation circuit part 21 Contact part 22 Operation key 26 Right opening part 27 Left opening Reference numeral 28: Operation duct 29: Auxiliary fan 30: Main body outer front hole 31: Main body outer front hole connection duct part 32: Operation case upper hole 33: Guide part 34: Display hole 35: Sealing body 36: Main body outer side hole

Claims (8)

Main body outer shell constituting the outer shell, a top plate for placing an object to be heated provided on the upper portion of the main body outer shell, a heating coil for inductively heating the object to be heated provided on the lower portion of the top plate, and supplying current to the heating coil A control circuit unit that performs the operation, a main fan that blows air to cool the heating coil and the control circuit unit, an operation state display unit that is disposed in front of the heating coil and below the top plate, and an operation circuit unit that operates the heating coil. The display unit and the operation circuit unit are provided in an operation duct having an auxiliary fan and serving as an air passage from the main fan, and are operated by blowing air from the auxiliary fan and blowing from the main fan supplied to the operation duct. An induction heating cooker that cools the display unit and the operation circuit unit in the duct. The induction heating cooker according to claim 1, wherein a part of the operation duct is communicated with outside air. The induction heating cooker according to claim 1 or 2, wherein the operation duct is provided with a guide portion that guides a part of the blast on the lower surface of the top plate. In any one of Claims 1-3 which provided the display hole above the operation duct facing a display part, and has arrange | positioned the sealing body which seals a clearance gap between the circumference | surroundings of a display hole and a lower surface of a top plate. The induction heating cooker described. The induction heating cooker according to any one of claims 1 to 4, wherein a part of the operation duct is communicated with outside air through a side surface of the outer shell of the main body. The induction heating cooker according to any one of claims 1 to 5, wherein an auxiliary fan is provided on the leeward side of the operation duct and blows air from the auxiliary fan toward the heating coil. The induction heating cooker according to any one of claims 1 to 5, wherein an auxiliary fan is provided on the leeward side of the operation duct so as to blow air from the auxiliary fan toward the lower surface of the top plate. The induction according to any one of claims 1 to 5, wherein a roaster is provided in the outer shell of the main body and an auxiliary fan is provided on the leeward side of the operation duct so as to blow air from the auxiliary fan to the outer shell of the main body and the roaster. Cooking cooker.

Images