JP4374750B2 - Induction heating cooker - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a stationary induction heating cooker for a kitchen or the like equipped with a roaster.
[0002]
[Prior art]
Conventionally, this type of induction heating cooker is used by being placed on a cabinet 1 in a kitchen, as shown in the perspective view of FIG. The vicinity of the outer shell excluding the main body outer top surface and the front surface is surrounded by a cabinet 1 of the kitchen. The induction heating cooker has a leg portion 3 that supports the main body 2 on the outer bottom surface of the box-shaped main body 2, a top plate 4 is provided on the outer top surface, and one set is provided below the top plate 4. The induction heating coils 5 and 6 are installed on the left and right sides of a substantially symmetrical shape, provided with cooling fans 7 and 8 on the lower front side and drive circuit boards 9 and 10 on the lower rear side, respectively corresponding to the induction heating coils 5 and 6. is doing. Air intake ports 11 and 12 are provided below the cooling fans 7 and 8. And it is set as the structure which provides the exhaust port 13 in the main body back surface.
[0003]
Since the individual induction heating coils 5 and 6 and the drive circuit boards 9 and 10 are cooled by the individual cooling fans 7 and 8, the inside of the main body can be cooled very efficiently. Moreover, the flow of the cooling air in the main body is shown in the schematic diagram of FIG. Outside air is sucked from the cabinet 1 secured by the legs 3 and the space of the bottom face of the main body through the intake ports 11 and 12 provided on the bottom face of the main body (flow of intake air: 14). The outside air sucked from the intake ports 11 and 12 cools the induction heating coils 5 and 6 and the drive circuit boards 9 and 10 (flow of cooling air inside the main body: 15), and from the exhaust port 13 provided on the back surface of the main body. It is discharged to the outside (flow of main body cooling air exhaust: 16).
[0004]
[Problems to be solved by the invention]
However, the induction heating cooker having such a configuration is expensive because two cooling fans 7 and 8 are required for the two induction heating coils 5 and 6 and the drive circuit boards 9 and 10. Moreover, since it is installed on the cabinet 1 and used, the wind exhausted from the exhaust port 13 provided on the back of the main body hits the wall surface of the kitchen, and a part of it winds around the intake ports 11 and 12 on the bottom surface. Exhaust air of a very high temperature is re-inhaled from the intake ports 11 and 12 and the cooling performance is affected. Further, the main body 2 does not have a roaster function, and when cooking roaster in the kitchen, another cooking device having a roaster function is required, and a cooking space has to be secured for this purpose.
[0005]
In addition, since the intake ports 11 and 12 for taking in outside air necessary for cooling the induction heating coils 5 and 6 and the drive circuit boards 9 and 10 are provided in front of the bottom surface of the main body, a roaster can be installed with the current configuration. In addition, since the width and height dimensions of the main body to be installed in the kitchen are determined, it was difficult to provide an induction heating cooker equipped with a roaster with a sufficient interior size in terms of configuration. . The present invention aims to solve these problems.
[0006]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides a leg portion that supports a main body , a top plate on which a cooking device to be heated provided on the top surface is placed, and a plurality of induction heating devices provided below the top plate. a coil, a roaster is lower than the plurality of induction heating coils, a heat insulating partition wall that is disposed at the top of the roaster, a drive circuit for controlling the energization of the induction heating coil provided on the side of the roaster, the The roaster exhaust port and the exhaust port for discharging the cooling air for cooling the main body are provided on the upper surface of the main body on the side where the roaster is located, and the intake port provided on the back surface of the main body and provided behind the drive circuit. wherein a cooling fan for cooling the drive circuit is covered by the intake fan casing in communication with the air inlet, the provided, the intake cooling air is sucked external air from the intake port Exhausted from the exhaust port through the upper surface of the heat insulating partition wall flows within the body while cooling the drive circuit from the discharge port of the fan casing, and an exhaust direction discharged from the exhaust port and the roaster exhaust port The intake direction to be sucked from the intake port is not the same direction, a louver is provided in the intake port, the louver projects outward from the back of the main body, and the opening of the louver is below or the roaster An induction heating cooker directed in a direction opposite to the direction in which it is located is provided.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
According to the first aspect of the present invention, there are provided a leg portion for supporting the main body, a top plate for placing the cooked utensil provided on the top surface, and a plurality of induction heating units provided below the top plate. A coil, a roaster below the plurality of induction heating coils, a heat insulating partition disposed above the roaster, a drive circuit provided beside the roaster and controlling energization of the induction heating coil, and comprising an exhaust port roaster discharges the roaster exhaust port and cooling air of the main body for cooling upper surface of the main body side positioned, and a suction port provided in the rear panel, it is provided behind the driving circuit wherein the cooling fan you cool the drive circuit is covered by the intake fan casing in communication with the air inlet, the provided, the intake off cooling air external air is sucked from the intake port Is exhausted from the discharge port of Nkesu from the exhaust port through the upper surface of the heat insulating partition wall flows within the body while cooling the drive circuit, before Sharing, ABS air inlet and the roaster exhaust port or we discharge issued are exhausted with the intake direction of the suction from the direction and the air inlet is in the odd situations in the same direction, the only set of louvers to the air inlet, said louver protrude outward from the body back to, and the opening of the louvers downward Or by making it an induction heating cooker directed in the direction opposite to the direction in which the roaster is located, it is difficult to re-inhale the hot air and smoke discharged from each exhaust port by the louver provided at the intake port, The outside air can be sucked smoothly, and the cooling performance can be further improved. In addition, liquid spills from the cooking vessel placed on the top plate, the liquid that hangs from the top to the back, or the splash of liquid from the wall that occurs when water is splashed on the wall facing the back of the main unit. Can be prevented from entering. Further, since the louver functions as a sound insulation wall, it is possible to reduce noise felt by the user during cooking. In addition, when the back is installed close to the opposite wall for some reason, the intake can be used without being completely shielded by the space secured by the protrusion of the louver. It is shielded and will not break immediately due to the temperature rise of the drive circuit in the device.
[0008]
According to a second aspect of the present invention, the louver is protruded outward from the back surface of the main body, and the opening of the louver is directed downward or in a direction opposite to the direction in which the roaster is located. parts protrude inwardly from said body rear, with a configuration in which directed towards on one or, to be more reliably prevent intrusion of liquid into the interior body than the effect of the invention of claim 1, wherein The opening area can be increased. Moreover, since there is no protrusion in the intake port on the back side, the appearance is neat.
[0009]
Invention of Claim 3 of this invention, The leg part which supports a main body, The top plate which mounts a to-be-heated cooking appliance on a top | upper surface, The some induction heating coil provided in the lower part of the said top plate, The roaster provided below the plurality of induction heating coils, a drive circuit for controlling energization, and a cooling fan for cooling the inside of the main body between the drive circuit and the back of the main body, A roaster exhaust port and an exhaust port for exhausting cooling air for cooling the main body are provided on the upper surface of the main body on the side where it is located, and a first intake port for cooling the main body is provided on the back of the main body on the side opposite to the side where the roaster is located The second intake port is provided at the rear of the bottom of the outer shell of the main body, and the second intake port is provided at the rear of the position of the cooling fan, thereby cooling the liquid that has entered through the intake port away from the cooling fan. F It can be difficult to suction by the suction force of the emissions. In addition, it is possible to make it difficult to directly suck dust accumulated on the cabinet where the main body is installed.
[0010]
According to a fourth aspect of the present invention, the second air inlet provided on the rear side of the bottom surface of the main body includes an inclined portion in which a part of the opening protrudes from the bottom surface of the main body outer shell, and the roaster is positioned in the inclined portion. By making the structure not inclined in the direction of the air, it is difficult to inhale relatively hot outside air on the bottom surface where the roaster is located, and the second intake port smoothly allows the liquid that has entered the inside of the main body to move along the inclination. Since it has a function of draining water to the outside and does not narrow the intake passage, the performance of the cooling fan does not deteriorate due to pressure loss, and the cooling performance is not affected.
[0011]
According to a fifth aspect of the present invention, there is provided a convex groove located between a second air inlet provided at the rear of the bottom surface of the main body outer shell and the cooling fan, and protruding outward from the bottom surface of the main body outer shell, and the convex groove By adopting a structure with a drain hole, it is possible to draw liquid that has entered the main body into the convex groove without narrowing the intake passage rather than projecting inward, and from the hole provided in the convex groove It can be discharged to the outside. Furthermore, since it protrudes outside the bottom surface, the space between the grounding surface and the legs can be narrowed to prevent intrusion of hot air sucked from the second air inlet provided on the bottom surface.
[0012]
【Example】
Example 1
Embodiment 1 of the present invention will be described below with reference to FIGS. 1, 2 and 3. FIG. FIG. 1 is a perspective view of a stationary induction heating cooker body of the present invention installed in a kitchen cabinet, FIG. 2 is a schematic diagram of the flow of exhaust air in the roaster cabinet and the cooling air in the body, and FIG. The schematic of the cross-section near the inlet provided on the back is shown.
[0013]
In FIG. 1, a box-shaped main body 21 has a top plate 22 placed on the upper surface, and two induction heating coils are provided on the lower side of the top plate 22 on the left side from the approximate center of the main body 21. A right induction heating coil 24 is arranged on the right side. The roaster unit 25 is provided below the left induction heating coil 23. Since the height dimension of the main body 21 is limited, only the left induction heating coil 23 is disposed in a limited space on the upper left side of the main body where the roaster portion 25 is disposed via a heat insulating partition wall 26. Has been. The exhaust in the roaster 25 is provided with an opening (a) 27 at the rear of the upper surface of the main body 21 and exhausted therefrom. The interior of the roaster section to the opening (a) 27 is connected through the exhaust duct 28 from the rear of the roaster section 25. Drive circuit boards 29 and 30 corresponding to the left and right induction heating coils respectively constitute a laminated structure at the lower front side of the right induction heating coil 24. Further, on the rear side, there is one cooling fan 31 that can cool the stacked drive circuit boards 29 and 30 simultaneously, and a cooling fan motor 32 that drives the cooling fan 31 is attached on the upper side, and an intake fan is installed. Covered by a case 33.
[0014]
Further, an air inlet 34 is provided on the outer rear surface of the main body 21, and a louver 35 having an opening facing downward is provided as shown in FIG. The intake port 34 is connected to the intake fan case 33. The cooling air blown from the discharge port 33-a of the intake fan case 33 cools the drive circuit boards 29 and 30 and the left and right induction heating coils 23 and 24 arranged in the laminated structure, and the upper surface of the heat shield partition wall 26 is cooled. It passes through and is discharged together with the exhaust in the roaster cabinet from an opening (a) 27 provided on the upper surface of the rear part of the main body. As described above, the entire main body 21 is integrated by the outer shell, supported by the legs 36 provided at the bottom of the outer shell, placed on the cabinet 37 of the kitchen, and the outer shell except the top and front surfaces of the main shell is It is configured to be surrounded by a kitchen cabinet 37.
[0015]
Next, the operation of this embodiment will be described with reference to FIG. In all combinations using the left and right induction heating coils 23, 24 and the roaster unit 25, the cooling fan motor 32 is energized, and when the cooling fan 31 is rotated by driving the cooling fan motor 32, External air (intake air flow: 38) is sucked from the intake port 34 and cools the drive circuit boards 29 and 30 arranged in a laminated structure ahead of the discharge port 33-a of the intake fan case 33. However, it flows in the main body (flow of cooling air inside the main body: 39), passes through the upper surface of the heat shield partition wall 26, and is exhausted from the opening (a) 27 on the upper surface of the rear portion of the main body outer shell. (Exhaust flow of main body cooling air: 40). At this time, the exhaust in the roaster 25 is also exhausted from the opening (a) 27 on the upper rear surface of the main body (exhaust flow in the roaster: 41).
[0016]
As a result, the exhaust direction in which the hot air and smoke are exhausted from the opening (a) 27 on the upper surface of the main body together with the exhaust in the roaster 25 chamber and the relatively high temperature exhaust used for cooling in the main body and the intake port. Since the intake directions to be sucked in from the same direction are not the same direction, it is possible to prevent the intake air from being taken in again from the intake port 34 which has become relatively high in temperature due to cooling in the main body, and to always inhale fresh outside air. 3 can be used without lowering the cooling performance, and the louver 35 is further provided as shown in FIG. In addition, since it is difficult to re-inhale hot air, the protective device does not operate due to a temperature rise inside the main body due to the hot air. Further, when the water spills on the top plate 22, the water 42 that touches the back surface does not easily enter the main body due to the effect of the louver 35. Further, it is possible to prevent the rebounding water 43 from the wall surface facing the back from entering the inside.
[0017]
In addition, the louver 35 serves as a sound insulation wall, can reduce the noise felt by the user than before, and the upper surface is flat except for the opening (a) 27 of the exhaust port, so that cooking is possible. Space can be expanded, so that the inlet 34 is not inadvertently blocked during cooking. Further, even when the back surface is installed close to the wall surface of the facing cabinet 37 for some reason, the intake port 34 is not completely shielded by the space secured by the protruding portion of the louver 35 and is used safely. be able to.
[0018]
The present invention is not limited only to the above-described embodiments. One drive circuit board or three or more induction heating coils or drive circuit boards may be used, and the opening of the roaster exhaust port may be used. Even in locations other than the upper surface, the intake direction for sucking outside air from the intake port may not be the same direction as the direction in which hot air or smoke is discharged from the exhaust port.
[0019]
Further, the same effect can be obtained when the opening direction of the louver is opposite to the direction in which the roaster is located.
[0020]
(Example 2)
Hereinafter, a second embodiment of the present invention will be described with reference to FIGS. FIG. 4 shows a perspective view of the stationary induction heating cooker main body of the present invention installed in a kitchen cabinet, and FIG. 5 shows a schematic view of a cross section near the air inlet provided on the back of the main body. In FIG. 4, a main body 51, a top plate 52, a left induction heating coil 53, a right induction heating coil 54, a roaster portion 55, a heat shield partition wall 56, an opening (a) 57, an exhaust duct 58, drive circuit boards 59 and 60, The cooling fan 61, the cooling fan motor 62, the intake fan case 63, the discharge port 63-a, the legs 65, and the cabinet 66 have the same configuration as in the first embodiment. The difference from the first embodiment is that, as shown in FIG. 5, spacers 67 for securing a space between the back surface and the outer wall of the cabinet 66 and louvers 68 of the air intake ports 64 protrude inward at the left and right ends of the back surface of the main body. Is a point. Since the flow of the cooling air in the main body in the present embodiment is the same as that in the first embodiment, a description thereof will be omitted.
[0021]
With this configuration, the following effects can be obtained. When water spills on the top plate 52, the water 69 that touches the outer surface of the outer shell and the water 70 caused by rebounding from the wall surface facing the outer surface of the outer shell are prevented more reliably than the configuration of the first embodiment. be able to. Further, since there is no protrusion on the rear intake port portion 64, the outline is also clean, and since the spacers 67 are provided at both ends of the rear surface, the intake port 64 is not completely shielded and the space near the intake port is provided. Can be secured. In addition, the noise felt by the user during cooking can be reduced as in the first embodiment.
[0022]
(Example 3)
In the following, a third embodiment of the present invention will be described with reference to FIGS. FIG. 6 shows a perspective view of the stationary induction heating cooker body of the present invention installed in a kitchen cabinet, and FIG. 7 shows a schematic diagram of the flow of exhaust air in the roaster cabinet and cooling air in the body. FIG. 8 shows a schematic diagram of a cross section near the air inlet provided on the back of the main body.
[0023]
In FIG. 6, a main body 71, a top plate 72, a left induction heating coil 73, a right induction heating coil 74, a roaster portion 75, a heat shielding partition 76, an opening (a) 77, an exhaust duct 78, drive circuit boards 79 and 80, The cooling fan 81, the cooling fan motor 82, the intake fan case 83, the discharge port 83-a, the legs 85, and the cabinet 86 have the same configuration as in the first embodiment. The difference from the first embodiment is that, as shown in FIG. 8, a first intake port 84-a is provided on the back surface of the main body, and a second intake port 84-b is provided on the rear side of the bottom surface of the main body. The -a and the second intake port 84-b are connected to the intake fan case 83, and the second intake port 84-b is provided behind the cooling fan 81.
[0024]
FIG. 7 shows the flow of cooling air in the main body in this embodiment. Outside air drawn from the first intake port 84-a (flow of intake air from the first intake port: 87-a) and outside air drawn from the second intake port 84-b (second intake air) The flow of the intake air from the mouth: 87-b) is discharged together from the discharge port 83-a, and cools the drive circuit boards 79, 80 and the left and right induction heating coils 73, 74 arranged in the laminated structure ( The flow of cooling air inside the main body: 88) passes through the upper surface of the heat insulating partition wall 56 and is discharged from the opening (a) 77 at the rear of the main body outline (flow of exhaust air from the main body cooling air: 89-a). At this time, the exhaust gas in the roaster cabinet is also discharged from the opening (a) 77 (exhaust flow in the roaster cabinet: 89-b).
[0025]
With such a configuration, the following effects can be obtained. As shown in FIG. 8, even if water or foreign matter enters from the first intake port 84-a, it can be made difficult to suck by the suction force of the cooling fan by moving away from the cooling fan. In addition, by making it difficult to directly suck the dust accumulated on the cabinet where the main body is installed, the reliability of the cooker main body can be improved without causing dust or the like to adhere to the fan motor and causing malfunction.
[0026]
The present invention is not limited to the embodiment described above, and the second air inlet may be in front of the bottom surface.
[0027]
(Example 4)
For Embodiment 4 of the present invention, FIG. 9 shows a schematic diagram of a section near the second air inlet provided on the bottom surface of the main body. In FIG. 9, a main body 91, a top plate 92, a cooling fan 93, a cooling fan motor 94, an intake fan case 95, a discharge port 95-a, a first intake port 96-a, a leg 97, and a cabinet 98 are shown in the third embodiment. The other configurations are the same as those in FIG. 6 of the third embodiment. The difference from the third embodiment is that the second intake port 96-b has a configuration in which a part of the opening is inclined. Exhaust in the roaster cabinet and the flow of cooling air in the main body are the same as in FIG.
[0028]
With such a configuration, the following effects can be obtained. When installed in the kitchen cabinet 98, the second intake port 96-b on the rear side of the bottom surface of the main body is used for supporting the main body even if the first intake port 96-a provided on the back surface of the main body is blocked for some reason. The space is secured by the legs 97, and the intake port is shielded so that the temperature of the drive circuit in the device does not break immediately and the protective device does not work. Moreover, even if the second intake port 96-b is shielded for some reason, the same effect is obtained. Furthermore, since the intake area can be made larger than that in the third embodiment, the pressure loss to the cooling fan can be reduced and the outside air can be sucked in efficiently. In addition, even if water or foreign matter enters from the first air inlet 96-a, it is smoothly discharged to the outside from the opening provided with the inclined portion of the second air inlet 96-b. It is possible to realize an induction heating cooker that can improve the reliability of the cooker body against malfunction without being sucked.
[0029]
(Example 5)
For Embodiment 5 of the present invention, FIG. 10 shows a schematic diagram of a cross section near the second air inlet provided on the bottom surface of the main body. In FIG. 10, a main body 101, a top plate 102, a cooling fan 103, a cooling fan motor 104, an intake fan case 105, a discharge port 105-a, a first intake port 106-a, a second intake port 106-b, legs. The unit 107 and the cabinet 108 are the same as those in the third embodiment, and other configurations are the same as those in FIG. 6 of the third embodiment. In the configuration different from the third embodiment, a convex groove 109 protrudes outward from the outer bottom surface between the second air inlet 106-b and the cooling fan 103 inside the intake fan case 105, and the convex groove 109 drains water. The hole 110 is provided. Exhaust in the roaster cabinet and the flow of cooling air in the main body are the same as in FIG.
[0030]
With such a configuration, the following effects can be obtained. If the convex groove 109 is protruded inward, the intake passage is narrowed and the pressure loss to the cooling fan is increased, and a necessary air volume cannot be secured. However, in this configuration, the main body is not narrowed without narrowing the intake passage. The liquid that has entered the inside can move to the convex groove by the suction force of the fan, can be drawn into the convex groove, and can be discharged to the outside from the drain hole 110 provided in the convex groove 109. Furthermore, since it protrudes outside the bottom surface, it is possible to narrow the space between the grounding surface and the legs, making it difficult for hot air sucked from the second air inlet provided on the bottom surface to enter.
[0031]
【The invention's effect】
As described above, according to the present invention, the roaster can be installed in the main body without difficulty, and the hot air and smoke discharged from each exhaust port are difficult to be re-inhaled by the louver provided at the intake port. In addition, fresh outside air can be sucked smoothly, and the cooling performance can be further improved. In addition, liquid spills from the cooking vessel placed on the top plate, the liquid that hangs from the top to the back, or the splash of liquid from the wall that occurs when water is splashed on the wall facing the back of the main unit. Can be prevented from entering. Further, since the louver functions as a sound insulation wall, it is possible to reduce noise felt by the user during cooking. In addition, when the back surface is installed close to the opposite wall for some reason, the intake port can be used without being blocked by the space secured by the protruding portion of the louver, so all the intake ports are shielded. Therefore, it will not break immediately due to the temperature rise of the drive circuit in the equipment.
[0032]
According to the third aspect of the present invention, it is possible to make it difficult for the liquid that has entered from the air inlet to be sucked by the suction force by moving away from the cooling fan. In addition, it is possible to make it difficult to directly suck dust accumulated on the cabinet where the main body is installed.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an induction heating cooker when a cabinet is installed in Embodiment 1 of the present invention. FIG. 2 is an exhaust in a roaster cabinet and cooling air in a main body of the induction heating cooker in Embodiment 1 of the present invention. FIG. 3 is a schematic diagram of a cross section near the air inlet provided on the back of the main body of the induction heating cooker in Embodiment 1 of the present invention. FIG. 4 is induction heating at the time of cabinet installation in Embodiment 2 of the present invention. FIG. 5 is a schematic view of a cross section near the air inlet provided on the back of the main body of the induction heating cooker in Embodiment 2 of the present invention. FIG. 6 is induction heating at the time of cabinet installation in Embodiment 3 of the present invention. FIG. 7 is a perspective view of the cooking device. FIG. 7 is a schematic diagram of the flow of exhaust air in the roaster cabinet and the cooling air in the main body of the induction heating cooker in Embodiment 3 of the present invention. FIG. 8 is induction heating in Embodiment 3 of the present invention. Provided on the back of the cooker FIG. 9 is a schematic view of a cross section near the intake port. FIG. 9 is a schematic view of a cross section near the intake port provided on the bottom surface of the main body of the induction heating cooker in Embodiment 4 of the present invention. Schematic of the cross section of the vicinity of the second air inlet provided on the bottom surface of the main body of the induction heating cooker. FIG. 11 is an exploded perspective view of the induction heating cooker when the conventional cabinet is installed. Schematic diagram of cooling air flow 【Explanation of symbols】
2, 21, 51, 71, 91, 101 Main body 3, 36, 65, 85, 97, 107 Leg 4, 22, 52, 72, 92, 102 Top plate 5, 6, 23, 24, 53, 54, 73, 74 Induction heating coil 7, 8, 31, 61, 81, 93, 103 Cooling fan 9, 10, 29, 30, 59, 60, 79, 80 Drive circuit board 11, 12, 34, 64 Inlet 13 Exhaust Mouth 25, 55, 75 Roaster 26, 56, 76 Thermal barrier 27, 57, 77 Opening (a)
28, 58, 78 Exhaust duct 33-a, 63-a, 83-a, 95-a, 105-a Discharge port 84-a, 96-a, 106-a First intake port 84-b, 96- b, 106-b Second air inlet 35, 68 Louver 109 Convex groove

Claims (5)

Legs that support the main body, a top plate on which the cooked utensil provided on the top surface is placed, a plurality of induction heating coils provided below the top plate, and below the plurality of induction heating coils wherein the roaster and, a thermal barrier partition wall disposed at an upper portion of the roaster, a drive circuit for controlling the energization of the induction heating coil provided on the side of the roaster, the side of the top surface of the main body in which the roaster is located in roaster comprising an exhaust port and an exhaust port for discharging the cooling air of the main body for cooling, and a suction port provided in the rear panel, the intake fan casing is provided on the rear of the drive circuit connected to the intake port covered provided, and cooling fan you cool the drive circuit, the drive cooling air external air is sucked from the intake port from the discharge port of the intake fan casing The road passes through the upper surface of the heat insulating partition wall flows within the body while cooling exhausted from the exhaust port, the suction from the front Sharing, ABS air inlet and the roaster exhaust port or we discharge the exhaust direction as the air inlet issued direction together with the intake direction is the odd situations in the same direction, the only set of louvers to the air inlet, said louver protrude outward from the rear panel, and the opening of the louver is positioned the lower or the roaster Induction heating cooker facing in the opposite direction . Louvers protruding outward from the rear panel to, and opening of the louvers instead be directed in the direction opposite to the direction in which the lower or roaster is positioned to protrude inwardly from said body rear openings of the louvers the induction heating cooker of claim 1, wherein the configuration directed towards on one or.   Legs that support the main body, a top plate for placing the cooking utensil on the top surface, a plurality of induction heating coils provided below the top plate, and provided below the plurality of induction heating coils A roaster, a drive circuit for controlling energization, and a cooling fan for cooling the inside of the main body between the drive circuit and the back of the main body, and a roaster exhaust port on the upper surface of the main body on the side where the roaster is located. An exhaust port for discharging cooling air for cooling the main body is provided, a first intake port for cooling the main body is provided on the back side of the main body opposite to the side where the roaster is located, and a second intake port is provided behind the bottom surface of the main body outer shell. And an induction heating cooker in which the second air inlet is provided behind the position of the cooling fan.   The second intake port provided at the rear of the bottom surface of the main body includes an inclined portion in which a part of the opening protrudes from the bottom surface of the outer shell of the main body, and the inclined portion is not inclined in the direction in which the roaster is located. Induction heating cooker.   4. The projection according to claim 3, wherein a convex groove is provided between the second air inlet provided at the rear of the bottom surface of the main body and the cooling fan, and protrudes outward from the bottom surface of the main body, and a drain hole is provided in the convex groove. Induction heating cooker.

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