JP7284993B2 - heating cooker - Google Patents

Description

The present invention relates to a heat cooker.

2. Description of the Related Art Conventionally, there has been known a stove in which electrical components such as a liquid crystal display are provided on the lower surface side of a top plate and the electrical components can be cooled by a blower fan (see, for example, Patent Document 1).

JP 2015-10756 A

In the above-described stove, there is a possibility that the air inside the stove is sucked through the gap where the blower fan is attached, making it impossible to sufficiently cool the electrical components.

SUMMARY OF THE INVENTION An object of the present invention is to provide a heating cooker capable of keeping air-tight attachment of a cooling fan in a duct portion and preventing hot air in the housing from being sucked into the duct portion.

The heating cooker of claim 1 includes a housing with an open top, a front panel fixed to the front surface of the housing, a grill storage provided on the center side of the housing, and a grill on the top of the housing. In a heating cooker comprising a top plate provided to block the opening, and an electrical component support portion supporting an electrical component on a lower surface of the top plate, the electrical component support portion is provided with the electrical component. and a cooling path through which cooling air flows, and an air intake port for taking in the cooling air into the cooling path, at least one of the left and right sides of the grill storage, and the rear side of the front panel is provided with a cylindrical duct portion extending upward from below toward the air intake port, the duct portion being provided inside the lower end portion, and a fan fixing portion to which a cooling fan is fixed; A duct-side intake port provided in a fixed portion and projecting forward toward the front panel in a cylindrical shape, and an overhanging portion projecting outward so as to surround the duct-side intake port. , the front panel includes a front wall portion to which a decorative plate is attached on the front side, a tubular portion provided on the front wall portion and protruding rearward, and a tubular portion provided inside the tubular portion and extending rearward from the front side. an intake passage formed in an elongated cylindrical shape for causing the cooling air drawn in from the front to flow rearward; a rear end opening of the intake passage that opens rearward is connected to the duct-side intake port; In addition, the protruding portion of the duct portion is tightly fixed to the rear end portion of the cylinder portion so as to surround the intake passage portion.

The wall portion forming the fan fixing portion of the heating cooker according to claim 2 is provided with a notch portion, and the fan fixing portion is formed with a predetermined gap in the opening formed by the notch portion. The cooling fan may be fixed so that the outer surface of the casing of the cooling fan is disposed in this state, and the harness connected to the cooling fan may be pulled out through the predetermined gap.

The duct portion of the heating cooker according to claim 3 has a flow channel portion extending upward from below toward the air intake port, and the rear surface portion of the front panel facing the flow channel portion has the flow channel. It is preferable to provide a duct fixing portion that protrudes toward the portion and fixes the flow passage portion.

The air intake of the electrical component support portion of the heating cooker according to claim 4 is connected to an upper end opening provided at the upper end portion of the duct portion so that the inner side of the duct portion and the electrical component support portion are connected. and the cooling passages of are communicated with each other.

According to the heating cooker of claim 1, since the duct-side inlet is double airtight, it is possible to prevent hot air in the housing from entering the duct.

According to the heating cooker of claim 2, it is possible to prevent hot air from entering the duct while maintaining the electrical connection of the cooling fan.

According to the heating cooker of claim 3, it is possible to prevent the flow path from collapsing due to repeated heating of the flow path by the combustion heat of the grill burner.

According to the heating cooker of claim 4, when attaching the top plate so as to block the upper opening of the housing, by connecting the air intake of the electrical component support portion to the upper end opening of the duct portion, The cooling path of the duct portion and the electrical component support portion can be communicated.

1 is a perspective view of a stove 1; FIG. 2 is a plan view of the stove 1; FIG. FIG. 3 is a cross-sectional view taken along line II shown in FIG. 2; 1 is a perspective view of a grill warehouse 10; FIG. 3 is a perspective view showing a state in which a left front panel 80 and a right front panel 90 are connected via a left duct portion 71 and a right duct portion 72 to a sensor case 40 fixed to the lower surface of the top plate 3. FIG. FIG. 6 is a perspective view seen from an angle different from that of FIG. 5; 4 is a perspective view of the upper surface side of the sensor case 40. FIG. 4 is a perspective view of the lower surface side of the sensor case 40. FIG. FIG. 6 is a partially enlarged view within the W region shown in FIG. 5; FIG. 10 is a diagram showing a state in which the operating portion 9 is rotated forward within the W1 region; FIG. 3 is an exploded perspective view of the sensor case 40, the right duct portion 72, and the right front panel 90 as seen obliquely from the rear right. FIG. 4 is an exploded perspective view of the sensor case 40, the right duct portion 72, and the right front panel 90 as seen obliquely from the front left. 4 is an exploded perspective view of the right front panel 90 and the right duct portion 72 as seen obliquely from the rear left. FIG.

Embodiments of the present invention will be described below. Unless there is a specific description, the structure of the apparatus described below is merely an example of explanation and not intended to be limiting. The drawings are used to explain technical features that can be employed by the present invention.

The structure of the stove 1 will be described with reference to FIGS. 1 to 6. FIG. The stove 1 shown in FIG. 1 is a built-in stove. A stove 1 includes a housing 2 and a top plate 3. The top plate 3 is made of glass. A left burner 4 is provided on the left side of the upper surface of the top plate 3, a right burner 5 is provided on the right side of the upper surface, and a grill exhaust port 7 is provided on the rear side of the upper surface. The lower surface of the top plate 3 is printed with non-transmissive printing that is partially transmissive. A grill door 8 is provided at the center of the front surface of the housing 2 so as to be able to be pulled out toward the front side. The grill door 8 opens and closes a grill opening (not shown) on the front side of a grill chamber 10 (see FIGS. 3 and 4) provided inside the housing 2 . A handle 8A is provided on the upper part of the front surface of the grill door 8 so as to protrude forward. On the front surface of the housing 2, decorative plates 6A and 6B are attached to the upper and lower left sides of the grill door 8, and decorative plates 6C and 6D are attached to the upper and lower right sides.

When the right decorative panels 6C and 6D are removed from the front surface of the housing 2, the front surface of the right front panel 90 is exposed as shown in FIG. A power switch 19 is provided on the upper front portion of the right front panel 90 . An opening 66 is provided in the upper front portion of the decorative plate 6C, and the power switch 19 protrudes forward from the opening 66 (see FIG. 1). A tubular intake passage portion 95 and an operation portion 9 are provided at the lower front portion of the right front panel 90 . The intake passage portion 95 extends rearward and has an air inlet 951 at its front end. The air inlet 951 opens downward near the front side of the bottom surface of the housing 2 . The operation unit 9 is for operating the grille, and is rotatably supported on the front lower portion of the right front panel 90 . The intake passage portion 95 takes in outside air through an air inlet 951 .

When the left decorative panels 6A and 6B are removed from the front surface of the housing 2, the front surface of the left front panel 80 is exposed as shown in FIG. A battery case 83 is provided in a substantially central portion of the front surface of the left front panel 80 so as to be able to be pulled out toward the front side. An intake passage portion 85 is provided in the lower front portion of the left front panel 80 . The intake passage portion 85 extends rearward and has an air inlet 851 at its front end. The air inlet 851 opens downward near the front side of the bottom surface of the housing 2 . The intake passage portion 85 takes in outside air through an air inlet 851 .

As shown in FIG. 2 , on the front side of the upper surface of the top plate 3 , a left operating section 11 for operating the left burner 4 is provided in front of the left burner 4 , and a right operating section 11 is provided in front of the right burner 5 . A right operating section 12 for operating the burner 5 is provided. The left operation unit 11 includes a plurality of reception units for receiving operations such as ignition, extinguishing, and increase/decrease of thermal power of the left burner 4 by the touch of a finger, a display unit for displaying timer time, etc. A light-emitting display section or the like that lights up or blinks is provided. Similarly to the left operation unit 11, the right operation unit 12 is also provided with a plurality of reception units, a display unit, a light emitting display unit, and the like corresponding to the operation of the right burner 5. FIG. On the front side of the central portion sandwiched between the left burner 4 and the right burner 5, there is provided a light-emitting display portion 13 for the grill that lights up when the grill is in use. In the left operation unit 11 and the right operation unit 12 , the reception unit, the light-emitting display unit, and the light-emitting display unit 13 for the grill are translucent buttons, marks, symbols, or the like printed on the top plate 3 . The display portion is a non-printing area of the top plate 3 and is a transparent window portion.

A single electrical board 100 (see FIG. 7) is provided on the front side portion of the bottom surface of the top plate 3 so as to correspond to the left operation portion 11, the right operation portion 12, and the grill light-emitting display portion 13 provided on the top surface. It is attached with an adhesive, double-sided tape, or the like. A sensor case 40 is fixed via a fixing plate 3A (see FIG. 6) so as to cover the electrical board 100 from below. The fixed plate 3A is fixed to the lower surface of the top plate 3. As shown in FIG. The sensor case 40 accommodates the electrical board 100 inside and supports the electrical board 100 attached to the lower surface of the top plate 3 from below.

On the upper surface of the electrical board 100, a capacitive sensing unit that senses fingertip touch is provided at a position corresponding to the reception unit, and a 7-segment display is provided at a position corresponding to the display unit. A light-emitting portion such as an LED is provided at a position corresponding to the light-emitting display portion and the grill light-emitting display portion 13 . As a result, in the left operation unit 11 and the right operation unit 12, the touch of the fingertip on each reception unit is sensed by each sensing unit of the electrical board 100, and the display by the 7-segment display and the light emission by the light-emitting unit are performed by the display unit. , the light-emitting display section, and the light-emitting display section 13 for the grill are recognized by the user. A specific structure of the sensor case 40 will be described later.

As shown in FIG. 2, on the rear side of the left operating section 11 is provided a sensor window section 15 having a generally arcuate shape in plan view, and on the rear side of the right operating section 12 is provided a sensor window section 15 having a generally arcuate plan view. A window portion 16 is provided, and a sensor window portion 17 having a substantially rectangular shape in a plan view is provided on the rear side of the grill light-emitting display portion 13 . The sensor windows 15 to 17 are non-printing regions having transparency, and transmit below the top plate 3 when viewed from above. Below the sensor window 15, four sensors 31 to 34 are arranged from left to right. Below the sensor window 16, four sensors 35 to 38 are arranged from left to right. One sensor 39 is arranged below the sensor window 17 . These nine sensors 31 to 39 (hereinafter collectively referred to as "sensors 30") are general distance measuring sensors capable of measuring the distance to a foreign object positioned above, such as infrared sensors. These nine sensors 31 to 39 are accommodated in a sensor case 40 fixed to the lower surface of the top plate 3 and supported on the lower surface side of the top plate 3 .

The structure and function of sensor 30 will now be described. The sensor 30 includes a light emitting portion 47 and a light receiving portion 48 (see FIG. 7). In addition, in the sensor case 40 shown in FIG. 7, the surface on the front side of the paper surface is defined as the upper surface. The light emitting unit 47 emits infrared light upward. The light receiving section 48 receives the reflected light of the infrared light emitted by the light emitting section 47 reflected by the foreign matter. Based on the intensity of the reflected light received by the light receiving section 48, the sensor 30 measures the distance to the foreign object by applying the triangulation method. When a foreign object (for example, a part of the user's body) enters above the corresponding sensor windows 15 to 17, the sensor 30 detects the light reflected by the foreign object through the sensor windows 15 to 17. The light is received by the light receiving unit 48 via the sensor, and the distance to the foreign object is measured. The sensor 30 outputs the measured distance to the foreign object to the controller (not shown) of the stove 1 as a distance signal. Based on the received distance signal, the control unit judges that the detected foreign matter is within a predetermined height range from the top plate 3, determines that there is a foreign matter, and controls the stove burners (left burner 4, right Control is performed to rapidly reduce the thermal power of the burner 5).

As shown in FIGS. 5 and 6, between the left end portion of the sensor case 40 and the rear end opening (not shown) of the intake passage portion 85 of the left front panel 80, there is a vertically extending substantially cylindrical body. A left duct portion 71 is connected. A cooling fan (not shown) is attached inside the left duct portion 71 . The left duct portion 71 supplies the cooling air taken into the intake passage portion 85 to the sensor case 40 . A substantially cylindrical right duct portion 72 extending vertically is connected between the right end portion of the sensor case 40 and the rear end opening portion 952 (see FIG. 11) of the intake passage portion 95 of the right front panel 90 . . A right cooling fan 75 is attached inside the right duct portion 72 . The right duct portion 72 supplies the cooling air taken into the intake passage portion 95 to the sensor case 40 . The specific structures of the left duct portion 71 and the right duct portion 72 will be described later.

The structure of the grill chamber 10 will be described with reference to FIG. The grill chamber 10 is formed in a substantially rectangular parallelepiped shape with an open front surface. The grill chamber 10 is equipped with a top fire burner 25 and a bottom fire burner 26. - 特許庁The top fire burner 25 and the bottom fire burner 26 are grill burners. The top flame burner 25 is a flat burner and is provided substantially at the center of the lower surface of the upper wall 101 of the grill chamber 10 . The bottom burner 26 is formed in a substantially U-shape (horse-shoe shape) that opens forward in a plan view, and includes a left flame hole portion 261 and a right flame hole portion (not shown). The left flame hole portion 261 extends in the front-rear direction at substantially the center in the height direction of the inner surface of the left side wall 102 . The right flame hole extends in the front-rear direction at substantially the center in the height direction of the inner surface of the right side wall 103 . In each of the left side wall 102 and the right side wall 103, a plurality of slit-shaped inlets 105 are arranged in the front-rear direction at positions substantially at the same height as the left flame hole portion 261 and the right flame hole portion. The intake 105 takes combustion air into the grill chamber 10 from the outside.

A heat shield plate 27 is attached to the upper portion of the upper wall 101 from above. The heat shield plate 27 has a substantially rectangular shape in plan view, and is formed in a substantially U shape opening downward in front view. Between the heat shield plate 27 and the upper wall 101, a gap extending in the front-rear direction is provided. The heat shield plate 27 suppresses the temperature rise of the top plate 3 when the grill chamber 10 is used. A through hole 271 penetrating in the vertical direction is provided on the front side of the heat shield plate 27 and substantially in the center in the left-right direction. The through-hole 271 is formed in a substantially rectangular shape in plan view. A connection tube 68 (see FIG. 6) of the sensor case 40, which will be described later, is fitted and connected to the through hole 271 from above (see FIG. 3).

A tubular duct portion 28 is provided at the rear portion of the grill chamber 10 . The duct portion 28 communicates with the inside of the grill chamber 10 and the gap between the upper wall 101 and the heat shield plate 27, respectively. The duct portion 28 extends obliquely upward from the rear portion of the grill chamber 10 toward the rear, and a grill exhaust port 281 is provided at the upper end portion thereof. The grill exhaust port 281 is arranged directly below the exhaust port 7 of the top plate 3 (see FIG. 3). As a result, combustion exhaust in the grill chamber 10 flows through the duct portion 28 and is discharged to the outside through the grill exhaust port 281 and the exhaust port 7 .

The structure of the sensor case 40 will be described with reference to FIGS. 7 and 8. FIG. In addition, in the sensor case 40 shown in FIG. 8, the surface on the front side of the paper surface is the bottom surface. The sensor case 40 is a resin structure extending in the left-right direction. The sensor case 40 has a body portion 41 . The main body portion 41 is a case body extending in the horizontal direction in a plan view, and includes a front side portion 44 and a rear side portion 45 .

The structure of the front side portion 44 will be described. As shown in FIG. 7, the front side portion 44 is the front side portion of the main body portion 41 and is formed in a substantially rectangular shape elongated in the horizontal direction in a plan view. The upper surface of the front side portion 44 is a surface facing the lower surface of the top plate 3 . A substrate accommodating portion 50 is provided on the upper surface of the front side portion 44 . The substrate housing portion 50 is formed in a box shape that opens upward. With the sensor case 40 fixed to the lower surface of the top plate 3 , the electrical substrate 100 attached to the lower surface of the top plate 3 is accommodated inside the substrate accommodating portion 50 . A left tubular portion 42 is provided at the left end portion of the lower surface of the front side portion 44 so as to protrude downward, and a right tubular portion 43 is provided at the right end portion of the lower surface so as to protrude downward.

Five projections 51A to 51E are protruded from the bottom surface of the substrate housing portion 50. As shown in FIG. Projection 51A is approximately the center of the bottom surface in the left-right direction, projection 51B is the front left corner of the bottom surface, projection 51C is the front right corner of the bottom surface, projection 51D is located between projections 51A and 51B and on the rear side, The convex portion 51E is provided between the convex portions 51A and 51C and at a position on the rear side. The convex portion 51B is formed in a belt shape extending in the front-rear direction in a plan view, and divides the inside of the board accommodating portion 50 into left and right. An elastic body (not shown) is attached to the upper surface of each of the projections 51A to 51E. The upper surface of each of the projections 51A to 51E is in close contact with the lower surface of the electrical substrate 100 attached to the lower surface of the top plate 3 via an elastic body. As a result, the electrical board 100 is stably supported from below inside the board accommodating portion 50 while floating from the bottom surface.

A left inlet 52 is provided at the left end of the bottom surface of the substrate housing portion 50 behind the protrusion 51B, and a right inlet 53 is provided at the right end behind the protrusion 51C. The left inlet 52 communicates with the inside of the left tubular portion 42 , and the right inlet 53 communicates with the inside of the right tubular portion 43 . Front discharge ports 54A and 54B (see FIG. 8) aligned in the left-right direction are provided in the front portion of the bottom surface of the substrate accommodating portion 50, which is generally central in the left-right direction. In the central portion of the board accommodating portion 50, the left front outlet 54A is provided to the left of the convex portion 51A. The right front outlet 54B is provided on the right side of the projection 51A. The front side discharge ports 54A and 54B open downward.

An opening 55 is provided behind the front discharge port 54A. Inside the opening 55, the connector section 100A (see FIG. 8) of the electrical board 100 is arranged. A left board path 50</b>A and a right board path 50</b>B are formed inside the board accommodating portion 50 . The left board path 50A is formed to the left of the protrusion 51A, and the right board path 50B is formed to the right of the protrusion 51A of the board accommodating section 50. As shown in FIG. Cooling air that has flowed into the left board path 50A from the left inlet 52 flows and is discharged from the front outlet 54A. The cooling air that has flowed into the right board path 50B from the right inlet 53 flows and is discharged from the front outlet 54B.

The structure of the rear side portion 45 will be described. As shown in FIG. 8, the rear portion 45 is the rear portion of the main body portion 41 and extends in the horizontal direction in a plan view. The upper surface of the rear side portion 45 is a surface facing the lower surface of the top plate 3 . A sensor housing portion 60 is provided on the lower surface of the rear side portion 45 . The sensor housing portion 60 has a long, wavy shape in which two circular arcs are arranged in the left-right direction in a bottom view, and is formed in a box shape that opens downward. The sensor housing portion 60 includes a left sensor housing portion 61 , a right sensor housing portion 62 and a central sensor housing portion 63 . The left sensor housing portion 61 is provided on the left side of the sensor housing portion 60 , the right sensor housing portion 62 is provided on the right side of the sensor housing portion 60 , and the center sensor housing portion 63 is provided on the center side of the sensor housing portion 60 . The left sensor housing portion 61 and the right sensor housing portion 62 are curved in a substantially arc shape so as to be concave rearward in bottom view. The central sensor housing portion 63 is formed in a substantially rectangular shape when viewed from the bottom.

Four sensors 31 to 34 are fixed in order from the left side to the right side inside the left sensor housing portion 61 . The light-emitting portion 47 and the light-receiving portion 48 of each of the sensors 31 to 34 are exposed in a tubular concave portion 451 formed on the upper surface side of the rear side portion 45 (see FIG. 7). With the sensor case 40 fixed to the lower surface of the top plate 3 , the sensors 31 to 34 are supported directly below the sensor window 15 of the top plate 3 . A left sensor path 60A is formed inside the left sensor housing portion 61 . Cooling air flows through the left sensor path 60A from the left end toward the center. A forward projecting portion 611 extending toward the front side portion 44 is provided at the left end portion of the left sensor housing portion 61 . The left inlet 52 is provided on the bottom surface of the forward projecting portion 611 . The left inflow port 52 is arranged above the left cylindrical portion 42 and communicates the board accommodating portion 50 and the left sensor accommodating portion 61 with each other.

Four sensors 35 to 38 are fixed inside the right sensor housing portion 62 in order from the left side to the right side. The light-emitting portion 47 and light-receiving portion 48 of each of the sensors 35 to 38 are also exposed in a tubular concave portion 451 formed on the upper surface side of the rear side portion 45 (see FIG. 7). With the sensor case 40 fixed to the lower surface of the top plate 3 , the sensors 35 to 38 are supported directly below the sensor window 16 of the top plate 3 . A right sensor path 60B is formed inside the right sensor housing portion 62 . Cooling air flows through the right sensor path 60B from the right end toward the center. A forward projecting portion 621 extending toward the front side portion 44 is provided at the right end portion of the right sensor housing portion 62 . The right inlet 53 is provided on the bottom surface of the forward projecting portion 621 . The right inlet 53 is arranged above the right tubular portion 43 and communicates the substrate housing portion 50 and the right sensor housing portion 62 with each other.

A sensor 39 is fixed to the inner central portion of the central sensor accommodating portion 63 . A light-emitting portion 47 and a light-receiving portion 48 of the sensor 39 are also exposed on the upper surface side of the rear side portion 45 (see FIG. 7). With the sensor case 40 fixed to the lower surface of the top plate 3 , the sensor 39 is supported directly below the sensor window 17 of the top plate 3 . A partition wall 631 is erected at a position adjacent to the left side of the sensor 39 inside the central sensor housing portion 63 . The partition wall 631 extends in the front-rear direction and partitions the inside of the central sensor housing portion 63 into a left sensor path 60A on the left sensor housing portion 61 side and a right sensor path 60B on the right sensor housing portion 62 side.

A lid portion 65 is fixed with a plurality of screws to the lower surface side of the rear side portion 45 having the above structure so as to close the inside of the sensor housing portion 60 . The lid portion 65 includes a left lid portion 651 , a right lid portion 652 , and a central lid portion 653 so as to correspond to the shape of the sensor housing portion 60 . The shapes of the left lid portion 651, the right lid portion 652, and the center lid portion 653 correspond to the shapes of the left sensor housing portion 61, the right sensor housing portion 62, and the center sensor housing portion 63, respectively. A left tubular portion 42 extending in the vertical direction is provided at the left end portion of the left lid portion 651 . The upper end opening of the left tubular portion 42 is arranged on the forward projecting portion 611 of the left sensor housing portion 61 . An air intake port 421 , which is a lower end opening of the left cylindrical portion 42 , protrudes downward from the forward protruding portion 611 . A rectangular frame-shaped elastic body 422 is fixed to the inlet 421 . A right tubular portion 43 extending in the vertical direction is also provided at the right end portion of the right lid portion 652 . The upper end opening of the right cylindrical portion 43 is arranged in the forward projecting portion 621 of the right sensor housing portion 62 . An intake port 431 of the right cylindrical portion 43 protrudes downward from the forward protruding portion 621 . A rectangular frame-shaped elastic body 432 is fixed to the inlet 431 .

The lower surface of the central lid portion 653 is provided with a substantially square tube-shaped connection tube 68 protruding downward. The connection tube 68 communicates with the inside of the central sensor housing portion 63 . An elastic body 69 having a substantially rectangular frame shape when viewed from the bottom is attached to the lower end portion of the connecting tube 68 protruding downward. A partition wall 681 is provided inside the connection tube 68 . The partition wall 681 partitions the inside of the connection tube 68 into left and right. When the lid portion 65 is fixed to the lower surface side of the rear side portion 45 , the lower end portion of the partition wall 681 contacts the upper end portion of the partition wall 631 of the central sensor housing portion 63 . The connection cylinder 68 can be attached from above to the through hole 271 of the heat shield plate 27 of the grill chamber 10 via the elastic body 69 . The connection tube 68 communicates with the lower gap of the heat shield plate 27 when attached to the through hole 271 .

The structure of the right front panel 90 will be described with reference to FIGS. 9-11. As shown in FIG. 9 , the right front panel 90 is formed in a substantially vertically long rectangular shape when viewed from the front, and includes a front wall portion 91 and a rear cylindrical portion 92 . The front wall portion 91 is formed in a substantially rectangular shape elongated in the vertical direction when viewed from the front, and includes a main body portion 91A and a frame portion 91B. The body portion 91A is provided on the upper side of the front wall portion 91 and has a substantially rectangular shape when viewed from the front. The body portion 91A has a power switch 19 on the upper right portion of the front surface. A decorative plate 6C (see FIG. 1) is attached to the front surface of the body portion 91A. A substantially cylindrical support column 94 protruding rearward is provided on the back side of the body portion 91A (see FIG. 11). A fixing hole 941 that opens rearward is provided at the rear end of the support column 94 . An auxiliary rib 942 having a substantially triangular shape in plan view is provided between the side surface of the support column 94 and the rear surface of the main body portion 91A. Auxiliary ribs 942 reinforce the support posts 94 .

The frame portion 91B is provided on the lower side of the front wall portion 91 and has a substantially rectangular frame shape when viewed from the front. A pair of shaft support portions 911 and 912 are provided on both left and right sides of the lower portion of the frame portion 91B. The lower portion of the substantially triangular prism-shaped operating portion 9 is rotatably supported by the pair of shaft support portions 911 and 912 . A rectangular opening 9B is provided in the front surface of the operating portion 9, and an intake passage portion 95 is arranged inside the opening 9B. A decorative panel 6</b>D (see FIG. 1 ) is fixed to the front surface of the operating section 9 . When the upper portion of the decorative plate 6D is pushed backward with a finger, the operation portion 9 is unlocked by the lock mechanism 98 provided on the front surface of the right front panel 90, and rotates forward with the lower portion as a base point. As a result, as shown in FIG. 10, the grill operation panel 9A provided on the rear side of the operation unit 9 is pulled forward.

The rear tubular portion 92 is provided so as to protrude rearward from the rear portion of the frame portion 91B. The rear tubular portion 92 is formed in a substantially square tubular shape. A fixing plate 93 (see FIG. 11) is provided above the opening on the rear end side of the rear tubular portion 92 . The fixing plate 93 is provided with two fixing holes 931 for fixing to the front surface of the body portion 731 . An intake passage portion 95 is provided on the bottom surface of the rear tubular portion 92 . The intake passage portion 95 is formed in a substantially square tubular shape extending in the front-rear direction. A plate-like closing portion 955 is provided at the front end portion of the intake passage portion 95 so as to close the opening thereof, and an air inlet 951 is provided below it. A lower end portion of the blocking portion 955 is positioned forward of a front end portion of the bottom surface of the intake passage portion 95 . Therefore, the air inlet 951 opens downward and is formed in a slit shape elongated in the left-right direction when viewed from the bottom. Furthermore, the position of the lower end of the closing portion 955 is higher than the bottom surface of the rear tubular portion 92 . Therefore, the air inlet 951 also opens forward and is formed in a slit shape elongated in the left-right direction when viewed from the front.

A pair of inclined portions 96 are arranged on both left and right sides of the air inlet 951 . The pair of inclined portions 96 are provided at the lower corners of the front end portions of the pair of left and right side walls 956 of the intake passage portion 95, and are inclined upward from the rear to the front. As shown in FIG. 11 , a rear end opening 952 is provided at the rear end of the intake passage portion 95 . The rear end opening 952 opens toward the rear and is formed in a generally rectangular shape when viewed from the rear. A protrusion 953 that protrudes upward in a rib shape is provided at the upper end of the rear end opening 952 .

Although not described in detail, the left front panel 80 also includes a front wall portion 81 and a rear tubular portion 82, similarly to the right front panel 90 (see FIG. 6). An intake passage portion 85 is provided on the bottom surface of the rear cylindrical portion 82 (see FIG. 5). A plate-shaped closing portion 855 is provided at the front end of the intake passage portion 85 so as to close the opening thereof, and an air inlet 851 is provided below it.

The structure of the right duct portion 72 will be described with reference to FIGS. 11 to 13. FIG. As shown in FIGS. 11 and 12 , the right duct portion 72 includes a front case portion 73 , a rear case portion 74 and a right cooling fan 75 . The front case portion 73 includes a main body portion 731 and a front flow path forming portion 732 . The main body portion 731 is formed in a substantially rectangular shape when viewed from the rear, and has substantially the same shape as the opening on the rear end side of the rear cylindrical portion 92 of the right front panel 90 . A fixing hole 736 is provided at the upper right corner of the main body portion 731 and at a position adjacent to the right side surface of a front flow path forming portion 732 to be described later. The fixing hole 736 corresponds to the fixing hole 931 on the right side of the fixing plate 93 of the right front panel 90 . An insertion tube portion 735 projecting forward is provided on the lower side of the front surface of the main body portion 731 . The insertion tube portion 735 is formed in a substantially square tube shape. Therefore, the body portion 731 projects outward from the rear end of the insertion tube portion 735 and is arranged to surround the insertion tube portion 735 .

The front flow path forming portion 732 extends upward from the lower back surface of the main body portion 731 while being inclined slightly to the right, and protrudes further upward from the upper end portion of the main body portion 731 . A cross section perpendicular to the length direction of the front flow path forming portion 732 is substantially U-shaped opening toward the rear. A fixing piece 737 that protrudes leftward is provided on the left side surface of the upwardly protruding portion of the front flow path forming portion 732 . The fixing piece 737 is provided with a fixing hole (not shown) penetrating in the front-rear direction. A fan fixing portion 734 is provided at the lower end portion of the front flow path forming portion 732 . The fan fixing portion 734 has a substantially rectangular shape when viewed from the rear, and is formed in a substantially box shape that opens toward the rear. An insertion hole 733 that is inserted in the front-rear direction is provided on the inner surface of the main body portion 731 and inside the fan fixing portion 734 . The insertion hole 733 is formed in a generally circular shape when viewed from the rear. The insertion hole 733 communicates with the inside of the insertion tube portion 735 . Furthermore, a fixing hole 738 is provided inside the fan fixing portion 734 and near the upper left of the insertion hole 733 . The fixing hole 738 corresponds to the left fixing hole 931 of the fixing plate 93 of the right front panel 90 .

The rear case portion 74 includes a lid-shaped portion 741 and a rear flow path forming portion 742 . The lid-shaped portion 741 is provided below the rear case portion 74 . The lid-shaped portion 741 has substantially the same shape as the fan fixing portion 734 of the front case portion 73 and is formed in a substantially box-like shape that opens forward. A notch portion 743 formed in a substantially rectangular shape is provided in the lower left portion of the lid-like portion 741 . The rear flow passage forming portion 742 has a shape corresponding to that of the front flow passage forming portion 732 of the front case portion 73 and extends upward from the upper portion of the lid-shaped portion 741 while being slightly rightwardly inclined. A cross section perpendicular to the length direction of the rear flow path forming portion 742 is substantially U-shaped opening forward.

The right cooling fan 75 is fixed inside the fan fixing portion 734 of the front case portion 73 from behind. An air suction port (not shown) of the right cooling fan 75 is arranged on the insertion hole 733 side. An air blowing port (not shown) of the cooling fan is arranged upward toward the front flow passage forming portion 732 . The rear case portion 74 is attached from the rear to the front case portion 73 in which the right cooling fan 75 is fixed to the fan fixing portion 734, and is fixed with a plurality of screws. The right duct portion 72 is thus configured. Inside the front side flow path forming portion 732 and the rear side flow path forming portion 742, an air flow path is formed through which the air sucked by the right cooling fan 75 flows upward. A substantially rectangular outlet 721 is provided at the upper end of the right duct portion 72 . The outflow port 721 opens upward and serves as the outlet of the air flow path of the right duct portion 72 .

As shown in FIG. 13 , in the right duct portion 72 , the harness 751 of the right cooling fan 75 fixed to the fan fixing portion 734 is pulled out from a rectangular opening 744 formed by the notch portion 743 . be This opening 744 is closed by the outer surface of the casing 750 of the right cooling fan 75 . The periphery of the opening 744 and the outer surface of the casing 750 are in close contact. As a result, the stove 1 can prevent high-temperature air from entering the air flow path inside the right duct portion 72 while maintaining the electrical connection of the right cooling fan 75 .

Although not described in detail, the structure of the left duct portion 71 is also the same as the structure of the right duct portion 72 . A left cooling fan (not shown) is mounted inside the left duct portion 71, and an air flow path is formed through which air sucked by the left cooling fan flows upward from below. A substantially rectangular outlet 711 (see FIG. 6) is provided at the upper end of the left duct portion 71 . The outflow port 711 opens upward and serves as the outlet of the air flow path of the left duct portion 71 .

An example of a method for fixing the right duct portion 72 to the right front panel 90 will be described with reference to FIG. 13 . The body portion 731 of the front case portion 73 of the right duct portion 72 is positioned with respect to the rear end side opening of the rear cylindrical portion 92 of the right front panel 90 so as to close the opening from behind. The rear open end of the rear tubular portion 92 and the fixing plate 93 are in close contact with the front surface of the main body portion 731 . As a result, the opening on the rear end side of the rear tubular portion 92 is closed by the main body portion 731 .

Further, the insertion tube portion 735 of the right duct portion 72 is fitted and connected to the inner side of the rear end opening portion 952 of the intake passage portion 95 of the right front panel 90 . The rear end opening 952 is in close contact with the front surface of the body portion 731 . The projecting portion 953 is in close contact with the front surface of the main body portion 731 (see FIG. 9). At this time, the fixing hole 738 inside the fan fixing portion 734 of the right duct portion 72 faces the fixing hole 931 on the left side of the fixing plate 93 of the right front panel 90 and is fixed with screws. A fixing hole 736 near the upper right corner of the body portion 731 of the right duct portion 72 faces the fixing hole 931 on the right side of the fixing plate 93 of the right front panel 90 and is fixed with a screw. The right duct portion 72 is fixed to the right front panel 90 with a plurality of screws at a plurality of other locations. As a result, the air intake passage portion 95 of the right front panel 90 and the air flow path inside the right duct portion 72 communicate with each other. Accordingly, an intake duct extending from the air inlet 951 of the intake passage portion 95 to the outlet 721 of the right duct portion 72 is formed.

In this manner, the insertion cylinder portion 735 of the right duct portion 72 is fitted and connected to the inside of the rear end opening 952 of the intake passage portion 95 of the right front panel 90, and further surrounds the insertion cylinder portion 735. Since the front surface of the body portion 731 of the right duct portion 72 and the rear opening of the rear tubular portion 92 of the right front panel 90 are in close contact, the insertion tubular portion 735 is doubly airtight.

Further, the fixing hole of the fixing piece 737 of the right duct portion 72 is positioned with respect to the fixing hole 941 of the support column 94 projecting rearward from the back surface of the main body portion 91A of the right front panel 90, and screws are tightened. As a result, the portion of the right duct portion 72 that protrudes upward is firmly supported by the support column 94 of the right front panel 90 . The structure for fixing the left duct portion 71 to the left front panel 80 is the same as the structure for fixing the right duct portion 72 to the right front panel 90, so description thereof will be omitted.

An example of a method of connecting the left tubular portion 42 and the right tubular portion 43 of the sensor case 40 and the left duct portion 71 and the right duct portion 72 will be described with reference to FIGS. 6 and 11 . The top plate 3 is placed so as to block the upper opening of the housing 2 . At this time, as shown in FIG. 6, the intake port 421 of the left tubular portion 42 of the sensor case 40 fixed to the lower surface of the top plate 3 is positioned at the outlet port 711 of the left duct portion 71, and the elastic body 422 ( 8) to make a tight connection. As a result, the air intake passage portion 85 of the left front panel 80, the air flow path in the left duct portion 71, and the inside of the left cylindrical portion 42 of the sensor case 40 can be communicated with each other. On the other hand, the intake port 431 of the right cylindrical portion 43 is positioned at the outlet port 721 of the right duct portion 72 and closely connected via an elastic body 432 (see FIG. 8). As a result, the intake passage portion 95 of the right front panel 90, the air flow path in the right duct portion 72, and the inside of the right cylindrical portion 43 of the sensor case 40 can be communicated with each other. In this state, the top plate 3 is fixed to the upper opening of the housing 2 with screws.

5 to 8, the flow of the air sucked from the air inlets 851, 951 of the air intake passages 85, 95 to the sensor case 40 will be described. In the stove 1, the temperature around the grill 10 rises when the grill 10 is used. Therefore, it is preferable to cool the electrical board 100 housed in the sensor case 40 and the nine sensors 31 to 39 . Therefore, the control section of the stove 1 drives both the left cooling fan in the left duct section 71 and the right cooling fan 75 in the right duct section 72 .

When the left cooling fan in the left duct portion 71 is driven, external air is sucked into the air intake passage portion 85 from the air inlet 851 at the front lower portion of the left front panel 80 . Since the air inlet 851 opens downward in the vicinity of the bottom surface of the housing 2 , it is possible to effectively prevent high-temperature air around the grill chamber 10 from being sucked into the intake passage portion 85 . The air sucked into the intake passage portion 85 flows rearward through the intake passage portion 85 as cooling air supplied toward the sensor case 40 . The cooling air exits from the rear end opening (not shown) of the intake passage portion 85 and flows upward inside the left duct portion 71 . The cooling air that has flowed through the left duct portion 71 flows inward from the intake port 421 of the left tubular portion 42 of the sensor case 40 .

When the right cooling fan 75 in the right duct portion 72 is driven, outside air is sucked into the intake passage portion 95 from the air inlet 951 at the front lower portion of the right front panel 90 . Since the air inlet 951 is also open downward near the bottom surface of the housing 2 , it is possible to effectively prevent high-temperature air around the grill chamber 10 from being sucked into the intake passage 95 . Further, as described above, the insertion tube portion 735 of the right duct portion 72 is fitted into and connected to the inside of the rear end opening portion 952 of the intake passage portion 95 of the right front panel 90, and the body portion 731 of the right duct portion 72 and the rear opening of the rear cylindrical portion 92 of the right front panel 90 are in close contact with each other, so that the insertion cylindrical portion 735 of the right duct portion 72 is doubly airtight. As a result, for example, the high-temperature air inside the housing 2 can be effectively prevented from flowing forward through the rear cylindrical portion 92 of the right front panel 90 and being sucked into the air inlet 951 . In addition, it is possible to prevent high-temperature air in the housing 2 from being sucked into the right duct portion 72 through the gap of the fan fixing portion 734 . This configuration is the same on the left front panel 80 side.

The air sucked into the intake passage portion 95 flows rearward through the intake passage portion 95 as cooling air supplied toward the sensor case 40 . The cooling air exits from the rear end opening 952 of the intake passage portion 95 and flows upward through the right duct portion 72 . The cooling air that has flowed through the right duct portion 72 flows inward from the intake port 431 of the right cylindrical portion 43 of the sensor case 40 .

Here, as shown in FIG. 10, in the right front panel 90, when the operation portion 9 is pulled forward and used, the upper end side of the decorative plate 6D fixed to the front surface of the operation portion 9 falls forward. It is in an inclined state and is separated forward from the air inlet 951 of the intake passage portion 95 . In this case, sufficient air can be taken in from the air inlet 951 . On the other hand, as shown in FIG. 9, when the operating portion 9 is housed in the frame portion 91B of the right front panel 90, the decorative plate 6D is vertically upright. The front side of the air inlet 951 is closed. However, since a pair of inclined portions 96 are arranged on both left and right sides of the air inlet 951, air is sufficiently taken in from the lateral direction through a gap formed between the decorative plate 6D and the pair of inclined portions 96. be able to. Moreover, regardless of the posture of the operation unit 9, the air inlet 951 is open downward and is not blocked by the decorative plate 6D. Therefore, the stove 1 can sufficiently take air into the intake passage portion 95 from the air inlet 951 .

The flow of cooling air in the sensor case 40 will be described with reference to FIGS. 7 and 8. FIG. The cooling air that has flowed into the left tubular portion 42 is split by the left inlet 52 provided in the forward protruding portion 611 into the lower surface side and the upper surface side of the main body portion 41 at a predetermined ratio. On the other hand, the cooling air that has flowed into the right cylindrical portion 43 is also split by the right inlet 53 provided in the forward protruding portion 621 into the lower surface side and the upper surface side of the main body portion 41 at a predetermined ratio. In the present embodiment, since the electrical board 100 and the sensors 31 to 39 have different heat resistances, the left inflow port It is preferable to adjust the respective opening areas of 52 and right inlet 53 .

The flow of the cooling air diverted to the lower surface side of the main body 41 will be described. As shown in FIG. 8, the cooling air that has flowed from inside the left cylindrical portion 42 to the lower surface side of the main body portion 41 flows into the sensor housing portion 60 provided on the lower surface side of the rear side portion 45 from the left end side. The cooling air flows through the left sensor path 60A of the sensor accommodating portion 60 from the left end toward the center. As a result, the sensors 31-35 are cooled by the cooling air. The cooling air that has flowed toward the center through the left sensor path 60A flows out through the connection cylinder 68 provided in the center lid portion 653 . On the other hand, the cooling air that has flowed from inside the right cylindrical portion 43 to the lower surface side of the main body portion 41 flows into the sensor accommodating portion 60 from the right end side. The cooling air flows through the right sensor path 60B of the sensor accommodating portion 60 from the right end side toward the center side. As a result, the sensors 36-39 are cooled by the cooling air. The cooling air that has flowed toward the center through the right sensor path 60B flows out through the connection cylinder 68 provided in the center lid portion 653 . Since the elastic member 69 attached to the lower end of the connecting tube 68 is in close contact with the peripheral edge of the through hole 271 of the heat shield plate 27, cooling air is prevented from leaking outside through the gap between the connecting tube 68 and the through hole 271. can be prevented.

The cooling air that has flowed out through the connecting tube 68 flows rearward through the gap between the heat shield plate 27 and the upper wall 101 of the grill chamber 10 (see FIG. 3). As a result, it is possible to prevent high-temperature air from staying in the gap between the heat shield plate 27 and the upper wall 101 of the grill chamber 10, so that the temperature rise of the top plate 3 can be suppressed. The cooling air that has flowed backward through the gap flows into the duct portion 28 and is discharged to the outside through the grill exhaust port 281 and the exhaust port 7 together with the combustion exhaust from the grill chamber 10 .

The flow of the cooling air diverted to the upper surface side of the main body 41 will be described. As shown in FIG. 7, the cooling air that has flowed from inside the left cylindrical portion 42 to the upper surface side of the rear side portion 45 via the left inlet 52 of the forward projecting portion 611 flows into the substrate accommodating portion 50 from the left end side. . The cooling air flows through the left board path 50A of the board accommodation section 50 from the left end toward the center. As a result, the left half of the electrical board 100 is cooled by the cooling air. The cooling air that has flowed toward the center through the left substrate path 50A is discharged to the outside through the front discharge port 54A. On the other hand, the cooling air that has flowed from inside the right tubular portion 43 to the upper surface side of the rear side portion 45 via the right inlet 53 of the forward projecting portion 621 flows into the substrate accommodating portion 50 from the right end side. The cooling air flows through the right substrate path 50B of the substrate housing portion 50 from the right end toward the center. As a result, the right half of the electrical board 100 is cooled by the cooling air. The cooling air that has flowed toward the center through the right board path 50B is discharged to the outside through the front discharge port 54B. Here, the handle 8A of the grill door 8 is positioned below the front side discharge ports 54A and 54B. The cooling air discharged from the front side discharge ports 54A, 54B flows toward the handle 8A. Thereby, since the handle 8A is cooled by the cooling air, it is possible to suppress the temperature rise.

As described above, the stove 1 of the above embodiment includes the housing 2 , the left front panel 80 , the right front panel 90 , the grill chamber 10 , the top plate 3 and the sensor case 40 . The upper part of the housing 2 is open. A left front panel 80 and a right front panel 90 are fixed to the front surface of the housing 2 . The grill storage 10 is provided on the central side of the housing 2 . The top plate 3 is provided in the upper part of the housing 2 so as to close the opening. The sensor case 40 supports the electrical board 100 and the sensors 31 to 39 on the lower surface of the top plate 3 . The sensor case 40 includes a substrate housing portion 50 , a sensor housing portion 60 and inlets 421 and 431 . The electrical board 100 is arranged in the board accommodating portion 50, and a left side board path 50A and a right side board path 50B through which cooling air flows are formed. The sensors 31 to 39 are arranged in the sensor accommodating portion 60, and a left sensor path 60A and a right sensor path 60B through which cooling air flows are formed. The intake ports 421 and 431 take in cooling air from the outside, which flows through the left substrate path 50A, the right substrate path 50B, the left sensor path 60A, and the right sensor path 60B.

A cylindrical left duct portion 71 is provided on the left side of the grill chamber 10 and behind the left front panel 80 . The left duct portion 71 extends upward from below toward the intake port 421 on the left side of the sensor case 40 . A cylindrical right duct portion 72 is provided on the right side of the grill chamber 10 and behind the right front panel 90 . The right duct portion 72 extends upward from below toward the intake port 431 on the right side of the sensor case 40 .

A fan fixing portion 734 is provided inside the lower end portion of the right duct portion 72 . The right cooling fan 75 is fixed to the fan fixing portion 734 . An insertion tube portion 735 is provided in the fan fixing portion 734 . The insertion tubular portion 735 protrudes forward toward the right front panel 90 in a tubular shape. A body portion 731 projecting outward is provided around the insertion tube portion 735 . The right front panel 90 includes a front wall portion 91 , a rear tubular portion 92 and an intake passage portion 95 . On the front side of the front wall portion 91, decorative plates 6C and 6D are attached. The rear tubular portion 92 is provided so as to protrude rearward from the rear side of the front wall portion 91 . The intake passage portion 95 is provided on the bottom surface of the rear tubular portion 92 and is formed in a tubular shape extending rearward from the front side. The intake passage portion 95 allows the cooling air drawn in from the front to flow rearward. A rear end opening 952 of the intake passage portion 95 is fitted and connected to the insertion cylinder portion 735 of the right duct portion 72 . Further, the main body portion 731 of the right duct portion 72 is tightly fixed to the rear end portion of the rear cylindrical portion 92 of the front wall portion 91 so as to surround the intake passage portion 95 . As a result, the insertion tube portion 735 is doubly airtight, so that hot air inside the housing 2 can be prevented from entering the right duct portion 72 .

In the above description, the stove 1 is an example of the "cooking device" of the present invention. The sensor case 40 is an example of the "electric component support" of the present invention. The electrical board 100 and the sensors 31 to 39 are examples of the "electrical component" of the present invention. The left board path 50A, the right board path 50B, the left sensor path 60A, and the right sensor path 60B of the sensor case 40 are examples of the "cooling path" of the present invention. Intakes 421 and 431 are examples of the "air intake" of the present invention. The left duct portion 71 and the right duct portion 72 are examples of the "duct portion" of the present invention. The insertion tube portion 735 is an example of the "duct-side inlet" of the present invention. The main body portion 731 of the right duct portion 72 is an example of the "overhanging portion" of the present invention. The rear tubular portion 92 is an example of the "tubular portion" of the present invention. A portion of the right duct portion 72 that forms a flow path with the rear flow path forming portion 742 of the rear case portion 74 and the front flow path forming portion 732 of the front case portion 73 is the "flow path portion" of the present invention. An example. The support post 94 on the rear side of the right front panel 90 is an example of the "duct fixing portion" of the present invention. The outflow port 721 of the right duct portion 72 is an example of the "upper end opening" of the present invention.

The present invention is not limited to the above embodiments, and various modifications are possible. In the above embodiment, the insertion tube portion 735 of the right duct portion 72 is fitted inside the rear end opening 952 of the intake passage portion 95 of the right front panel 90. The rear end opening portion 952 of the passage portion 95 may be in close contact with the passage portion 95 .

The stove 1 has a left duct portion 71 and a right duct portion 72 on both left and right sides of the grill chamber 10, but only one of them may be provided. In that case, cooling air may be supplied to the sensor case 40 from one of the left and right sides. Also, only one of the intake passage portions 85 and 95 of the left front panel 80 and the right front panel 90 may be provided.

The sensor case 40 of this embodiment accommodates and supports the electrical board 100 and the sensors 31 to 39, but may accommodate and support other electrical components.

The stove 1 of the above embodiment is a built-in stove, but it may be a table stove. Also, the number of stove burners is two in the above embodiment, but may be one or three or more.

The arrangement, number, and locations of the plurality of sensors 30 on the top plate 3 are not limited to those in the above embodiment, and can be freely changed. The central sensor 39 may be omitted. The sensor 30 is an infrared sensor that emits infrared light, but any sensor capable of detecting a foreign object may be used.

1 stove 2 housing 3 top plate 6C, 6D decorative plate 10 grill cabinet 31-39 sensor 40 sensor case 71 left duct section 72 right duct section 75 right cooling fan 80 left front panel 85, 95 intake passage section 90 right front panel 91 Front wall portion 92 Rear cylindrical portion 94 Supporting post 100 Electrical board 731 Body portion 743 Notch portion 750 Casing 751 Wiring 952 Rear end opening

Claims (4)

a housing with an open top;
a front panel fixed to the front surface of the housing;
a grill storage provided on the center side of the housing;
a top plate provided in the upper part of the housing so as to block the opening;
In a heating cooker comprising an electrical component support portion that supports electrical components on the lower surface of the top plate,
The electrical component support portion is
a cooling path in which the electrical component is arranged and through which cooling air flows;
an air intake for taking in the cooling air into the cooling path;
A cylindrical duct portion extending upward from below toward the air intake port is provided on at least one of the left and right sides of the grill chamber and on the rear side of the front panel,
The duct section
a fan fixing portion provided inside the lower end portion to which the cooling fan is fixed;
a duct-side inlet that is provided in the fan fixing portion and protrudes forward in a cylindrical shape toward the front panel;
a protruding portion protruding outward so as to surround the periphery of the duct-side intake,
The front panel is
a front wall portion to which a decorative plate is attached on the front side;
a tubular portion provided on the front wall portion and protruding rearward;
an intake passage portion provided inside the cylindrical portion and formed in a cylindrical shape extending rearward from the front side to flow the cooling air drawn in from the front side to the rear;
A rear end opening of the intake passage portion that opens to the rear is connected to the duct side intake port, and the overhanging portion of the duct portion extends toward the rear end portion of the cylindrical portion from the intake passage. A heating cooker characterized in that it is fixed in close contact so as to surround the part. A wall portion forming the fan fixing portion is provided with a notch portion ,
The cooling fan is fixed to the fan fixing portion so that the outer surface of the casing of the cooling fan is arranged with a predetermined gap formed in the opening formed by the notch,
2. The heating cooker according to claim 1 , wherein the harness connected to the cooling fan is pulled out through the predetermined gap . The duct section
A flow path portion extending upward from below toward the air intake,
3. A duct fixing portion protruding toward said flow channel portion for fixing said flow channel portion is provided on a rear surface portion of said front panel facing said flow channel portion. The heating cooker described in . The air intake of the electrical component support portion is connected to an upper end opening provided at the upper end portion of the duct portion, whereby the inside of the duct portion and the cooling path of the electrical component support portion communicate with each other. The heating cooker according to any one of claims 1 to 3, characterized in that:

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